DIBYENDU SARKAR

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DIBYENDU SARKAR Professor, Civil, Environmental, and Ocean Engineering Department

Stevens Institute of Technology, Hoboken, NJ 07030 Phone: (201) 216-8028, FAX: (201) 216-8383

E-Mail: [email protected] August 2020

Section Description Page A Academic Training 2 B Work Experience

Teaching Research Service

2 4 6

C Refereed Bibliography Books and Research Monographs

Journal Articles and Book Chapter Technical Abstracts and Conference Proceedings

9 9 19

D Invited Presentations 35 E Non-Refereed Bibliography

Final Project Reports Instructional Manuals Thesis and Dissertation

36 35 35

F Funded Grants External Internal

38 40

G Professional Services 40 H Honors, Awards, and Special Recognitions 43 I Supervision of Thesis/Dissertations 44

Short Biography I am a professor of environmental engineering and founding director of the MS program in Sustainability Management at Stevens Institute Technology, New Jersey. I am also an adjunct professor at Michigan Technological University. Between 2008 and 2015, I was a professor of environmental science and founding director of the Environmental Management PhD program at Montclair State University, New Jersey. Prior to that, I served as an assistant (2000-04) and associate professor (2004-08) and associate dean of Graduate Studies and Research (2006-08) at the University of Texas at San Antonio. I graduated with a PhD in geochemistry from the University of Tennessee (Fall 1997) and worked as a postdoctoral scientist in soil and water chemistry at the University of Florida (1998-00). Thus far, I have advised/advising 30+ PhD and MS/ME students, 16 postdoctoral research associates, and hosted numerous visiting scholars. I have so far published 130+ journal articles, 15+ book chapters, and 250+ technical abstracts and conference proceedings. I have authored/edited 3 books/research monograph and have so far generated more than $9 million in grant funding to support the research activities of my group. According to Google Scholar (http://scholar.google.com/citations?user=h1qTjQ4AAAAJ&hl=en), as of Fall 2020, my publications have been cited more than 4300 times, with an h-index >35 and i-10 index >90. I am a Fellow of the Geological Society of America, and a Fellow of the Soil Science Society of America. I am the founding principal of SIROM Scientific Solutions, LLC, an environmental R&D startup incorporated in New Jersey. I am the founding editor-in-chief of Current Pollution Reports (Springer), founding section editor-in-chief of Applied Sciences (Environmental and Sustainable Science and Technology Section; MDPI), technical editor of International Journal of Environmental Science and Technology (Springer), and associate editor of GeoHealth (Wiley) and Environmental Technology and Innovation (Elsevier). I serve as a reviewer for many journals, and in panels of several grant funding agencies, including NIH and NSF.

http://scholar.google.com/citations?user=h1qTjQ4AAAAJ&hl=en

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A) ACADEMIC TRAINING:

• Sep 2003: Professional Geologist (PG) Certification, Texas Board of Professional Geoscientists • Aug 1993 - Dec 1997: Graduate Studies for Ph.D. in the Department of Geological Sciences,

University of Tennessee at Knoxville. [Ph.D. in Geochemistry awarded: December, 1997] • Aug 1992 - Jun 1993: Graduate Studies in the Department of Geology, University of

Maryland at College Park. [Transferred to UTK in August’93] • Jan 1989 - May 1991: Graduate Studies for M.S. in the Department of Geology, University of

Calcutta, India. [M.Sc. Degree awarded: June’91; Concentration: Geology] • Sep 1985 - Oct 1988: Bachelor of Science (Honors) Program at the University of Calcutta, India.

[Major: Geology; Minors: Physics, Mathematics; B.Sc. (Honors) Degree awarded: October’88]

B) WORK EXPERIENCE:

(I) Professor, Civil, Environmental, and Ocean Engineering Department, Stevens Institute of Technology, Hoboken, NJ, Spring 2016 – present

& Founding Director, Sustainability Management MS Program, Stevens Institute of Technology, Fall 2016 – present (II) Professor, Earth and Environmental Studies Department, Montclair State University, Montclair, NJ, Summer 2008 – Fall 2015

& Founding Director, Environmental Management PhD Program, Montclair State University, Spring 2009 – Summer 2015 (III) Principal and Chief Scientific Officer, SIROM Scientific Solutions, LLC, 2007 – present (IV) Assistant and Associate Professor, Earth and Environmental Science Department - Environmental Science Program, University of Texas at San Antonio, Fall 2000 – Spring 2008.

& Associate Dean for Graduate Studies and Research, College of Sciences, University of Texas at San Antonio, Spring 2006 – Spring 2008.

TEACHING:

SIT • Fall’2016: Perspectives in Environmental Management (SM 510/EN 510), Seminar in

Sustainability Management (SM 501/EN 501) • Spring’2017: Seminar in Sustainability Management (SM 501/EN 501) • Fall’2017: Perspectives in Environmental Management (SM 510/EN 510), Seminar in

Sustainability Management (SM 501/EN 501) • Spring’2018: Project in Sustainability Management (SM 690/EN 692), Seminar in Sustainability

Management (SM 501/EN 501) • Fall’2018: Perspectives in Environmental Management (SM 510/EN 510), Seminar in

Sustainability Management (SM 501/EN 501) • Spring’2019: Project in Sustainability Management (SM 690/EN 692), Seminar in Sustainability

Management (SM 501/EN 501)

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• Fall’2019: Perspectives in Environmental Management (SM 510/EN 510), Seminar in Sustainability Management (SM 501/EN 501)

• Spring’2020: Project in Sustainability Management (SM 690/EN 692), Seminar in Sustainability Management (SM 501/EN 501)

• Fall’2020: Perspectives in Environmental Management (SM 510/EN 510), Seminar in Sustainability Management (SM 501/EN 501)

MSU • Fall’2008: Research Methods in Environmental Management-I (ENVR 895), Independent Study

(ENVR 704) • Spring’2009: Research Methods in Environmental Management-II (ENVR 896), Colloquium in

Earth and Environmental Studies (ENVR 704-01), Independent Study (ENVR 704) • Fall’2009: Research Methods in Environmental Management-I (ENVR 895), Colloquium in Earth

and Environmental Studies (ENVR 704-01), Doctoral Dissertation (ENVR 900) • Spring’2010: Research Methods in Environmental Management-II (ENVR 896), Special Topics – • Quantitative Instrumental Methods (ENVR 704-02), Colloquium in Earth and Environmental Studies (ENVR 704-01), Independent Study (ENVR 704); Doctoral Dissertation (ENVR 900) • Fall’2010 : Research Methods in Environmental Management-I (ENVR 895), Colloquium in Environmental Management (ENVR 705), Doctoral Dissertation (ENVR 900) • Spring’2011: Research Methods in Environmental Management-II (ENVR 896), Colloquium in Environmental Management (ENVR 705), Independent Study (ENVR 704), Doctoral Dissertation (ENVR 900) • Fall’ 2011: Research Methods in Environmental Management-I (ENVR 895), Colloquium in Environmental Management (ENVR 705), Doctoral Dissertation (ENVR 900) • Spring’2012: Research Methods in Environmental Management-II (ENVR 896), Special Topics – Aqueous Geochemistry (ENVR 704-02), Colloquium in Environmental Management (ENVR 705), Independent Study (ENVR 704), Doctoral Dissertation (ENVR 900) • Fall’2012 : Research Projects in Environmental Management-I (EAES 895), Colloquium in Environmental Management (EAES 790), Doctoral Dissertation (EAES 900) • Spring’2013: Research Projects in Environmental Management-II (EAES 896), Colloquium in Environmental Management (EAES 790), Doctoral Dissertation (EAES 900) • Fall’2013: Research Projects in Environmental Management-I (EAES 895), Colloquium in Environmental Management (EAES 790), Special Topics - Aqueous Geochemistry (EAES 792-02, co-teach with Dr. S. Rakshit), Doctoral Dissertation (EAES 900) • Spring’2014: Research Projects in Environmental Management-II (EAES 896), Colloquium in Environmental Management (EAES 790), Independent Study (EAES 704), Doctoral Dissertation (EAES 900) • Fall’2014: Research Projects in Environmental Management-I (EAES 895), Colloquium in Environmental Management (EAES 790), Doctoral Dissertation (EAES 900) • Spring’2015: Research Projects in Environmental Management-II (EAES 896), Colloquium in Environmental Management (EAES 790), Special Topics - Aqueous Geochemistry (EAES 792-02, co-teach with Dr. P. Das), Independent Study (EAES 704), Doctoral Dissertation (EAES 900) • Fall’2015: Earth and Environment (EAES 107), Doctoral Dissertation (EAES 900)

UTSA

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• Spring’2001: Aqueous Geochemistry (GEO 6203), Independent Study (ES 6953, graduate level, GEO 4953, undergraduate level), Master’s Thesis (GEO 6983). • Fall ’2001: Instrumental Environmental Methods for Environmental Analysis (ES 6013); Principles of Geochemistry (GEO 3374), Independent Study (ES 6953,), Master’s Thesis (GEO 6983, ES 6983). • Spring’2002: Aqueous Geochemistry (GEO 6203); Environ Quality Colloquium (ES 6941); Master’s Thesis (GEO 6983, ES 6983).

• Fall’2002 : Instrumental Environmental Methods for Environmental Analysis (ES 6013); Principlesof Geochemistry (GEO 3374), Independent Study (ES 6953), Master’s Thesis (GEO 6983, ES6983).

• Spring’2003: Aqueous Geochemistry (GEO 6203); Environ Quality Colloquium (ES 6941); Independent Study (ES 6953), Masters Thesis (GEO 6983, ES 6983). • Fall’2003: Instrumental Environmental Methods for Environmental Analysis (ES 6013); Environ

Quality Colloquium (ES 6941), Independent Study (ES 6953), Master’s Thesis (ES 6983). • Spring’2004: Aqueous Geochemistry (GEO 6203/ES 6223); Independent Study (ES 6953),

Master’s Thesis (GEO 6983, ES 6983). • Summer’2004: Independent Study (ES 6953); Master’s Thesis (ES 6983). • Fall’2004: Instrumental Environmental Methods for Environmental Analysis (ES 6013);

Environmental Quality Colloquium (ES 6941), Independent Study (ES 6953, graduate level; GEO 4953, undergraduate level), Master’s Thesis (ES 6983).

• Spring’2005: Independent Study (ES 6953, graduate level), Master’s Thesis (GEO 6983, ES 6983) + One Course Buyout.

• Summer’2005: Independent Study (ES 6953); Master’s Thesis (ES 6983), Doctoral Research (ES7213).

• Fall’2005: Env. Methods Colloquium (EES 6941), Independent Study (EES 6953), Master’s Thesis (EES 6983), Doctoral Research (EES 7213) + One Course Buyout.

• Spring’2006: Aqueous Geochemistry (EES 6203), Independent Study (EES 6953), Master’s Thesis (EES 6983), Doctoral Research (EES 7213) + One Course Buyout.

• Summer’2006: Independent Study (EES 6953); Master’s Thesis (EES 6983), Doctoral Research (EES 7213), Doctoral Dissertation (EES 7313).

• Fall ’2006: Instrumental Environmental Methods for Environmental Analysis (EES 6013); Survey– Environmental Science (EES 5013); Graduate Seminar in Environmental Science and Engineering (EES 5981), Master’s Thesis (EES 6983), Doctoral Research (EES 7213), Doctoral Dissertation (EES 7313).

• Spring’2007: Graduate Seminar in Environmental Science and Engineering (EES 5981), Independent Study (ES 6953, graduate level), Master’s Thesis (GEO 6983, ES 6983), Doctoral Research (EES 7213), Doctoral Dissertation (EES 7313).+ One Course Buyout.

• Summer’2007: Independent Study (EES 6953); Master’s Thesis (EES 6983), Doctoral Research (EES 7213), Doctoral Dissertation (EES 7313).

• Fall’2007: Instrumental Environmental Methods for Environmental Analysis (EES 6013); Environ Quality Colloquium (ES 6941), Directed Research (EES 5973); Master’s Thesis (EES 6983), Independent Study (EES 6953), Doctoral Research (EES 7213), Doctoral Dissertation (EES 7313).

• Spring’2008: Independent Study (ES 6953, graduate level), Master’s Thesis (GEO 6983, ES 6983), Doctoral Research (EES 7213), Doctoral Dissertation (EES 7313).

• Summer’ 2008: Master’s Thesis (EES 6983), Doctoral Research (EES 7213), Doctoral Dissertation (EES 7313).

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RESEARCH:

Developed a research program in Environmental Quality, Remediation and Risk Assessment at SIT and MSU; Developed and directed the Environmental Geochemistry Laboratory at UTSA; Advised/advising 30 graduate students and 16 post-doctoral research associates.

Example topics: • Urban sprawl and “green” remediation of residential environmental contamination problems; • reclamation of radium-enriched wastewater for golf course irrigation in Sarasota, FL; • hydrogeochemical studies of water and sediments in a hyper-eutrophic sludge-disposal lake in San

Antonio, TX; • innovative methods to remove arsenic from groundwater; • innovative methods for clean-up of perchlorate-contaminated water; • removal of chromium from naval shipyards (stormwater discharge); • effects of slow-release nutrient sources (biosolids) in petroleum hydrocarbon biodegradation; • geochemical speciation and bioavailability of arsenic in pesticide-applied soils and its ultimate effect

on human health risk assessment; • understanding the relationship between geochemical speciation and potential carcinogenicity of

arsenic and lead species (in-vivo studies with nude mice and human cell lines); • arsenic-phosphorus interactions in pesticide-contaminated soils amended with water treatment

residuals from a remedial perspective; • chemically catalyzed phytoremediation of arsenic-contaminated soils; • effects of various agronomic practices on soil and water quality; • in-situ stabilization of arsenic in roxarsone-rich poultry litter using a novel, inexpensive sorbent; • chemically catalyzed phytoremediation of lead in residential soils contaminated by lead paints; • development of advanced gas adsorption methods for predicting the degree of chromium retention by

subsurface sediments; • development of a new in-vitro method to estimate potential bioaccessibility of metals; • development of new analytical methods for metal speciation in a variety of matrices; • development of a new hyphenated analytical technique (LC-ESI-MS) to identify and quantify

phytochelatins in response to metal stress; • geochemical fate and remediation of antibiotics in the environment; • green remediation of antimony and tungsten in soils and water; • green remediation of metals in shipyard stormwater; • reclamation of Tab Simco – an abandoned coal mine site in Southern Illinois; • phytoremediation of TNT contaminated soil and water; • fate of nitrous oxide in concentrated animal feeding operations; • sustainable reclamation of the Torch Lake Superfund site in Upper Peninsula, Michigan; • advanced oxidation processes for remediation of CFC and arsenic in groundwater; • sustainable methods for making coast more resilient to environmental damage during large storms • removal of explosive components (RDX, NTO, NQ, DNAN) from reject water in ammunition

production facilities • developing new varieties of biochar for removal of environmental contaminants • generating biofuel and biogas from spent biomass utilized for environmental remediation • removal of nutrients and emerging contaminants (e.g., pharmaceuticals) from domestic wastewater

in a constructed wetland setup

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• retrofitting green infrastructures for removal of metals and nutrients in stormwater runoff

Supervision of: Post-Doctoral Research Associates: • Dr. R. Datta (2002-2004) • Dr. S. Shrivastava (2003 –2004) • Dr. S. Kumaraswamy (2004-2005) • Dr. H. Mohammed (2004 - 2005) • Dr. S. Sharma (2004 - 2006) • Dr. K. C. Makris (2004 - 2008) • Dr. KMS Sumathy (2005 – 2006) • Dr. Badal Mandal (2005 – 2006) • Dr. Sudipta Rakshit (2009 – 2014) • Dr. Ramesh Attinti (2010 – 2014) • Dr. Kawalpreet Kaur (2012 – 2013) • Dr. Pravin Punamiya (2013 – 2015) • Dr. Padmini Das (2014 – 2015) • Dr. Virinder Sidhu (2016 - 2020) • Dr. Zhiming Zhang (2020 - )

• Visiting Scholars: • Dr. M. Barbooti, SRF Scholar from Iraq (2009 - 2012) • Dr. D. Ray, Fulbright Scholar from India (2010) • Dr. Antonio Caporale, Pre-doctoral Scholar from Italy (2010-11) • Dr. Viviana Fonti, Pre-doctoral Scholar from Italy (2012) • Ms. Sun Shixian, Pre-doctoral Scholar from China (2013-14) • Ms. Hu Siyang, Pre-doctoral Scholar from China (2017- 18) • Dr. T. Karak, Govt. of India Department of Biotechnology Visiting Scholar (2018-)

Graduate Students: Chacharee Therapong (Ph.D, 2007), Shahida Quazi (Ph.D., 2008), Rachana Nagar (Ph.D., 2008), Pravin Punamiya (Ph.D., 2013), Padmini Das (Ph.D., 2014), Abhishek Roychowdhury (Ph.D., 2015), Virinder Sidhu (Ph.D., 2015), Saumik Panja (Ph.D., 2019), Sameer Neve (Ph.D., current), Roxana Rahmati ((Ph.D., current); Mohammad Halim (Ph.D., current); Viravid Na Nagara (Ph.D., current). Melissa Haddad (MS, 2002); Michael Ferguson (MS, 2003), Marina Parra- Noonan (MS, 2004), Vandana Vandanapu (MS, 2005), Alpana Khairom (MS, 2005), Neal Simpson (MS, 2006), Abraham Frias (MS, 2006); Jason Salazar (MS, 2007); John Branom (MS, 2008); Christopher Amy (MS, 2008), Summer Barber (MS, 2008), Michael Hardy (MS, 2008), Pravin Punamiya (MS, 2008), Padmini Das (MS, 2008), Sunhawach Na Nagara (MS, 2017), Dongyong Park (MS, 2018), Pallabi Mukherjee (MS, 2018), Chuxiao Chen (MS, 2019).

SERVICE:

INTERNAL SERVICE: SIT: Founding Director of the MS Program in Sustainability Management (2016-present); Member, Department P&T Committee (2016-present); Chair, Department P&T Committee (2016-2018); Member, Faculty Senate (2018-present); Chair, Faculty Senate (2019-present); Member, University Academic Operations and Affairs Committee (2017 – 2019).

MSU: Founding Director of the PhD Program in Environmental Management.

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• Director of program students: Responsible for day-to-day program management, program development, student recruitment and retention, student financial support generation, duty assignment to student assistants, student advising, program advertisement, community outreach, professional networking, liaison with upper administration, and other relevant administrative duties. Between Spring 2009 and Fall 2015, number of PhD students in the program increased to 42, with all full-time students funded by the program by a combination of assistantships and fellowships.

• Director of doctoral faculty: Doctoral faculty members get 6 hours of course release per academic year in lieu of their service to the PhD program, and are appointed for a term of 4 years, renewable upon satisfactory performance. Director is responsible for primary evaluation of doctoral faculty applications, evaluation of annual progress, primary evaluation of final progress report and recommendation on renewal/non-renewal. As of Fall 2013, the PhD program has 18 core doctoral faculty members with expertise in various disciplines, including but not limited to Environmental Sciences, Environmental Engineering, Geology, Policy Studies, Economics, Ecology, Molecular Biology, Microbiology, Epidemiology, Chemistry, Computer Science, Sociology, and Business.

Serving on the following Departmental, College, and University COMMITTEES:

o Earth and Environmental Studies Curriculum Committee, 2008 – 2009 o Earth and Environmental Studies Facilities Committee, 2009 - 2012 o Earth and Environmental Studies Student Recruitment Committee, 2008 – 2015 o Earth and Environmental Studies Faculty Search Committee

• Member, Environmental Remediation Search, ISS Director Search • Chair, Environmental Economics Search

o Sustainability Institute Executive Committee, College of Science and Mathematics, 2008 – 2012 o Co-chair, Environmental Management PhD Program Executive Committee, 2008 - 2015o CSAM Deans Administrative Council, 2008 – 2012 o Graduate Council - CSAM Alternate, 2009 – 2010 o General Education Committee - CSAM Alternate, 2009 – 2010 o CELS Building Committee, 2009 – 2011 o Academic Writing Support for Non-Native English Speakers Advisory Committee, 2010

UTSA: Associate Dean for Graduate Studies and Research at the College of Sciences (CoS) – responsible for supervising routine day-to-day activities of the office and the administrative associate; evaluating current research policies of the College; planning and implementing new policies to improve recruitment and retention of graduate students and to ensure quality graduate education at CoS-UTSA; representing CoS in various university committees and meetings; initiating and developing collaborative relationships with international universities and organizations (e.g., Anna U, India; El Colegio Nacional, Mexico, CONACYT, Mexico), providing college administrative oversight on several minority grant programs (MBRS, MARC, LSAMP).

Other internal administrative positions: o Chair, Environmental Sciences Program Committee (2001- 2006) o Director, Environmental Geochemistry Laboratory (2001- 2008): Number of people under

supervision: 18 (in 2006-07) o Faculty Project and Development Specialist, College of Sciences (2001 – 2008)

Served on a variety of UTSA committees. A select few are:

o Elected Faculty Representative of the College of Sciences in University Assembly, 2005 – 2007.

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o Chair, Research Vision Committee, College of Sciences, 2006 – 2008 o Chair, Presidential Dissertation Awards Committee, 2006 o Chair, Graduate Studies Committee, Environmental Science, 2001 – 2006 o Chair, Assistantship Committee, Center for Water Research, 2003 – 2005. o Member, Strategic Planning Committee, UTSA, 2006. o Member, Budget Committee, College of Sciences, 2007 o Member, MBRS SCORE Budget Committee, 2005 – 2007 o Member, MBRS SCORE Grievance Committee, 2005 - 2007 o Member, Intellectual Property Committee, College of Sciences, 2004 - 2008 o Member, Doctoral Studies Committee, Environmental Science and Engineering, 2003 – 2004 o Member, Conflict-of-interest Committee, UTSA, 2006 – 2007 o Member, IAS Advisory Council, UTSA, 2006 - o Member, Parking Construction Focus Group, UTSA, 2006 o Member, Graduate Council, UTSA, 2002-2003 o Member: Graduate Faculty, UTSA, 2000 – 2008 o Member: Graduate Assistantship Committee, Environmental Science, 2001 – 2006 o Member: Assistantship Committee, Center for Water Research, 2001-2003 o Member: Hydrogeology Search Committee, Geology, 2001, 2003 o Member: Microbiology Search Committee, Environmental Science, 2002 o Chair: Isotope Geochemistry Search Committee, Geology, 2003 o Chair: Environmental Toxicology Search Committee, Environmental Sci., 2004 o Member: PhD Proposal Committee, Environmental Science & Engineering, 2000 – 2002 o Member: B.S. Proposal Committee, Environmental Science, 2002 – 2004 o Member: Curriculum Committee, Environmental Science, 2001 - 2007 o Member: Scheduling Committee, Environmental Science, 2001 – 2007

EXTERNAL SERVICE:

Please refer to ITEM (G) in the vitae. (IV) Research Scientist and Principal Investigator, Soil and Water Chemistry, Dept. Soil and Water Science, University of Florida, Gainesville, Spring 1998 – Summer 2000.

• Project 1: Reuse of Carlton Reject Water: Fate and transport of radium in soils. • Project 2: Fate and transport of phosphorus in sludge-amended systems. • Project 3: Bioavailability of molybdenum in sludge-amended soils. • Project 4: Biogeochemistry of phosphorus in land applied sewage sludge, commercial fertilizers,

and animal manures. • Project 5: Phosphorus contamination potential of groundwater associated with land application of

domestic and animal waste products in Florida (V) Graduate Teaching Assistant, Dept. Geological Sciences, University of Tennessee, Knoxville, Fall 1993 - Fall 1997.

• Laboratory Instructor: Physical Geology (GEO 101), Environmental Geology (GEO 102), and Economic Geology (GEO 480).

• Teaching Assistant: Geochemistry (GEO 460), Field Methods in Hydrogeology (GEO 595), Contaminant Hydrogeology (GEO 590); Rock-Prep Lab Assistant.

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(VI) Teaching Assistant, Dept. Geology, University of Maryland, Fall 1992 – Spring 1993.

• Laboratory Instructor: Physical Geology (GEOL 101). • Teaching Assistant: Environmental Geology (GEOL 220)

(VII) Research Fellow, Center for Study of Man and Environment, Calcutta, India, Spring 1992

• Program: Development of an Environmental Management Plan for Chakdah and Haringhata Blocks, Nadia District in West Bengal, India.

• Duties: Site assessment; field hydrogeological mapping; contamination analysis.

C) REFEREED BIBLIOGRAPHY:

IA. BOOK/RESEARCH MONOGRAPH

1. D. Sarkar, R. Datta, A. Mukherjee, and R. Hannigan (2015) An Integrated Approach to Environmental Management. Wiley. ISBN# 978-1-118-74435-2; 624 pp.

2. D. Sarkar, R. Datta, and R. Hannigan (2007) Concepts and Applications in Environmental Geochemistry. Elsevier. ISBN# 978-0-08-046522-7; 761 pp.

3. O’Connor, G.A., D. Sarkar, D.A. Graetz, and H.A. Elliott (2002) Characterizing forms, solubility, bioavailabilities, and mineralization rates of phosphorus in biosolids, commercial fertilizers, and manures. IWA Publishing. 164 pp.

IIA. JOURNAL ARTICLES AND BOOK CHAPTERS

1999

1. Sarkar, D., M.E. Essington, and K.C. Misra (1999) Adsorption of mercury(II) by variable charge surfaces of quartz and gibbsite. Soil Sci. Soc. Am. J. 63: 1626-1636.

2. Sarkar, D, G.A. O’Connor, G.J. Ruple, and J.B. Sartain (1999) Reuse of EDR reject water: II. Fate and transport of 226Ra. Soil Crop Sci. Soc. F. J. 58: 38-44.

3. Ruple, G.J., D. Sarkar, G.A. O’Connor, and J.B. Sartain (1999) Reuse of EDR reject water: I. Effects on Bermudagrass yield. Soil Crop Sci. Soc. F. J. 58: 31-38.

2000

4. Sarkar, D., M.E. Essington, and K.C. Misra (2000) Adsorption of mercury(II) by kaolinite. Soil Sci. Soc. Am. J. 64(6): 1968-1975.

5. Anjos, J.T., D. Sarkar, and G.A. O’Connor (2000) Characterizing extractable phosphorus in biosolids and biosolids-amended soils. Environmental Studies J. 20(2-3): 68-76.

2001

6. Sarkar, D. and G.A. O’Connor (2001) Estimating available molybdenum in biosolids amended soil using iron-oxide impregnated filter paper. Commun. Soil Sci. Plant Anal. 32(13): 2033-2048.

7. Sarkar, D. and G.A. O’Connor (2001) Using the Pi soil test to estimate plant available phosphorus in biosolids amended soil. Commun. Soil Sci. Plant Anal. 32(13): 2049-2063.

8. Sarkar, D. and M.E. Essington (2001) Response to ‘Comments on Adsorption of mercury(II) by variable charge surfaces of quartz and gibbsite.’ Soil Sci. Soc. Am. J., 65(4): 1349-1350.

2003

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9. Sarkar, D. and R. Datta (2003). A modified in-vitro method to assess bioavailable arsenic in pesticide-applied soils. Environ. Pollution 126: 263 - 266.

10. Haddad, M.J. and D. Sarkar (2003) Glomalin, a newly discovered component of soil organic matter. Part-I: Environmental significance. Environ. Geosci., 10(3): 91 - 98.

11. Haddad, M.J. and D. Sarkar (2003) Glomalin, a newly discovered component of soil organic matter. Part-II: Influence of soil properties. Environ. Geosci. 10(3): 99 - 106.

12. Sarkar, D (2003) Preliminary studies on mercury analysis in the presence of iron-oxide phases using static headspace analysis. Environ. Geosci. 10(4): 151 – 155.

13. Casunuran, V.B., S.B.H. Bach, and D. Sarkar (2003) Rapid analysis of organophosphorus pesticides in soils. Environ. Geosci. 10(4): 139 – 150.

2004

14. Datta, R. and D. Sarkar (2004) Biotechnology in phytoremediation of metal contaminated soil. Proc. Ind. Nat. Sci. Acad.-B. 70(1): 101-111.

15. Branom, J.R. and D. Sarkar (2004) Phosphorus bioavailability in sediments of a sludge- disposal lake. Environ. Geosci. 11(1): 42 - 52.

16. Sarkar, D. and R. Datta (2004) Arsenic fate and bioavailability in two soils contaminated with sodium arsenate pesticide. Bull Environ. Contamin. Toxicol. 72(2): 240-247.

17. Datta, R. and D. Sarkar (2004) Arsenic geochemistry in three soils contaminated with sodium arsenite pesticide: An incubation study. Environ. Geosci. 11(2): 85-95.

18. Datta, R. and D. Sarkar (2004) Effective integration of soil chemistry and plant molecular biology in phytoremediation of metals: An overview. Environ. Geosci. 11(2): 53-63.

19. O’Connor, G.A., D. Sarkar, S.R. Brinton, H. Elliott, and F.G. Martin (2004) Phytoavailability of biosolids-phosphorus. J. Environ. Qual. 33(2): 703-712.

20. Sarkar, D. and G.A. O’Connor. (2004) Bioavailability of phosphorus in biosolids-amended soils. Phase-I: Greenhouse Study. Commun. Soil Sci. Plant Anal. 35 (11-12): 1569-1589.

21. Sarkar, D., M. Parra-Noonan, and R. Datta. (2004) Distribution of arsenic in chemically variant dipping vat site soils. Bull Environ. Contamin. Toxicol. 73: 838-845.

22. Sarkar, D. and R. Datta (2004) Health Risk from Soil Arsenic: Does one size fit all. Arch. Environ. Health, 59(7): 337-341.

2005

23. Datta, R. and D. Sarkar. (2005) Consideration of soil properties in assessment of human health risk from exposure to arsenical pesticide applied soils. Integr. Environ. Assess. Mgmt. 1(1): 55-59.

24. Sarkar, D., M.C. Ferguson, R. Datta, and S. Birnbaum. (2005) Bioremediation of petroleum hydrocarbons in contaminated soils: Comparison of biosolids addition, carbon supplementation, and monitored natural attenuation. Environ. Pollution. 136: 187-195.

25. Sarkar, D., R. Datta, and S. Sharma. (2005) Fate and bioavailability of arsenic in organoarsenical pesticide applied soils. Part-I. Incubation Study. Chemosphere, 60: 188-195.

26. Manz, L.R., D. Sarkar, and W.W. Hammond (2005) Water resources and water quality in the Rio Grande valley of Texas: Current status and future projections. Environmental Geosciences, 12: 193-206.

27. Sarkar, D (2005) Soil phosphorus availability and its impact on surface water quality. In J. Lehr (ed) Encyclopedia of Water. Vol. 3, Surface and Agricultural Water. John Wiley and Sons, New York, NY, pp. 701-706.

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28. Sarkar, D, R. Datta, and A. Davani (2005) Remediation of contaminated soils. In J. Lehr (ed) Encyclopedia of Water. Vol. 5, Ground Water. John Wiley and Sons, New York, NY, pp. 432-436.

29. Datta, R. and D. Sarkar (2005) Phytoextraction of Zn and Cd from soils using hyperaccumulator plants. In J. Lehr (ed) Encyclopedia of Water. Vol. 5, Ground Water. John Wiley and Sons, New York, NY, pp. 369-374.

30. Datta, R. and D. Sarkar (2005) Phytoremediation of seleneum-laden soils. In J. Lehr (ed) Encyclopedia of Water. Vol. 3, Surface and Agricultural Water. John Wiley and Sons, New York, NY, pp. 397-401.

31. Sarkar, D, V. Vandanapu, and R. Datta (2005) Soil nitrogen management impact on quality of surface and subsurface water. In J. Lehr (ed) Encyclopedia of Water. Vol. 3, Surface and Agricultural Water. John Wiley and Sons, New York, NY, pp. 694-701.

32. Datta, R. and D. Sarkar (2005) Genetics of metal tolerance and accumulation in higher plants. In J. Lehr (ed) Encyclopedia of Water. Vol. 5, Ground Water. John Wiley and Sons, New York, NY, pp. 284-290.

33. Datta, R., D. Sarkar, A. Khairom, and C. Therapong (2005) Phytoremediation of constructed wetlands. In J. Lehr (ed) Encyclopedia of Water. Vol. 3, Surface and Agricultural Water. John Wiley and Sons, New York, NY, pp. 364-371.

34. Johnston, T., R. Datta, and D. Sarkar (2005) Phytoextraction and phytostabilization: Technical, economic and regulatory considerations of the soil-lead issue. In J. Lehr (ed) Encyclopedia of Water. Vol. 5, Ground Water. John Wiley and Sons, New York, NY, pp. 365-369.

35. Quazi, S., D. Sarkar, and R. Datta (2005) Lead: Health effects. In J. Lehr (ed) Encyclopedia of Water. Vol. 2, Water Quality and Resource Development. John Wiley and Sons, New York, NY, pp. 432-440.

36. Sarkar, D. and R. Datta (2005) Arsenic concentrations and bioavailability in soils as a function of soil properties: A Florida case study. In M.N.V. Prasad, R. Naidu, and K. Sajwan (ed.) Trace Elements in the Environment. CRC Press, Boca Raton, FL, pp.77-93.

2006

37. Makris, K.C., D. Sarkar, and R. Datta (2006) Aluminum-Based Drinking-Water Treatment Residuals: A Novel Sorbent for Perchlorate Removal. Environ Pollution. 140: 9-12.

38. Nagar, R., D. Sarkar, and R. Datta (2006) Effect of sewage sludge addition on soil quality in terms of metal concentrations. Bull Environ. Contamin. Toxicol., 76(5): 823-830.

39. Simpson, N., D. Sarkar, R. Datta, and S. Sharma (2006) Effects of Sewage Sludge Disposal on Metal Contents in the Sediments and Water of Mitchell Lake, San Antonio, TX. Bull Environ. Contamin. Toxicol., 77(1): 104 – 111.

40. Makris, K.C., D. Sarkar., and R. Datta (2006) Evaluating a waste by-product as a novel sorbent for arsenic. Chemosphere, 64(5): 730 – 741.

41. Sarkar, D., K.C. Makris, R. Datta, and Khairom, A (2006) Effect of remedial treatment on phosphorus availability in an arsenical pesticide contaminated soil. Bull Environ. Contamin. Toxicol., 77(1): 297 - 304.

42. Israr, M., S. Sahi, R. Datta, and D. Sarkar (2006) Bioaccumulation and physiological effects of mercury in Sesbania drummondii Chemosphere, 65: 591 – 598.

43. Andra, S.S., D. Sarkar, R. Datta, and S.K. Saminathan (2006) Lead in soils collected from residential properties in Baltimore and San Antonio. Bull Environ. Contamin. Toxicol., 77: 643 - 650.

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44. Sarkar, D., R. Datta, S. Sharma, and K. Sand (2006) Arsenic biogeochemistry and human health risk assessment in organo-arsenical pesticide applied acidic and alkaline soils – Incubation study. Sci. Total Environ., 372: 39 - 48.

45. Makris, K.C., D. Sarkar, R. Datta, P. Ravikovitch, and A.V. Neimark (2006) Using nitrogen and carbon dioxide molecules to probe arsenic(V) bioaccessibility in soils. Environ. Sci. Technol., 40: 7732 - 7738.

2007

46. Makris, K.C., K.M. Shakya, R. Datta, D. Sarkar, and D. Pachanoor (2007). High uptake of 2,4,6 trinitrotoluene by vetiver grass – potential for phytoremediation? Environ. Pollution, 146: 1 – 4.

47. Sarkar, D., K.C. Makris, V. Vandanapu, and R. Datta (2007). Adsorption of arsenic in soils amended with water treatment residuals. Environ. Pollution, 146: 414 - 419.

48. Sarkar, D., K.C. Makris, R. Datta, and M. Parra-Noonan (2007) Effect of soil properties on arsenic fractionation and bioaccessibility in cattle and sheep dipping vat site soils Environ. International, 33: 164 - 169.

49. Makris, K.C., K.M. Shakya, R. Datta, D. Sarkar, and D. Pachanoor (2007) Chemically- Catalyzed Uptake of 2,4,6-Trinitrotoluene by Vetiveria zizanioides. Environ. Pollution, 148: 101-106.

50. Makris, K.C., D. Sarkar, J.G. Parsons, R. Datta, and J. Gardea-Torresdey (2007). Surface arsenic speciation of a drinking water treatment residual using X-Ray absorption spectroscopy. J. Coll. Interf. Sci., 311: 544-550.

51. Datta, R., K.C. Makris, and D. Sarkar (2007). Arsenic fractionation and bioaccessibility in two alkaline Texas soils incubated with sodium arsenate. Arch. Environ. Contamin. Toxicol., 52: 475-482.

52. Sarkar, D., S. Quazi, K.C. Makris, R. Datta, and A. Khairom (2007). Arsenic bioaccessibility in a soil amended with drinking water treatment residuals in the presence of phosphate fertilizer. Arch. Environ. Contamin. Toxicol., 53: 329-336.

53. Makris, K.C., K.M. Shakya, R. Datta, D. Sarkar, and D. Pachanoor. Chaotropic effects on uptake of 2,4,6 trinitrotoluene by wheat grass (Triticum aestivum). Plant and Soil, 295: 229-237.

54. Datta, R., Sarkar, D., Punamiya, P., and Nagar, R. (2007) Response to Letter to the editor re: Datta et al., 2006 (Boyce et al.). Sci Total Environ.388 (2007)376-378.

55. Anderson, A., R. Nagar, and D. Sarkar (2007) Spatial and temporal effects on surface water quality in a segment of the San Antonio River, Texas. In D. Sarkar, R. Datta, and R. Hannigan (ed.) Concepts and Applications in Environmental Geochemistry. Elsevier, Amsterdam, The Netherlands, pp. 591-608.

56. Datta, R., K.C. Makris, and D. Sarkar (2007) Effects of incubation time and initial load on arsenic bioaccessibility in three Florida soils amended with sodium arsenate. In D. Sarkar, R. Datta, and R. Hannigan (ed.) Concepts and Applications in Environmental Geochemistry. Elsevier, Amsterdam, The Netherlands, pp. 327-344.

57. Quazi, S., D. Sarkar, R. Datta, and S. Sharma (2007) Greenhouse study on arsenic speciation and bioavailability in two pesticide-contaminated soils of Florida: Preliminary results. In D. Sarkar, R. Datta, and R. Hannigan (ed.) Concepts and Applications in Environmental Geochemistry. Elsevier, Amsterdam, The Netherlands, pp. 345-362.

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58. Datta, R., D. Sarkar, H. Mohamed, and C. Therapong (2007) Remediation of arsenical pesticide applied soils using water treatment residuals: Preliminary greenhouse results. In D. Sarkar, R. Datta, and R. Hannigan (ed.) Concepts and Applications in Environmental Geochemistry. Elsevier, Amsterdam, The Netherlands, pp. 543-560.

59. Sarkar, D., K.C. Makris, and Datta, R. (2007) Current trends and future directions in environmental geochemistry research. In D. Sarkar, R. Datta, and R. Hannigan (ed.) Concepts and Applications in Environmental Geochemistry. Elsevier, Amsterdam, The Netherlands, pp. 327-344.

2008

60. Makris, K.C., J. Salazar, S. Quazi, S. Andra, D. Sarkar, S.B.H. Bach, and R. Datta (2008) Controlling the fate of roxarsone and inorganic arsenic in poultry litter. J Environ Qual, 37: 963-971.

61. Makris, K.C., S. Quazi, P. Punamiya, D. Sarkar, and R. Datta, (2008) Fate of arsenic in swine waste from concentrated animal feeding operations. J Environ Qual, 37: 1626-1633.

62. Makris, K.C., P. Punamiya, D. Sarkar, and R. Datta (2008) Novel colorimetric method overcoming phosphorus interference during trace arsenic analysis in soil solution. The Analyst, 133: 191-196.

63. Makris, K.C., Quazi, S., Nagar, R., Sarkar, D., Datta, R., V.L. Sylvia (2008) In-vitro model improves prediction of soil arsenic bioavailability: worst-case scenario. Environ. Sci. Technol., 42: 6278-6284.

64. Andra SS, Datta R, Sarkar D, Makris KC, Mullens CP, Sahi SV and Bach SBH (2008) Induction of Lead-Binding Phytochelatins in Vetiver Grass [Vetiveria Zizanioides (L.)]. J. Environ. Qual., 38, 868-877

65. Sarkar, D, Andra, SS, Saminathan SK, and Datta R (2008) Chelant-aided enhancement of lead mobilization in residential soils. Environ. Pollut. 148: 1139-1148.

. 2009

66. Andra, S., Datta, R., Sarkar, D., Bach, S. (2009) Analysis of phytochelatin complexes in the lead tolerant vetiver grass (Vetiveria zizanioides) using liquid chromatography and mass spectrometry. Environ. Pollut. 157: 2173-2183.

67. Andra, S.S., Datta, R., Sarkar, D., Makris, K.C., Mullens, C.P., Sahi, S.V., and Bach, S.B.H. (2009) Induction of lead-binding phytochelatins in vetiver grass [Vetiveria zizanoides (L.)] J. Environ. Qual. 38: 868-877.

68. Nagar, R., Makris, K., Sarkar, D., Datta, R., Sylvia, V. (2009) Bioavailability and Bioaccessibility of arsenic in a soil amended with drinking water treatment residuals. Arch. Environ. Contamin. Toxicol. 57(4): 755-766.

69. Makris, K., Andra, S., Sarkar, D., Datta, R., Bach, S. (2009) Do lagoons near concentrated animal feeding operations promote nitrous oxide supersaturation? Environ. Pollut. 157: 1957-1960.

70. Makris, K., Andra, S., Sarkar, D., Hardy, M., Datta, R., Bach, S., Mullens, C. (2009) Nitrous oxide supersaturation at the liquid/air interface of animal waste. Environ. Pollut. 157(12): 3508-3513.

71. Andra, S., Datta, R., Sarkar, D., Bach, S., Mullen, C. (2009) Synthesis of phytochelatins in vetiver grass upon lead exposure in the presence of phosphorus. Plant and Soil 326: 171-185.

72. Makris, K., Sarkar, D., Parsons, J.G., Datta, R., and Gardea-Torresdey, J. (2009) X-ray absorption spectroscopy as a tool investigating arsenic(III) and arsenic(V) sorption by an aluminum-based drinking-water treatment residual. J. Hazard. Mater. 171: 980-986.

http://www.sciencedirect.com.ezproxy.montclair.edu:2048/science?_ob=ArticleURL&_udi=B6TGF-4WM756B-2&_user=687439&_coverDate=06%2F26%2F2009&_alid=977449062&_rdoc=2&_fmt=high&_orig=search&_cdi=5253&_sort=r&_docanchor&view=c&_ct=2&_acct=C000038299&_version=1&_urlVersion=0&_userid=687439&md5=62bcfe439f8ab6360098ac9cf9f51635





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2010

73. Makris, K., Sarkar, D., Salazar, J., Punamiya, P., and Datta, R. (2010) Alternative amendment for soluble phosphorus removal from poultry litter. Environ. Sci. Pollut. Res. 17(1):195-202.

74. Makris, K., Sarkar, D., and Datta, R. (2010) Coupling indigenous biostimulation with phytoremediation for the restoration of 2,4,6 Trinitrotoluene contaminated sites. J. Environ. Monitor. 12: 399-403. 75. Nagar, R., Sarkar, D., Makris, K., and Datta, R. (2010). Effect of solution chemistry on

arsenic sorption by Fe- and Al-based drinking-water treatment residuals. Chemosphere. 78(8): 1028-1035.

76. Andra, S., Makris, K., Quazi, S., Sarkar, D., Datta, R., and Bach, S. (2010). Organocopper complexes during roxarsone degradation in wastewater lagoons. Environ. Sci. Pollut. Res. 17(1): 1167-1173.

77. Punamiya, P., Datta, R., Sarkar, D., Barber, S., Patel, M., and Das, P. (2010). Symbiotic role of Glomus mosseae in phytoextraction of lead in vetiver grass [Chrysopogon zizanioides (L.)]. Jour.Hazard. Mater. 177: 465-474.

78. Andra, S., Datta, R., Sarkar, D., Bach, S., and Mullen, C. (2010). Synthesis of phytochelatins in vetiver grass upon lead exposure in the presence of phosphorus. Plant and Soil. 326(1-2): 171-185.

79. Das, P., Datta, R., Makris, K., and Sarkar, D. (2010). Vetiver grass is capable of removing TNT from soil in the presence of urea. Environ. Pollut. 158(5): 980-983.

80. Quazi, S., Sarkar, D., and Datta, R. (2010). Effect of soil aging on arsenic fractionation and bioaccessibility in inorganic arsenical pesticide contaminated soils. Appl. Geochem. 25: 1422-1430.

81. Andra, S., Sarkar, D., Saminathan, S., and Datta, R. (2010). Chelant-assisted phytostabilization of paint-contaminated residential sites. CLEAN - Soil, Air, Water. 38(9): 803-811.

82. Saminathan, S., Sarkar, D., Andra, S., and Datta, R. (2010). Lead fractionation and bioaccessibility in contaminated soils with variable chemical properties. Chem. Spec. Bioavail. 22(4): 215-225.

2011 83. Andra, S., Sarkar, D., Saminathan, S., and Datta, R. (2011). Predicting potentially plant-

available lead in contaminated residential sites. Environ. Monitor. Assess. 175: 661-676. 84. Datta, R., Quispe, M., Sarkar, D. (2011). A Greenhouse study on the phytoremediation potential

of vetiver grass, Chrysopogon zizanioides L., in arsenic-contaminated soils. Bull. Environ. Contamin. Toxicol. 86(1): 124-128.

85. Andra, S., Datta, R., Reddy, R., Saminathan, S. and Sarkar, D (2011). Antioxidant Enzymes Response in Vetiver Grass: A Greenhouse Study for Chelant-Assisted Phytoremediation of Lead-Contaminated Residential Soils. CLEAN – Soil, Air, Water. 39: 428-436.

86. Quazi, S., Datta, R. and Sarkar, D. (2011). Effects of soil types and forms of arsenical pesticides on rice growth and development. Inter. J. Environ. Sci. Technol. 8: 445-460.

87. Rakshit, S., Sarkar, D., Punamiya, P., Datta, R. (2011). Antimony sorption at gibbsite- water interface. Chemosphere. 84: 480-483.

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88. Quazi, S., Datta, R. and Sarkar, D. (2011). Changes in arsenic bioaccessibility, fractionation, and speciation in organo-arsenical pesticide amended soils as a function of soil aging. Chemosphere. 84: 1563-1571.

89. Andra, S., Sarkar, D., Saminathan, S., and Datta, R. (2011). Exchangeable lead from prediction models relates to vetiver lead in different soil types. Environ. Monitor. Assess. 183: 571-579.

2013 90. Datta, R, Das, P, Smith, S, Punamiya, P., Reddy, R., Sarkar, D. (2013). Phytoremediation

potential of vetiver grass for tetracycline. Inter. J. Phytorem. 15: 343-351. 91. Caporale, A.G.., Punamiya, P., Pigna, M., Violante, A., and Sarkar, D. (2013). Effect of particle

size of drinking wáter treatment residuals on sorption of arsenic in the presence of competing ions. J. Hazard. Mater. 260: 644-651.

92. Nagar, R., Sarkar, D., Makris, K., and Datta, R. (2013) Inorganic Arsenic Sorption by Drinking-Water Treatment Residuals Amended Sandy Soil: Effect of Soil Solution Chemistry. Inter. J. Environ. Sci. Technol.10: 1-10.

93. Rakshit, S., Sarkar, D., Elzinga, E., Punamiya, P., and Datta, R. (2013) Mechanisms of ciprofloxasin removal by nano-sized magnetite. J. Hazard. Mater. 246-247: 221-226.

94. Rakshit, S., Elzinga, E., Datta, R., and Sarkar, D. (2013) In-situ attenuated total reflection Fourier-transform infrared study of oxytetracyline sorption on magnetite. J. Environ. Qual. 42(3): 822-827.

95. Punamiya, P., Sarkar, D., Rakshit, S., and Datta, R. (2013) Effectiveness of Al-based drinking water treatment residuals as a novel sorbent for removal of tetracyclines from aqueous medium. J. Environ. Qual. 42: 1449-1459.

96. Datta, R., Geiger, E., and Sarkar, D. (2013) Lead and Phytoremediation. Lead and Phytoremediation. In Kretsinger, R.H., Uversky, V.H, and Permyakov, E.A. (ed.) Encyclopedia of Metalloproteins, pp. 1161-1166, Springer, New York.

97. Quazi, S., Sarkar, D., and Datta, R. (2013) Human health risk from arsenical pesticide contaminated soils: A long-term greenhouse study. J. Hazard. Mater. 262: 1031-1038.

98. Das, P., Sarkar, D., Punamiya, P., Makris, K., and Datta, R. (2013) Effectiveness of Urea in Enhancing the Extractability of 2,4,6 Trinitrotoluene from Chemically Variant Soils. Chemosphere. 93(9): 1811-1817.

2014 99. Barbooti, M., Punamiya, P., Su, H., and Sarkar, D (2014) Oxytetracycline adsorption on

Iraqi montmorillonite. Inter. J. Environ. Sci. Technol. 11(1): 69-76. 100. Datta, R., Kinrade, G., and Sarkar, D. (2014) Non-traditional uses of maize: biofuels,

remediation and pharmaceuticals. In Genetics, Genomics and Breeding of Maize. Wusirika R, Bohn M, Lai J, Kole C (Eds) ISBN 978-1-4822-2812-0, pp 236-255. CRC Press, Boca Raton, FL

101. Rakshit, S., Sarkar, D., Punamiya, P., and Datta, R. (2014) Kinetics of oxytetracycline sorption on magnetite nanoparticles. Inter. J. Environ. Sci. Technol. 11(5):1207-1214.

102. Rakshit, S., Sarkar, D., Elzinga, E., Punamiya, P., and Datta, R. (2014) Surface Complexation of Oxytetracycline by Magnetite: Effect of Solution Properties. Vadose Zone J. 13(2). doi:10.2136/vzj2013.08.0147

103. Nagar, R., Sarkar, D., Makris, K., and Datta, R. (2014) Arsenic Bioaccessibility and Speciation in Soils Amended with Organoarsenicals and Drinking-water Treatment Residuals Based on a Long Term Greenhouse Study. J. Hydrol. 518(C): 477-485.

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104. Caporale, A, Sarkar, D., Datta, R., Punamiya, P., and Violante, A. (2014) Effect of arbuscular mycorrhizal fungi (Glomus spp.) on growth and arsenic uptake of vetiver grass (Chrysopogon zizanioides L.) from contaminated soil and water systems. J. Soil Sci. Plant Nutr. 14(4): 955-972.

2015 105. Rakshit, S., Sarkar, D., and Datta, R. (2015) Surface complexation of antimony

on kaolinite. Chemosphere 119: 349–354. 106. Das, P., Sarkar, D., Makris, K.C., and Datta, R. (2015) Urea-Facilitated Uptake and

Nitroreductase-Mediated Transformation of 2,4,6-Trinitrotoluene in Soil using Vetiver Grass. J. Environ. Chem. Engg. 3(1): 445-452.

107. Punamiya, P., Sarkar, D., Rakshit, S., and Datta, R. (2015) Effect of solution properties, complexing ligands, and competing metal on sorption of tetracyclines on Al- based drinking water treatment residuals. Environ. Sci. Pollut. Res. 22: 7508-7518.

108. Kiiskila, J., Das, P., Sarkar, D., and Datta, R. (2015) Phytoremediation of explosive-contaminated soils. Curr. Pollut. Rep. 1(1): 23-34.

109. RoyChowdhury, A., Sarkar, D., and Datta, R. (2015) Remediation of acid mine drainage impacted water. Curr. Pollut. Rep. 1(3): 131–141.

110. Nagar, R., Sarkar, D., Punamiya, P., and Datta, R. (2015) Drinking Water Treatment Residual Amendment Lowers Inorganic Arsenic Bioaccessibility in Contaminated Soils: A Long-Term Study. Water Air Soil Pollut. 226(11): 1-15.

111. Attinti, R., Sarkar, D., Barrett, K., and Datta, R. (2015) Adsorption of arsenic (V) from aqueous solutions by goethite/silica nanocomposite. Inter. J. Environ. Sci. Technol. 12: 3905-3914.

2016 112. Punamiya, P., Sarkar, D., Rakshit, S., Elzinga, E. and Datta, R. (2016) Immobilization

of tetracyclines on manure and manure-amended soils using Al- based drinking water treatment residuals. Environ. Sci. Pollut. Res. 23: 3322-3332.

113. Sun, S., Zheng, Y., Lv, P., Punamiya, P., Sarkar, D., Dan, Y., Ma, J., and Li, Y. (2016) Determination of prometryn in vetiver grass and water using gas chromatography – nitrogen chemilumininescence detection. J. Chromatogr. Sci. 54(2): 97-102.

114. Sun, S., Li, Y., Zheng, Y., Hua, Y., Datta, R., Dan, Y., Lv, P., Sarkar, D. (2016) Uptake of 2,4-bis(Isopropylamino)-6-methylthio-s-triazine by vetiver grass (Chrysopogon zizanioides L.) from hydroponic media. Bull. Environ. Contamin. Toxicol. 96: 550-555.

115. Sidhu, V.S., Sarkar, D., and Datta, R. (2016). Effects of biosolids and compost amendment on chemistry of soils contaminated with copper from mining activities. Environ. Monit. Assess. 188: 176-185.

116. Deng, Y., Morris, C., Rakshit, S., Landa, E.R., and Sarkar, D. (2016). Water treatment residuals and scrap tire rubber combination as “novel” green sorbents for removal of common metals from polluted urban stormwater runoff. Water Environ. Res. 88(6): 500-509.

117. Soleimanifer, H., Deng, Y., Wu, L., and Sarkar, D. (2016). Water treatment residuals coated wood mulch for alleviation of toxic metals and phosphorus from polluted urban stormwater runoff. Chemosphere. 154: 289-292.

118. Roychowdhury, A, Sarkar, D, Deng, Y, and Datta, R. (2016). Assessment of soil water contamination at Tab Simco coal mine: A case study. Mine Wat. Environ.36: 248-254. (doi:10.1007/s10230-016-0401-9)

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119. Rakshit, S, Matocha, C.J., Coyne, M.S., and Sarkar, D. (2016). Nitrite reduction by Fe(II) associated with kaolinite. Inter. J. Environ. Sci. Technol. 13(5): 1329-1334.

120. Pidatala, V.R., Li, K., Sarkar, D., Wusurika, R.K., and Datta, R. (2016). Identification of biochemical pathways associated with lead tolerance and detoxification in Chrysopogon zizanioides, L. Nash (vetiver) by metabolic profiling. Environ. Sci. Technol. 50(5): 2530-2537.

121. Sengupta, A., Das, P., Panja, S., Sarkar, D., Parikh, C., Ramanathan, D., Bagley, S., and Datta, R. (2016) Tetracycline uptake and metabolism by vetiver grass (Chrysopogon zizanoides L. Nash). Environ. Sci. Pollut. Res. 23(24): 880-889.

2017 122. Li, N., Deng, Y., and Sarkar, D. (2017) Ferrate (VI) reaction with effluent organic matters

(EfOMs) in secondary effluents for water reuse. In Ferrites and Ferrates: Chemistry and Applications in Sustainable Energy and Environmental Remediation. Sharma, V., Doong, R-A., and Kim, H. (Eds). American Chemical Society.

123. Attinti, R., Barrett, K.R., Datta, R., and Sarkar D (2017) Ethylenediaminedisuccinic acid (EDDS) enhances phytoextraction of lead by vetiver grass from contaminated residential soils in a panel study in the field. Environ. Pollut. 225: 524-533.

124. Kiiskila, J.D., Sarkar, D., Feuerstein, K.A., Datta, R. (2017) A preliminary study to design a floating treatment wetland for remediating acid mine drainage-impacted water using vetiver grass (Chrysopogon zizanioides). Environmental Science and Pollution Research 24(36), 27985-27993.

125. Das, P., Sarkar, D., and Datta, R. (2017) Proteomic profiling of vetiver grass (Chrysopogon zizanioides) under 2,4,6‐trinitrotoluene stress. GeoHealth, 1 (2): 66-7.

126. Das, P., Sarkar, D., and Datta, R. (2017) Kinetics of nitroreductase-mediated phytotransformation of TNT in vetiver grass. Inter. J. Environ. Sci. Technol. 14 (1), 187-192.

127. Rakshit, R., and Sarkar, D. (2017) Assessing redox properties of standard humic substances. Inter. J. Environ. Sci. Technol. 14 (7), 1497-1504.

128. Datta, R., Das, P., Tappero, R., Punamiya, P., Elzinga, E., Sahi, S., Feng, H., Kiiskila, J., and Sarkar, D. (2017) Evidence for exocellular Arsenic in Fronds of Pteris vittata. Nature Scientific Reports 7: 2839-2846. DOI:10.1038/s41598-017-03194-x.

2018 129. Pidatala, V.R., Li, K., Sarkar, D., Wusirika, R., and Datta, R. (2018) Comparative metabolic

profiling of vetiver (Chrysopogon zizanioides) and maize (Zea mays) under lead stress. Chemosphere. 193: 903-911.

130. Ni, J., Sun, S.X., Zheng,Y., Datta, R., Sarkar, D., and Li, Y.M. (2018) Removal of prometryn from hydroponic media using marsh pennywort (Hydrocotyle vulgaris L.). Inter. J. Phytorem. 20: 909-913.

131. RoyChowdhury, A., Datta, R., and Sarkar, D. (2018) Heavy metal pollution and remediation. In Green Chemistry: An Inclusive Approach. Torok, B. and Dransfeild, T. (Eds) Elsevier. ISBN: 9780128092705.

132. RoyChowdhury, A., Sarkar, D., and Datta, R. (2018) Preliminary studies on potential remediation of acid mine drainage-impacted soils by amendment with drinking-water treatment residuals. Remediation J. 28: 75-82.

133. Sidhu, V., Sarkar, D., Datta, R., and Solomon, B. (2018) Community response to a sustainable restoration plan for a Superfund site. Environ. Sci. Pollut. Res.,25: 16959-16968.

134. Panja, S., Sarkar, D., and Datta, R. (2018) Vetiver grass (Chrysopogon zizanioides) is capable of removing insensitive high explosives from munition industry wastewater. Chemosphere. 209: 920-927.

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135. Datta, R. and Sarkar, D. (2018) Bio-buffering to combat ocean acidification? Curr. Pollut. Rep. 4(4): 283-284.

136. Walkons, C., Mayer, A., Datta, R., and Sarkar, D. (2018). Assessment of Water Treatment Residuals as Sorbent Material in Permeable Reactive Barriers: Application to a Copper-Contaminated Site. Remediation J. 29(1): 45-51.

2019 137. RoyChowdhury, A., Sarkar, D., and Datta, R. (2019). Removal of acidity and metals from acid

mine drainage-impacted water using industrial byproducts. Environmental Management. 63(1): 148-158.

138. Kiiskila, J.D., Sarkar, D., Panja, S., Sahi, S.V., and Datta, R. (2019). Remediation of acid mine drainage-impacted water by vetiver grass (Chrysopogon zizanioides): A multiscale long-term study. Ecol. Engg. 129: 97-108.

139. Biswas, J.K., and Sarkar, D. (2019). Nanopollution in the aquatic environment and ecotoxicity: No nano issue! Curr. Pollut. Rep. 5(1): 4-7.

140. RoyChowdhury, A., Sarkar, D., and Datta, R. (2019). A combined chemical and phytoremediation method for reclamation of acid mine drainage-impacted soils. Environ. Sci. Pollut. Res. 26(14):14414-14425.

141. Sun, S., Lv, P., Datta, R., Ni, J., Su, Y., Sarkar, D., and Zheng, Y. (2019). Uptake of 2, 4-bis (Isopropylamino)-6-methylthio-s-triazine by Canna indica. J. Environ. Biol. 40: 577-583.

142. Bora, K., Sarkar, D., Konwar, K., Payeng, B., Sood, K., Paul, R.K., Datta, R., Das, S., Khare, P., and Karak, T. (2019). Disentanglement of the secrets of aluminum in acidophilic tea plants (Camellia sinensis, L.) influenced by organic and inorganic amendments. Food Res. Internat. 120: 851-864.

143. Geiger, E.M., Sarkar, D. and Datta, R. (2019). Evaluation of Copper-Contaminated Marginal Land for the Cultivation of Vetiver Grass (Chrysopogon zizanioides) as a Lignocellulosic Feedstock and its Impact on Downstream Bioethanol Production. Appl. Sci. 9(13): 2685-2701.

144. Soleimanifar, H., Deng, Y., Barrett, K., Feng, H., Li, X., and Sarkar, D. (2019). Water treatment residual‐coated wood mulch for addressing urban stormwater pollution. Wat. Environ. Res. 91: 523-535.

145. Mondal, M., Biswas, J.K., Tsang, Y.F., Sarkar, B., Sarkar, D., Rai, M., Sarkar, S.K., and Hooda, P.S. (2019). A wastewater bacterium Bacillus sp. KUJM2 acts as an agent for remediation of potentially toxic elements and promoter of plant (Lens culinaris) growth. Chemosphere. 232: 439-452.

2020

146. Panja, S., Sarkar, D., and Datta, R, (2020) Removal of tetracycline and ciprofloxacin from wastewater by vetiver grass (Chrysopogon zizanioides (L.) Roberty) as a function of nutrient concentrations. Environ Sci Pollut Res. 27: 34951-34965.

147. Panja, S., Sarkar, D., and Datta, R, (2020) Removal of antibiotics and nutrients by Vetiver grass (Chrysopogon zizanioides) from secondary wastewater effluent. Intl. J. Phytoremediation 22(7): 764-773.

148. Biswas, J.K, Warke, M., Datta, R., and Sarkar, D. (2020) Is arsenic in rice a major human health concern? Curr. Pollut. Rep. 6: 37-42.

149. Kiiskila, J.D, Li, K., Sarkar, D., and Datta R (2020) Metabolic response of vetiver grass (Chrysopogon zizanioides) to acid mine drainage. Chemosphere 240: 124961

150. Sidhu, V., Sarkar, D., and Datta R (2020) Growing biofuel feedstocks in copper-contaminated soils of a former Superfund site. Appl. Sci 10, 1499.

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151. Biswas, J.K., Banerjee, A., Sarkar, B., Sarkar, D., Sarkar, S.K., Rai, M., and Vithanage, M. (2020). Exploration of an extracellular polymeric substance from earthworm gut bacterium (Bacillus licheniformis) for bioflocculation and heavy metal removal potential. Appl. Sci 10, 349.

152. Sahoo, P.K., Mangla, S., Pathak, A.K., Salamao, G.N., and Sarkar, D. (2020). Pre-to-post lockdown impact on air quality and the role of environmental factors in spreading the Covid-19 cases – A study from a worst-hit state of India. Internat. J. Biometeorology. https://doi.org/10.1007/s00484-020-02019-3.

153. Sidhu, V., Barrett, K., Park, D.Y., Deng, Y., Datta, R., and Sarkar, D. (2020) Wood mulch coated with iron-based water treatment residuals for the abatement of metals and phosphorus in simulated stormwater runoff. Environ. Technol. Innovat. https://doi.org/10.1016/j.eti.2020.101214

154. Zheng, L., Feng, H., Liu, Y., Gao, J., Sarkar, D., and Deng, Y. (2020). Chemically enhanced primary treatment of municipal wastewater with ferrate(VI). Wat. Environ. Res. https://doi.org/10.1002/wer.1473

IV. TECHNICAL ABSTRACTS AND CONFERENCE PROCEEDINGS

1996

1. Sarkar, D., K.C. Misra, and M.E. Essington (1996) Adsorption of mercury onto variable charge surfaces. Agronomy Abstracts.

1997

2. Sarkar, D., M.E. Essington, and K.C. Misra (1997) Adsorption of mercury onto silica: Experimental Study. Geological Society of America Abstracts with Programs, V. 29, No. 3.

3. Sarkar, D., M.E. Essington, and K.C. Misra (1997) Sorption of Mercury by Silica: Influence of Competing Metals. EOS, V. 78, No. 17.

1998

4. Sarkar, D. and M.E. Essington (1998) Modeling Hg adsorption by kaolinite. Agronomy Abstracts.

1999

5. Sarkar, D. and G.A. O’Connor (1999) Bioavailability of biosolids-P. Agronomy Abstracts.

2000

6. Sarkar, D. and G.A. O’Connor (2000) Bioavailability of phosphorus in biosolids-amended soils: A comparative study. Agronomy Abstracts.

2001

7. Sarkar, D. and M. Essington (2001) Adsorption of lead and nickel by kaolinite. Agronomy Abstracts.

8. Manz, L.R., Hammond, W.W. and Sarkar, D. (2001) The status of water resources and water quality along the Rio Grande in Texas. American Chemical Society Abstracts.

9. Casunuran, V., Bach, S.B.H. and Sarkar, D. (2001) Analysis of Fire Ant Pesticides In Solid Matrices Using Direct Insertion Probe-Mass Spectrometry. American Chemical Society Abstracts.

10. Romeo, V. and Sarkar, D. (2001) Water quality in three San Antonio lakes. American Chemical Society Abstracts.

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11. Haddad, M.J. and Sarkar, D. (2001) Environmental significance of glomalin in soil organic matter. American Chemical Society Abstracts.

12. Janusz, R.E. and Sarkar, D. (2001) Arsenic bioavailability in soils: A review of methods. American Chemical Society Abstracts.

2002

13. Haddad, M.J. and Sarkar, D. (2002) Glomalin in soil organic matter as a function of soil properties. Agronomy Abstracts.

14. Casunuran, V., Bach, S.B.H. and Sarkar, D. (2002) Direct soil analysis of organophosphorus Pesticides using DIP-MS. Agronomy Abstracts.

2003

15. Sarkar, D., R. Datta, and A. Frias (2003) Biogeochemistry of arsenic in pesticide-applied soils. National Association for Environmental Professionals Proceedings, V. 28, 15 pp. 16. Datta, R. and Sarkar, D. (2003) Total and bioavailable arsenic in soils of three ecological zones of Florida. National Association for Environmental Professionals Proceedings, V. 28, 15 pp.

17. Parra-Noonan, M. and Sarkar, D. (2003) Bioavailability of arsenic in contaminated soils from cattle-dip vat sites. National Association for Environmental Professionals Abstracts with Programs.

18. Datta, R. and Sarkar, D. (2003) Preliminary studies on arsenic speciation and bioavailability in pesticide-applied soils. Geological Society of America Abstracts with Program.

19. Sarkar, D. and Branom, J. (2003) Biogeochemistry of phosphorus in a eutrophic lake. Geological Society of America Abstracts with Programs.

20. Datta, R. and Sarkar, D. (2003) Should Soil Properties be Considered In Assessing Human Health Risk Resulting from Exposure to Arsenic-enriched Soils? AAPG Abstracts. 21. Sarkar,D., Datta, R., and Ferguson, M. (2003) Biodegradation of Petroleum

Hydrocarbons in Soils: Effects of Biosolids Addition and Role of Carbon. AAPG Abstracts. 22. Datta, R. and Sarkar, D. (2003) Influence of Soil Properties on Arsenic Bioavailability in

Soils Contaminated with Arsenical Pesticides. Agronomy Abstracts. 23. Sarkar, D. and Parra-Noonan, M. (2003) Geochemical Fate of Arsenic in Cattle-Dip Vat

Site Soils. Agronomy Abstracts. 24. Therapong, C., Datta, R. and Sarkar, D. (2003) Arsenic Stress Response in Monocot

Seedlings. Agronomy Abstracts. 25. Datta, R., Sarkar, D., and Therapong, C. (2003) Evaluation of Arsenic Stress on Grass

Seedlings. Agronomy Abstracts. 26. Branom, J.R. and Sarkar, D. (2003) Phosphorus in Sediments of a Sludge Disposal Lake. Agronomy Abstracts. 27. Sarkar, D., Datta, R., and Schwandes, L. (2003) Soil nutrients in three ecological zones of

Florida. Agronomy Abstracts.

2004

28. Sarkar, D. and Datta, R. (2004) Role of soil properties in assessment of human health risk from exposure to arsenic-enriched soils. Geological Society of America Abstracts with Program, V. 36, No. 1.

21

29. Datta, R. and Sarkar, D. (2004) Arsenic geochemistry in soils contaminated with organoarsenical pesticide. Geological Society of America Abstracts with Program, V. 36, No. 1.

30. Parra-Noonan, M., Sarkar, D., and Datta, R. (2004) Geochemical fate of arsenic in cattle- dip vat site soils from Australia. Geological Society of America Abstracts with Program, V. 36, No. 1.

31. Khairom, A., Sarkar, D. and Datta, R. (2004) Preliminary studies on arsenic and phosphorus bioavailability in chemically amended soils. Geological Society of America Abstracts with Program, V. 36, No. 1.

32. Davani, A., Sarkar, D. and Datta, R. (2004) A novel in-situ chemical remediation technique for arsenic contaminated soil: Preliminary results. Geological Society of America Abstracts with Program, V. 36, No. 1.

33. Branom, J.R. and Sarkar, D. (2004) Water Quality in a Eutrophic Sludge Disposal Lake. Geological Society of America Abstracts with Program, V. 36, No. 1.

34. Branom, J.R. and Sarkar, D. (2004) Geochemical Forms of Phosphorus in Sediments of a Sludge Disposal Lake. AAPG Abstracts.

35. Simpson, N. and Sarkar, D. (2004) Heavy Metals in Sediments of a Sludge Disposal Lake. AAPG Abstracts.

36. Frias, A. and Sarkar, D. (2004) Bioavailability of Arsenic in Pesticide-Applied Cotton Soils of Texas. AAPG Abstracts.

37. Therapong, C., Datta, R., and Sarkar, D. (2004) Comparative Arsenic Stress Response in Monocot Seedlings. AAPG Abstracts.

38. Datta, R. and Sarkar, D. (2004) Effect of Soil-Aging on Geochemical Fate of Arsenic in Pesticide-Contaminated Soils. AAPG Abstracts.

39. Datta, R. and Sarkar, D. (2004) Human health risk from exposure to soil arsenic: Does one size fit all? Geological Society of America Abstracts with Program, V. 36, No. 5.

40. Vandanapu, V., Sarkar, D., Datta, R., and Sharma, S. (2004) Arsenic adsorption and desorption by water treatment residuals: Preliminary results. Geological Society of America Abstracts with Program, V. 36, No. 5.

41. Khairom, A., Sarkar, D., and Datta, R. (2004) Bioavailability of arsenic and phosphorus in a sandy soil amended with water treatment residuals. Geological Society of America Abstracts with Program, V. 36, No. 5.

42. Simpson, N.W., Sarkar, D., Sharma, S., and Datta, R. (2004) Heavy metal geochemistry in sludge-affected sediments of Mitchell Lake, Texas. Geological Society of America Abstracts with Program, V. 36, No. 5.

43. Frias, A.R., Sarkar, D., and Datta, R. (2004) Geochemical forms and bioavailability of arsenic in pesticide-applied cotton soils of Texas: An incubation study. Geological Society of America Abstracts with Program, V. 36, No. 5.

44. Therapong, C., Datta, R., and Sarkar, D. (2004) Arsenic stress response in rice: Comparison between organic and inorganic pesticides. Geological Society of America Abstracts with Program, V. 36, No. 5.

45. Quazi, S., Sarkar, D., Datta, R., and Sharma, S. (2004) Greenhouse study on arsenic speciation and bioavailability in two pesticide-contaminated soils of Florida: Preliminary results. Geological Society of America Abstracts with Program, V. 36, No. 5.

46. Nagar, R., Sarkar, D., Datta, R., Khairom, A., Vandanapu, V., and Quazi, S. (2004) Effect of sewage sludge addition on heavy metal concentrations in agricultural soils. Geological Society of America Abstracts with Program, V. 36, No. 5.

22

47. Sarkar, D. and Parra-Noonan, M, and Datta, R. (2004) Bioavailability of arsenic in cattle dipping vat site soils as a function of soil chemistry. Geological Society of America Abstracts with Program, V. 36, No. 5.

48. Amy, C.D., Sarkar, D., and Datta, R. (2004) In-situ stabilization of arsenic in soils amended with water treatment residuals. Geological Society of America Abstracts with Program, V. 36, No. 5.

49. Sharma, S., Datta, R., and Sarkar, D. (2004) Effect of equilibration time on arsenic bioavailability in two Florida soils contaminated with arsenical pesticide. Geological Society of America Abstracts with Program, V. 36, No. 5.

50. Birnbaum, S.J., Sarkar, D., Datta,R., and Ferguson, M.C. (2004) Treat it or leave it? A bench-scale view comparing monitored natural attenuation with two forms of biostimulation. Geological Society America Abstracts with Program, V. 36, No. 5.

2005

51. Quispe, M., Therapong, C., Datta, R., and Sarkar, D. (2005) Arsenic remediation potential of Vetiver grass. Geological Society of America Abstracts with Program, V. 37, No. 3.

52. Khairom, A., Sarkar, D., and Datta, R. (2005) Bioavailability of arsenic and phosphorus in a Florida soil amended with water treatment residuals: Effect of equilibration time. Geological Society of America Abstracts with Program, V. 37, No. 3.

53. Quazi, S., Sarkar, D., Datta, R., and Sharma, S. (2005) Consideration of arsenic bioavailability in human health risk assessment: Preliminary greenhouse results. Geological Society of America Abstracts with Program, V. 37, No. 3.

54. Barber, S., Simpson, N., Sharma, S., Sarkar, D., and Datta, R. (2005) Bioavailability of heavy metals in sediments of a sludge-disposal lake. Geological Society of America Abstracts with Program, V. 37, No. 3.

55. Nagar, R., Sarkar, D., Sharma, S., and Datta, R. (2005) Potential phyto-availability of heavy metals as a function of soil properties in biosolids amended soils. Geological Society of America Abstracts with Program, V. 37, No. 3.

56. Juckett, M., Quazi, S., Morales, M., Smith, B., Wang, X., and Sarkar, D. (2005) Cursory examination of water quality in the San Antonio river basin. Geological Society of America Abstracts with Program, V. 37, No. 3.

57. Nagar, R., Sarkar, D., Datta, R., and Sharma, R. (2005) Effect of Solution Properties on Arsenic Adsorption by Drinking Water Treatment Residuals. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract B33B-04.

58. Vandanapu, V., Sarkar, D., Datta, R., and Makris, K.C. (2005) Arsenic Adsorption and Desorption by Drinking Water Treatment Residuals: Incubation Studies. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract B33B-05.

59. Quazi, S., Sarkar, D., Khairom, A., Datta, R., and Sharma, S. (2005) Bioavailability Of Arsenic In Arsenical Pesticide-Amended Soils: Preliminary Greenhouse Study. Eos Trans. AGU, 86(18), Jt. Assem. Suppl, Abstract B31A-02.

60. Sharma, S., Sarkar, D., and Datta, R. (2005) Effect of Soil Properties on the Geochemical Speciation of Arsenic in Contaminated Soils: A Greenhouse Study. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract B33B-06.

61. Mohamed, H., Therapong, C., Andra, S., Datta, R., and Sarkar, D. (2005) Phytoavailability of Arsenic in pesticide-Applied Soils: Effect of Chemical Remediation. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract NB52A-04.

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62. Makris, K.C., Sarkar, D., and Datta, R. (2005) Arsenite Sorption by Drinking Water Treatment Residuals: Redox Effects. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract B31A-01.

63. Sarkar, D., Amy, C., and Datta, R. (2005) Bioavailability of arsenic in soils amended with various water treatment residuals: An incubation study. Agronomy Abstracts.

64. Sarkar, D., Frias, A., and Datta, R. (2005) Biogeochemistry of arsenic in pesticide-applied cotton soils of Texas: Effects of application rate and equilibration time. Agronomy Abstracts.

65. Anderson, A., Nagar, R., Flores, E., Quispe, M, and Sarkar, D. (2005) Examination of water quality in the Upper San Antonio River basin as a function of land use. Agronomy Abstracts.

66. Sharma, S., Sarkar, D., and Datta, R. (2005) Soil Arsenic Phases in Two Texas Soils with Variable Chemistry: Effects of WTR Amendment. Agronomy Abstracts.

67. Quazi, S., Sarkar, D., Khairom, A., and Datta, R. (2005) Arsenic Bioavailability in a Soil Amended with Water Treatment Residuals in the Presence of Phosphorus: Effect of Amendment Rates. Agronomy Abstracts.

68. Nagar, R., Sarkar, D., Makris, K., and Datta, R. (2005) Arsenic Sorption by Water Treatment Residuals as a Function of pH in the Presence of Competing Ligands. Agronomy Abstracts.

69. Datta, R., and Sarkar, D. (2005) Geochemistry of Arsenic in Pesticide-Applied Soils: from Laboratory to Greenhouse. Agronomy Abstracts.

70. Makris, K., Sarkar, D., and Datta, R. (2005) A Novel Sorbent for Perchlorate: Preliminary Results. Agronomy Abstracts.

71. Pachanoor, D.S., Datta, R., Sarkar, D., and Therapong, C. (2005) Antioxidant Responses of Monocot Seedlings to Arsenical Pesticides. Agronomy Abstracts.

72. Sarkar, D., Makris, K., and Datta, R. (2005) Arsenic(III) and Phosphorus Fractionation in the Arsenical Pesticide-Applied State Soil of Texas Amended with WTRs: an Incubation Study. Agronomy Abstracts.

73. Vandanapu, V., Sarkar, D., Makris, K., and Datta, R. (2005) Arsenic Adsorption and Desorption by Drinking-Water Treatment Residuals: an Isotherm Study. Agronomy Abstracts.

74. Barber, S.J., Sarkar, D., Simpson, N., Sharma, S., and Datta, R. (2005) Heavy Metals Release in Mitchell Lake as a Function of Sediment Properties. Agronomy Abstracts.

75. Andra, S.S.P., Datta, R., Sarkar, D., and Mohamed, H. (2005) Characterization of Lead- Contaminated Residential Soils: An Appraisal for Phytoremediation. Agronomy Abstracts.

2006

76. Andra, S.P, Datta, R., Sarkar, D., and Saminathan, S.K. (2006) A Greenhouse Study on Lead Uptake and Antioxidant Enzyme Activities in Vetiver Grass (Vetiveria zizanioides) as a Function of Lead Concentration and Soil Physico-Chemical Properties. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B31A-01.

77. Quazi, S., Sarkar, D., Sylvia, V., and Datta, R. (2006) Correlation between an In-vitro Method And An In-vivo Method In Assessing Bioavailable Arsenic In Two Pesticide- Amended Soils. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B31A-02.

78. Pachanoor, D.S., Andra, S.P., Datta, R., and Sarkar, D. (2006) Lead phytoremediation potential of Vetiver grass: a hydroponic study. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B43A-16.

79. Saminathan, S.K., Sarkar, D., Datta, R., and Andra, S.P. (2006) Geochemistry of Lead in Contaminated Soils: Effects of Soil Physico-Chemical Properties. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B43A-17.

24

80. Therapong, C., Datta, R., Sarkar, D. and Pachanoor, D.S. (2006) Arsenic Accumulation by Pteris vittata L. in Two Chemically Variant Soils Treated with Arsenical Pesticides - Greenhouse Study. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B43A-18.

81. Quispe, M.A., Datta, R., Sarkar, D., and Sharma, S. (2006) A greenhouse study on arsenic remediation potential of Vetiver grass (Vetiveria Zizanioides) as a function of soil physico- chemical properties. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B43A-19.

82. Shakya, K.M., Sarkar, D., Datta, R., Makris, K.C., and Pachanoor, D.S. (2006) Uptake of 2,4,6-Trinitrotoluene (TNT) by Vetiver grass (Vetiviera ziznoides L.) -- Preliminary results from a hydroponic study. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B43A- 20.

83. Nagar, R., Sarkar, D., Datta, R., and Makris, K.C. (2006) Solution pH effects on arsenic removal by drinking water treatment residuals in presence of metals and ligands. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract H33B-04.

84. Salazar, J., Sarkar, D., Datta, R., and Sharma, S. (2006) Adsorption of Roxarsone onto Drinking Water Treatment Residuals: Preliminary Studies. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract H43C-29.

85. Ravikovitch, P.I., Neimark, A. V., Makris, K.C., Sarkar, D., and Datta, R. (2006) Using nitrogen and carbon-di-oxide adsorption to estimate arsenic (V) bioaccessibility in soils. AIChE Abstracts.

86. Sharma, S., Datta, R., Sarkar, D, and Nagar, R. (2006) Geochemical Speciation and Bioavailability of Arsenic in Chemically Variant Soils Amended with Sodium Arsenite: A Greenhouse Study. Agronomy Abstracts.

87. Datta, R., Makris, K.C., Sarkar, D. Ravikovitch, P.I., and Neimark, A.V. (2006) Microporosity effects on As (V) bioaccessibility in soils. Agronomy Abstracts.

88. Nagar, R., Sarkar, D., Makris, K.C., and Datta, R. (2006) Effects of Solution Properties on Arsenic Immobilization in Drinking Water Treatment Residuals-Amended Soils: Incubation Study. Agronomy Abstracts.

89. Sarkar, D., Nagar, R., Datta, R., and Makris, K.C. (2006) Surface complexation of arsenate onto drinking water treatment residuals. Agronomy Abstracts.

90. Quazi, S., Sarkar, D., Makris, K.C. and Datta, R., (2006) Fate and Stability of soil-borne arsenic in the human stomach. Agronomy Abstracts.

91. Therapong, C., Datta, R., Sarkar, D., and Pachanoor, D. (2006) Biochemical Stress Responses in Arsenic Hyperaccumulator Fern Pteris vittata: A Comparative Greenhouse Study Using Organic and Inorganic Arsenical Pesticides. Agronomy Abstracts.

92. Saminathan, K.P.M.S., Sarkar, D., Datta, R., and Andra, S.S. (2006) Role of Chelating Agents in Enhancing Lead Uptake by Vetiver Grass (Vetiveria zizanioides L.) from Lead Based-Paint Contaminated Residential Soils. Agronomy Abstracts.

93. Andra, S.S., Datta, R., Sarkar, D., and Pachanoor, D. (2006) Involvement of Phytochelatins in Lead Accumulation and Tolerance in Vetiver Grass. Agronomy Abstracts.

94. Shakya, K.M., Makris, K.C., Datta, R., Pachanoor, D., Sarkar, D., and Das, P. (2006) Uptake and Biotransformation of 2,4,6-Trinitrotoluene (TNT) by Wheat (Triticum aestivum). Agronomy Abstracts.

95. Pachanoor, D., Therapong, C., Datta, R., Sarkar, D., and Punamiya, P. (2006) Effect of arsenical pesticides on antioxidant enzymes in rice: comparative green-house study using organic and inorganic arsenical pesticide. Agronomy Abstracts.

96. Barber, S., Datta, R, and Sarkar, D. (2006) Effects of an endomycorrhizal fungus Glomus mosseae on the uptake of lead by Vetiver grass. Agronomy Abstracts.

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2007

97. Bach, S.B.H., Andra, S.S., Datta, R., Sarkar, D., and Mullens, C.P. (2007) Identification, characterization and quantification of lead-binding proteins in a Hyper-accumulator Using HPLC-ES-MS. American Society of Mass Spectrometry Abstracts.

98. Nagar, R., Sarkar, D., Makris, K.C., Datta, R. and Sylvia, V.L. (2007) WTRs as a Remedial Agent For Arsenic-Contaminated Soils: In-Vitro and in-vivo studies. Agronomy Abstracts.

99. Quazi, S., Makris, K.C., Sarkar, D., Datta, R. and Patel, M. (2007) Effects of a Common Gastric Bacterium on Soil Arsenic Bioaccessibility and Speciation in the Human Stomach. Agronomy Abstracts.

100. Andra, S.S., Datta. R., Sarkar, D., Mullens. C., and Bach S. B.H. (2007) Induction of Phytochelatins and Low Molecular Weight Thiols in Vetiveria zizanioides in Response to Lead. Agronomy Abstracts.

101. Patel, P., Datta. R., Punamiya, P., Sarkar, D., Israr, M. and Sahi, S. (2007) Arsenic Distribution and Localization in the Fronds of the Hyperaccumulator Fern Pteris vittata. Agronomy Abstracts.

102. Punamiya, P., Makris, K.C., Datta, R., and Sarkar, D. (2007) Low-Level Colorimetric Determination of Arsenic in the Presence of Phosphorus in Soil Solutions. Agronomy Abstracts.

103. Hardy, M., Makris, K.C., Sarkar, D., and Datta, R. (2007) A Packed Bed Reactor System to Treat Chromium-Contaminated Shipyard Stormwater. Agronomy Abstracts.

104. Makris, K.C., Andra, S.S., Quazi, S., Sarkar, D., Bach. S., and Datta, R. (2007) Probing Roxarsone Degradation in Animal Waste with the Aid of Electrospray Mass Spectrometry. Agronomy Abstracts.

105. Sarkar, D., Nagar, R., Makris, K.C., and Datta, R. (2007) Modeling Arsenate Adsorption by Water Treatment Residuals. Agronomy Abstracts.

106. Datta, R., Makris K.C., Salazar, J., Quazi, S., and Sarkar, D. (2007) Novel Chemical Amendment to Reduce Arsenic Availability in Poultry Litter. Agronomy Abstracts.

107. Nagar, R., Sarkar, D., Datta, R., Makris, K.C., and Quazi, S. (2007) Long-Term Effectiveness of Drinking-Water Treatment Residuals In Reducing Soil Arsenic Bioaccessibility: A Greenhouse Study: Geological Society of America Abstracts with Program, V. 39, No. 6.

108. Das, P., Datta, R., Sarkar, D., Makris, K.C., Ovuegbe, A., and Punamiya, P. (2007) Chemically-Catalyzed Uptake Of 2,4,6-Trinitrotoluene By Vetiver Grass Vetiveria Zizanioides in Soil. Geological Society of America Abstracts with Program, V. 39, No. 6.

109. Andra, S., S., Datta, R., Sarkar, D., and Saminathan, S. K. P. M. (2007) Effects of Chelating Agents on Phytoextraction of Lead by Vetiver Grass from Lead Contaminated Soils. Geological Society of America Abstracts with Program, V. 39, No. 6.

110. Sarkar, D., and Hardy, M. (2007) Using A Waste By-Product To Remove Metals From Contaminated Shipyard Stormwater. Geological Society of America Abstracts with Program, V. 39, No. 6.

111. Quazi, S., K. Makris, D. Sarkar, R. Datta, P. Punamiya (2007) Geochemical fate of arsenic in swine litter. EOS Trans. AGU 88 (52). Fall Meeting Suppl., Abstract B51B- 0370.

112. Andra, S., R. Datta, D. Sarkar, S. Saminathan (2007) Enhancing Potentially Plant- Available Lead Concentrations in Contaminated Residential Soils Using a Biodegradable Chelating Agent. EOS Trans. AGU 88 (52). Fall Meeting Suppl., Abstract B13C-1382.

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2008

113. Punamiya, P, M. J. Patel, R. Datta, D. Sarkar (2008) Phytoextraction of Lead in Soil Using Lead-Accumulating Grass (Vetiveria Zizanioides) in the Presence of Beneficial Arbuscular Mycorrhizal Fungi. AAPG Abstracts.

114. Das, P., K. C. Makris, R. Datta, D. Sarkar, P. A. Punamiya (2008) Urea-Catalyzed Extractability of 2,4,6-Trinitrotoluene from Contaminated Soils: Preliminary Results. AAPG Abstracts.

115. Patel, M.J., S. Barber, R. Datta, D. Sarkar (2008) Effect of Glomus Mosseae on Lead Uptake by the Vetiveria Zizanioides. AAPG Abstracts.

116. Andra, S.P., R. Datta, D. Sarkar, S. M. Saminathan (2008) Soil Properties Governing Potentially Plant Available Lead in Contaminated Residential Sites. AAPG Abstracts.

117. Smith, B.D., D. Sarkar (2008) Reconnaissance Study of Perchlorate Contaminated Sites. AAPG Abstracts.

118. Nagar, R., D. Sarkar, K.C. Makris, R. Datta (2008) Long-Term Monitoring of Organoarsenical Degradation in Drinking- Water Treatment Residual-Amended Soils. AAPG Abstracts.

119. Hardy, M., D. Sarkar, K. Makris, R. Datta (2008) Using a Waste By-Product to Remove Metals from Contaminated Shipyard Stormwater. AAPG Abstracts.

120. Quazi, S., D. Sarkar, R. Datta (2008) Effect of Soil Ageing on Arsenic Bioaccessibility and Geochemical Speciation: A Greenhouse Study. AAPG Abstracts.

121. Makris, K.C., S. S. Andra, D. Sarkar, R. Datta, S. B. Bach, C. Mullens (2008) Nitrous Oxide Solubility in Animal Waste Suspensions. AAPG Abstracts.

122. Bach, S., C. Mullens., D. Sarkar, K.C. Makris (2008) Aqueous arsenic speciation by nanospray and electrospray mass spectrometry. American Chemical Society Abstracts with program.

123. Datta, R., D. Sarkar, S.P. Andra, S. Bach (2008) Role of lead speciation in soil and plant in phytoremediation of contaminated soils using vetiver grass. American Chemical Society Abstracts with program.

124. Sarkar, D., R. Datta, K.C. Makris, R. Nagar, S. Quazi (2008) Immobilization of soil arsenic using water treatment residuals: Potential to develop into a cost-effective remediation method? American Chemical Society Abstracts with program.

125. Andra, S.S., R. Datta, D. Sarkar, S.K.M. Saminathan (2008) Chelate-Assisted Phytoextraction Potential of Vetiver Grass in Reducing Human Bioaccessibility of Soil Lead. Agronomy Abstracts.

126. Das, P., K.C. Makris, D. Sarkar, R. Datta, P. Punamiya (2008) TNT Adsorption in Chemically Variant Soils: Preliminary Studies. Agronomy Abstracts.

127. Punamiya, P., R. Datta, M. Patel, D. Sarkar, P. Das (2008) Effect of Arbuscular Mycorrhizal Fungi on Cadmium Uptake by Brassica juncea: An Incubation Study. Agronomy Abstracts.

128. Patel, M.J., R. Datta, P. Punamiya, D. Sarkar, S. Sahi (2008) Antioxidative Responses and Arsenic Localization in the Arsenic-Hyperaccumulator Chinese Brake Fern (Pteris vittata L.). Agronomy Abstracts.

129. Andra S.S., R. Datta, D. Sarkar, S.K.P.M. Saminathan (2008) A Chemically Catalyzed Phytoremediation Model for Lead-Paint Contaminated Residential Soils: Greenhouse Study. Agronomy Abstracts.

130. Punamiya, P., R. Datta, D. Sarkar, S. Barber, M. Patel, P. Das (2008) Symbiotic Role of Glomus Mosseae in Lead Phytoextraction Using Vetiver Grass. Agronomy Abstracts.

http://www.searchanddiscovery.net/documents/2008/08039annual_abst/abstracts/408999.htm






















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131. Nagar, R., Sarkar, D., R. Datta, K.C. Makris (2008). Bioaccessibility and Speciation of An Organoarsenical in Drinking-Water Treatment Residual Amended Soil: A Long Term Greenhouse Study. Agronomy Abstracts.

132. Hardy, M.A., D. Sarkar, R. Datta (2008) Water Treatment Residuals Remove Copper, Lead, and Zinc from Acidic Wastewater. Agronomy Abstracts.

133. Quazi, S. D. Sarkar, R. Datta (2008) Effects of Inorganic and Organic Arsenical Pesticides on Rice Growth and Development: A Comparative Greenhouse Study. Agronomy Abstracts.

134. Punamiya, P., R. Datta, D. Sarkar, P. Das (2008) Effect of Cadmium on Antioxidant Enzymes in the Presence of Beneficial Arbuscular Mycorrhizal Fungi: An Incubation Study Using Brassica Juncea (Indian mustard). Agronomy Abstracts.

2009

134. Das, P., Datta, R., Sarkar, D., Punamiya, P., and Makris, K.C. (2009) Chemically enhanced phytoextraction of 2, 4, 6 trinitrotoluene (TNT) by Vetiver grass from a low organic matter containing soil, HDC-SETAC Conference Proceedings.

135. Punamiya, P., Barber, S., Das, P., Sarkar, D., and Datta, R. (2009) Phytoextraction of lead using a metal-accumulating grass (Vetiveria zizanioides) in the presence of an arbuscular mycorrhizal fungus, Glomus mosseae, HDC-SETAC Conference Proceedings.

136. Hardy, M., Sarkar, D., and Datta, R. (2009) Removal of heavy metals from shipyard stormwater using drinking water treatment residuals, HDC-SETAC Proceedings.

137. Das, P., Sarkar, D., Datta, R., Makris, K.C., Shakya, K.M., and Pachanoor, D. (2009) Urea Catalyzed Phytoremediation of 2, 4, 6 Trinitrotoluene (TNT) Contaminated Water by Vetiver grass (Vetiveria zizanioides L.) and Wheat (Triticum aestivum L.), Proceedings of the 94th annual meeting of NJWEA.

138. Punamiya, P., Sarkar, D., Datta, R., and Makris, K.C. (2009) Rapid and inexpensive arsenic determination method in water and soil extracts in the presence of phosphorus, Proceedings of the 94th annual meeting of NJWEA.

139. Rakshit, S., Sarkar, D., and Punamiya, P. (2009) Oxytetracycline Sorption on Magnetite, Proceedings of the 36th Northeast Regional Meeting of ACS.

140. Punamiya, P., Sarkar, D., Datta, R. (2009) Aluminum Based Drinking Water Treatment Residuals as a Novel Sorbent to Immobilize Oxytetracycline: Effects of Solution Properties, Proceedings of the 36th Northeast Regional Meeting of ACS.

141. Das, P., Sarkar, D., Punamiya, P., Makris, K.C., Datta, R. (2009) Enhanced Uptake and Biotransformation of 2, 4, 6-Trinitrotoluene by Vetiver Grass (Chrysopogon zizanioides) from Soil. Agronomy Abstracts.

142. Hardy, M., Sarkar, D., and Datta, R. (2009) Immobilization of Heavy Metals in Abandoned Mine Soils Amended with Al-Based Drinking Water Treatment Residuals: An Incubation Study. Agronomy Abstracts.

143. Punamiya P, Agyin-Birikorang S, Sarkar D., Das P and Datta R (2009) Oxytetracycline Adsorption and Desorption by Drinking Water Treatment Residuals: Preliminary Results. Agronomy Abstracts.

144. Coleman A, Datta R, Sarkar D., and Simpson T. (2009) Effect of Heavy Metals on Fresh Water Turtles of a Sludge-Amended Lake in South Texas. Agronomy Abstracts.

145. Datta, R., Das, P., Sarkar, D., and Andra, S. (2009) A Phytoremediation Model for Lead and TNT contaminated soils. SERDP-ESTCP Abstracts.

2010

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146. Punamiya, P., Sarkar, D., Datta, R. (2010) Interaction and effect of solution

chemistry on sorption of oxytetracycline on Fe-based drinking-water treatment residuals. HDC-SETAC Conference Proceedings.

147. Datta, R., Smith, S., Das, P., Punamiya, P., Ramanathan, D., Sarkar, D. (2010) Uptake of Tetracycline from Hydroponic Systems by Vetiver Grass. HDC-SETAC Conference Proceedings.

148. Sarkar, D., Hardy, M., and Datta, R. (2010) Beneficial reuse of a municipal waste byproduct for reclamation of abandoned mine sites. ASMR Conference Proceedings.

149. Rakshit, S., Punamiya, P., Datta, R., and Sarkar, D. (2010) Sorption of oxytetracycline on magnetite-water interface. Goldschmidt Abstracts.

2011

150. Punamiya, P., Sarkar, D., Datta, R. (2011) Aluminum-based drinking-water treatment

residuals a “green” sorbent for tetracyclines. Geological Society of America Abstracts with Program.

151. Attinti, R., Sarkar, D., Datta, R. (2011) Adsorption of arsenic (v) from aqueous solutions by goethite-coated silica nanoparticles. Geological Society of America Abstracts with Program.

152. Sarkar, D. and Datta R (2011) Amendment with water treatment residuals lower human health risk from exposure to arsenical pesticide-applied soils. Geological Society of America Abstracts with Program.

153. Rakshit, S., Sarkar, D., Elzinga, E., Punamiya, P., Datta, R. (2011) Ciprofloxacin adsorption on magnetite-water interface. Geological Society of America Abstracts with Program.

154. Das, P., Datta, R., Punamiya, P., Sarkar, D. (2011) Phytoremediation potential of vetiver grass (chrysopogon zizanioides l.) For 2,4,6-trinitrotoluene (TNT) from soil: urea-catalyzed uptake and nitroreductase enzyme mediated transformation. Geological

Society of America Abstracts with Program. 155. Doskey, C., Sarkar, D., Datta, R. (2011) Phytoremediation of hexahydro-1,3,5-

trinitro-1,3,5-triazine (RDX) using Chrysopogon zizanioides. Geological Society of America Abstracts with Program.

2012

156. Datta, R. and Sarkar, D. (2012) The legacy of war: Using plants to remove lead, TNT,

and RDX from soil. HDC-SETAC Conference Proceedings. 157. Punamiya, P., Sarkar, D., Datta, R. (2012) Drinking water treatment residuals as a

"green" sorbent for veterinary antibiotics: Results from an incubation study. HDC- SETAC Conference Proceedings.

158. Das, P., Sarkar, D., Datta, R. (2012) A chemically catalyzed phytoremediation model for TNT-contaminated soils. HDC-SETAC Conference Proceedings.

159. Rakshit, S., Sarkar, D., Datta, R. (2012) Antibiotics removal by iron oxide nanoparticles. HDC-SETAC Conference Proceedings.

160. Attinti, R., Sarkar, D., Roychowdhury, A., Datta, R. (2012) Increase in plant- available lead in paint-contaminated residential soils using a biodegradable chelating agent. HDC-SETAC Conference Proceedings.

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161. Morris, C.N., Rakshit, S., Deng, Y., Landa, E.R., Sarkar, D. (2012) Sorption of toxic metals from polluted urban stormwater runoff using two recycled waste-based sorbents – water treatment residuals and tire rubber. HDC-SETAC Conference Proceedings.

162. Pidatala, V.R., Sarkar, D., Datta, R. (2012) Metabolite profiling of vetiver grass (Chrysopogon zizanioides) under lead stress. Agronomy Abstracts.

163. Sengupta, A., Datta, R., Bagley, S., Ramanathan, D., Sarkar, D. (2012) Uptake and transformation of tetracycline by vetiver grass (Chrysopogon zizanioides). Agronomy Abstracts.

164. Das, P., Datta, R., Sarkar, D. (2012) Nitroreductase enzyme mediated phytodegradation of 2,4,6 Trinitrotoluene by vetiver grass. Agronomy Abstracts.

165. Attinti, R., Sarkar, D., Datta, R. (2012) Ethylenediaminedisuccinic acid (EDDS) enhances phytoextraction of lead by vetiver grass from paint contaminated residential soils: A field study. Agronomy Abstracts.

166. Sidhu, V., Sarkar, D., Fonti, V., Punamiya, P., Das, P., Datta, R. (2012) Field pennycress (Thlaspi arvense) and camelina (Camelina sativa) have potential for sustainable stabilization of copper contaminated soils: A greenhouse feasibility study. Agronomy Abstracts.

167. Punamiya, P., Sarkar, D., Datta, R. (2012) Using drinking water treatment residuals to immobilize tetracyclines in manures and manure-amended Soils: Greenhouse study. Agronomy Abstracts.

168. Rakshit, R., Elzinga, E.J., Datta, R., Sarkar, D. (2012) Molecular mechanisms of oxytetracycline and ciprofloxacin sorption on nano-magnetite. Agronomy Abstracts.

169. Caporale, A.G., Pigna, M., Violante, A., Sarkar, D. (2012) Effects of inorganic and organic ligands on retention-release of arsenate on low-cost sorbents. Agronomy Abstracts.

2013

170. Das, P., Sarkar, D., Panja, S., and Datta, R. (2013) Stimulative phytoremediation of 2,4,6-Trinitrotoluene (TNT) from Soil using Vetiver Grass (Chrysopogon zizanioides L.): A Greenhouse Study, Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

171. Das, P., Sarkar, D., and Datta, R. (2013) A Chemically-Catalyzed Phytoremediation Model for TNT-contaminated Soils, HDC-SETAC Conference Proceedings.

172. Das, P., Datta, R., Pidatala, V. R., Sarkar, D. (2013) Proteomic profiling of Vetiver grass (Chrysopogon zizanoides) under 2,4,6 Trinitrotoluene (TNT) stress. International Phytotechnology Society Abstract.

173. Das, P., Sengupta, A., Nelson, D., Sarkar, D., and Datta, R. (2013) Phytoextraction of RDX-contaminated aqueous media by Vetiver Grass (Chrysopogon zizanoides). Agronomy Abstracts.

174. Punamiya, P., Sarkar, D., and Datta, R. (2013) Effective low-cost sorbent for immobilization and stabilization of tetracyclines in manure and manure amended soils: A greenhouse column study. HDC-SETAC Conference Proceedings.

175. Punamiya, P., Sarkar, D., and Datta, R. (2013) Remediation of Tetracyclines in Manure and Manure Amended Soils: A Long-Term Greenhouse Column Study. Agronomy Abstracts.

176. Punamiya, P., Kaur, K., Deng, Y., and Sarkar, D. (2013) Potential Removal of Arsenic Via Oxidation and Adsorption on Iron Precipitates using an Environment- Friendly Oxidant, Ferrate (VI). Geological Society of America Abstract with Program (5th

International Conference on Medical Geology).

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177. Punamiya, P., Sarkar, D., and Datta, R. (2013) Effect of Solution Properties on Tetracycline Removal by Iron-Based Drinking Water Treatment Residuals. Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

178. Caporale, A., Sarkar, D., Punamiya, P., Violante, A., and Datta, R. (2013) Effect of arbuscular mycorrhizal fungi on growth of vetiver grass (Chrysopogon zizanioides l.) and its arsenic uptake from soil and water systems. Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

179. Sidhu, V.S.., Sarkar, D., Rakshit, S., and Datta, R. (2013) Geochemical forms of copper and phosphorus in copper mining impacted sediments of Upper Peninsula,Michigan. Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

180. Sengupta, A., Bagley, S., Sarkar, D., and Datta, R. (2013) Using biological remediation system to address antibiotic contamination of water sources. Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

181. Rakshit, S., Sarkar, D., and Datta, R. (2013) Surface complexation of antimony on kaolinite. Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

182. Attinti, R., Sarkar, D., and Datta, R. (2013) Effect of Ethylene Diamine Disuccinic Acid (EDDS) application on lead geochemical forms in paint-contaminated residential soils. Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

183. Li, N., Deng, Y., and Sarkar, D. (2013) Ferrate (VI) as a new treatment chemical for water reclamation. Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

184. Singh, S., Vedwan, N., and Sarkar, D. (2013) Mapping vulnerability to groundwater arsenic: Towards developing a socio-economic model of arsenic mitigation in South Asia. Geological Society of America Abstract with Program (5th International Conference on Medical Geology).

185. Rakshit, R., Sarkar, D., Elzinga, E., and Datta, R. (2013) Molecular Mechanisms of Oxytetracycline Sorption on Goethite, Hematite, and Magnetite: In Situ ATR-FTIR Study. Agronomy Abstracts.

186. Sidhu, V.S., Sarkar, D., Rakshit, R., and Datta, R. (2013) Effects of biosolids addition on the total and plant available copper in the contaminated stamp sands of Torch Lake: An incubation study. Agronomy Abstracts.

187. Pidatala, V.R., Datta, R., and Sarkar, D. (2013) Comparative Metabolomic Profiling of Vetiver (Chrysopogon zizanioides) and Maize (Zea mays) under Lead Stress. Agronomy Abstracts.

188. Attinti, R., Sarkar, D., and Datta, R. (2013) Effect of EDTA on Leaching of Lead from Paint Contaminated Residential Soils during Hurricane Sandy. Agronomy Abstracts.

2014

189. Sarkar, D., and Datta, R. (2013) Urban Sprawl and "Green" Remediation of

Residential Soils: A Case Study with Arsenic (Invited). Agronomy Abstracts. 190. Rakshit, R., Sarkar, D., Elzinga, E., and Datta, R. (2014) Oxytetracycline

Adsorption on Iron Oxides: A Comprehensive Approach. Agronomy Abstracts.

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191. Rakshit, R., Sarkar, D., Elzinga, E., and Datta, R. (2014) Effect of humic acids on adsorption and release of tungsten on goethite-water interface. Geological Society of America Abstracts with Program.

192. Punamiya, P., Deng, Y., and Sarkar, D. (2014) Debromination of tetrabromobisphenol A (TBBPA) with an environmentally friendly oxidant – Ferrate (VI). Geological Society of America Abstracts with Program.

193. Punamiya, P., Sarkar, D., and Datta, R. (2014) Remediation of tetracyclines in manure amended soils: A long term greenhouse study. Geological Society of America Abstracts with Program.

194. Panja, S., Das, P., Sarkar, D., Deng, Y., and Datta, R. (2014) Potential of vetiver grass to remove oxytetracycline and ciprofloxacin from aquatic media: Preliminary results from a hydroponic study. Geological Society of America Abstracts with Program.

195. Pidatala, V., Kiiskila, J.D., Sarkar, D., and Datta, R. (2014) Proteomic analysis of lead stress induced changes in hydroponically grown vetiver grass (Chrysopogon zizanioides L.). Geological Society of America Abstracts with Program.

196. Roychowdhury, A., Sarkar, D., Attinti, R., and Datta, R. (2014) Evaluation of Mehlich-3 test for prediction of total and bioaccessible lead concentrations in paint- contaminated residential soils. Geological Society of America Abstracts with Program.

197. Roychowdhury, R., Sarkar, D., and Datta, R. (2014) Using an industrial byproduct to treat acid mine drainage impacted water: Preliminary results. Geological Society of America Abstracts with Program.

198. Kiiskila, J.D., Feuerstein, K.A., Sarkar, D., and Datta, R. (2014) Passive remediation of acid mine drainage by vetiver grass (Chrysopogon zizanioides L.) under greenhouse hydroponic conditions. Geological Society of America Abstracts with Program.

199. Geiger, E.M., Datta, R., and Sarkar, D. (2014) Multitasking Miscanthus giganteus: Phytoremediation/phytomining of marginal, metal-contaminated land coupled with bioethanol production. Geological Society of America Abstracts with Program.

200. Sidhu, V., Sarkar, D., and Datta, R. (2014) Effects of biosolids and compost amendment on geochemical forms of copper and phosphorus in the contaminated stamp sands of Torch Lake, Michigan: An incubation study. Geological Society of America Abstracts with Program.

201. Datta, R., Sarkar, D., and Attinti, R. (2014) Using vetiver grass to remove lead from residential soils of San Antonio, Texas: A simulated field study. Geological Society of America Abstracts with Program.

202. Jackson, S., Bradley, A., Panja, S., Das, P., Punamiya, P., and Sarkar, D. (2014) Effect of hydroraking on trophic levels of Lake Wapalanne, New Jersey: Short-term and long-term studies. Proceedings of the Geological Association of New Jersey.

203. Sarkar, D. (2014) Urban sprawl and “green” remediation of arsenic in residential soils. (Invited) Proceedings of the Geological Association of New Jersey.

2015

204. Roychowdhury, A., Sarkar, D., Deng, Y., and Datta, R. (2015) Green remediation of acid mine drainage impacted water using an industrial byproduct: Filter column study. American Society of Mining and Reclamation Proceedings.

205. Roychowdhury, A., Sarkar, D., Deng, Y., and Datta, R. (2015) Soil and water quality in an acid mine drainage impacted abandoned mine site in Southern Illinois. Illinois. American Society of Mining and Reclamation Proceedings.

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206. Geiger, E., Bensen, R., Sidhu, V., Sarkar, D., and Datta, R. (2015) Utilization of copper contaminated marginal land: Vetiver performs phytostabilization and can be harvested and can be harvested as a second generation biofuels feedstock. Geological Society of America Abstracts with Program.

207. Sidhu, V., Sarkar, D., and Datta, R. (2015) Effects of compost addition and plant cover on fate and distribution of copper in contaminated stamp sands of Torch Lake,

Michigan. Geological Society of America Abstracts with Program. 208. Panja, S., Punamiya, P., Das, P, Mendoza, K., Tripathi, U., and Sarkar, D. (2015)

Short-term and long-term effects of hydro-raking on the trophic level of Lake Wapalanne, and potential of vetiver grass for phosphorus removal. Geological Society of America Abstracts with Program.

209. Roychowdhury, A., Sarkar, D., and Datta, R. (2015) Field scale filter development for “green” remediation of AMD-impacted water. Geological Society of America Abstracts with Program.

210. Kiiskila, J.D., Frederick, S.L., Sarkar, D., and Datta, R. (2015) Phytotoxicity of AMD on hydroponic vetiver grass (Chrysopogon zizanioides L.). Geological Society of America Abstracts with Program.

211. Roychowdhury, A., Sarkar, D., and Datta, R. (2015) Green remediation of AMD-impacted soils using an industrial byproduct and vetiver grass: Incubation and greenhouse studies. Geological Society of America Abstracts with Program.

212. James, R., Zheng, L., Punamiya, P., Das, P., Datta, R., and Sarkar, D. (2015) Characterization of aluminum-based drinking water treatment residuals collected from various parts of the United States. Geological Society of America Abstracts with Program.

213. Jamil, N.B., Punamiya, P., Datta, R., and Sarkar, D. (2015) Antimony removal from aqueous solutions: Potential for aluminum-based drinking water treatment residuals as a “green” sorbent. Geological Society of America Abstracts with Program.

214. Punamiya, P., Pal, R., Deng, Y., and Sarkar, D. (2015) Ferrate [Fe(VI)]-driven remediation of arsenic-contaminated groundwater: A scaled-up reactor study with contaminated groundwater and aquifer materials. Geological Society of America Abstracts with Program.

215. Panja, S., Das, P., Datta, R., and Sarkar, D. (2015) Preliminary studies on removal of tetracycline and ciprofloxacin from secondary wastewater effluent using vetiver grass. Geological Society of America Abstracts with Program.

2016

216. Roychowdhury, A., Sarkar, D., Deng, Y., and Datta, R. (2016) Green remediation of acid mine drainage impacted water: Field scale filter development using an industrial byproduct. American Society of Mining and Reclamation Proceedings.

217. Panja, S., Sarkar, D., Datta, R. (2016) Potential of vetiver grass to remove ciprofloxacin from aquatic media. New Jersey Water Environment Association 101st Annual Conference Proceedings.

218. Panja, S., Sarkar, D., Datta, R. (2016) Rapid Removal of Tetracycline and Ciprofloxacin from Secondary Wastewater Effluent by Hydroponically-Grown Vetiver Grass. HDC-SETAC Annual Conference Proceedings.

219. Barrett, K.R., Sarkar, D., and Deng, Y. (2016) Green sorbent media for mitigation of urban road runoff pollution: Testing of wood mulch coated with drinking water treatment

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residuals for mitigation of dissolved metals and phosphorus. New Jersey Department of Transportation Annual Research Showcase, West Windsor, NJ.

220. Walkons, C., Datta, R., Sarkar, D., Chimner, R., Meyer, A. (2016) Designing a Permeable Reactive Barrier for Groundwater Remediation using WTRs. Association for Environmental Health and Sciences 26th Annual International Conference Proc.

2017

221. Panja, S., Sarkar, D., and Christodoulatos, C. (2017) Preliminary Studies on Removal of Energetic Compounds from Wastewater by Vetiver Grass. Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ.

222. Panja, S. and Sarkar, D. (2017) A multitasking green technology for wastewater treatment. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ.

223. NaNagara, S., Sarkar, D., and Sidhu, V. (2017) Green filter media for use in catch basin inserts to remove nutrient and metals from stormwater runoff: Preliminary study. Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ.

224. NaNagara, S., Sarkar, D., and Sidhu, V. (2017) Evaluating metals and nutrient removal performance of green filter media using laboratory column experiment. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ.

225. Park, D.Y., Sarkar, D., and Sidhu, V. (2017) Development of a new, effective, and low-cost media for sustainable management of polluted road water in highly urbanized areas. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ.

226. Sidhu, V., Sarkar, D., Barrett, K.R., and Datta, R. (2017) A green BMP for mitigation of nutrients and metals in stormwater: Greenhouse column study. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

227. Sidhu, V., Sarkar, D., Geiger, E., and Datta, R. (2017) Effect of compost and plant cover on sustainable restoration of soils contaminated by copper mining. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

228. Roychowdhury, A., Sarkar, D., and Datta, R. (2017) Green remediation technology for prevention of erosion and metal leaching from acid mine drainage impacted soils. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

229. Panja, S., Sarkar, D., and Datta, R. (2017) Removal of Ciprofloxacin and Tetracycline by Vetiver Grass from Nutrient Amended Secondary Wastewater Matrix. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. (Won 2nd Prize of $500 in Student Competition).

230. Geiger, E., Sarkar, D., Sidhu, V., and Datta, R. (2017) Optimization of bioethanol production from lignocellulosic biomass using vetiver grass grown on metal-contaminated Stamp Sands in Upper Peninsula, Michigan. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

231. Sengupta, A, Panja, S., Bagley, S., Sarkar, D., and Datta, R. (2017) Bacterial degradation of tetracycline: Metabolomic profiling and biochemical pathway analysis. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

2018

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232. Panja, S., and Sarkar, D. (2018) Developing a multitasking green phytotechnology to remove pharmaceuticals and nutrients from secondary waster effluents. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ (Won 2nd Prize of $2000 in Graduate Student Innovative Research).

233. NaNagara, S. Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Development of a green filter media for use in catch basin inserts in storm drains: Hydrocarbons removal. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ.

234. Sidhu, V., Sarkar, D., and Barrett, K.R. (2018) Field study on removal of nitrogen and phosphorus by vegetated plots with soils amended with water-treatment residuals. New Jersey Water Environment Association 103rd Annual Conference Proceedings.

235. Na Nagara, S., Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Field study on removal of dissolved metals and nutrients from parking-lot runoff by catch-basin filters augmented with water-treatment residuals-amended media. New Jersey Water Environment Association 103rd Annual Conference Proceedings.

236. Chen, C., Sarkar, D., Sidhu, V., Karak, T., and Datta, R. (2018) A Green BMP for Mitigation of Metals in Stormwater: Greenhouse Panel Study. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

237. Datta, R., Kiiskila, J., Sarkar, D., Panja, S., and Sahi, S. (2018) Remediation of Acid Mine Drainage-Impacted Waters Using Vetiver Grass in a Long-Term Mesocosm Experiment. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

238. Roychowdhury, A., Sarkar, D., and Datta, R. (2018) A Novel and Environmentally Friendly Technique for Remediation of Acid Mine Drainage-Impacted Water. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

239. Na Nagara. S. and Sarkar, D. (2018) Field Performance of a Low-cost, “Green” Filter Media: Metals, Sediments, and Hydrocarbons Removal. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts (Won 1st Prize of $1000 in Student Competition).

240. Sarkar, D., Park, D.Y., Sidhu, V., Datta, R., and Barrett, K.R. (2018) “Green” Mulch for Sustainable Management of Polluted Urban Stormwater Runoff. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

241. Na Nagara, S., Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Field study on removal of dissolved metals from parking lot runoff by catch-basin filters augmented by media containing drinking water treatment residuals. New Jersey Department of Transportation Annual Research Showcase, West Windsor, NJ.

2019 242. Sidhu, V., Sarkar, D. and Datta, R. 2019. A green BMP for mitigation of nutrients in

stormwater: Buffer strip study. Proceedings of the 35th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

243. Sarkar, D., Chen, C., Sidhu, V., and Datta, R (2019) A Green BMP for Mitigation of Metals in Stormwater: Field Panel Study. Agronomy Abstracts.

244. Sidhu, V., Sarkar, D., and Datta, R. (2019) Lead in Urban Residential Soils in Jersey City, NJ and San Antonio, TX. Agronomy Abstracts.

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245. RoyChowdhury, A., Sarkar, D., Mukherjee, P., Panja, S., Christodoulatos, C., and Datta, R. (2019) Removal of Insensitive High Explosives from Industrial Wastewater By Vetiver Grass (Chrysopogon zizanioides L.). Agronomy Abstracts.

246. Panja, S., Sarkar, D., and Datta R (2019) Removal of Antibiotics from Nutrient-Amended Secondary Wastewater Effluent. Agronomy Abstracts.

2020 247. Rahmati, R., Sarkar, D., Na Nagara, V., Zhang, Z., and Datta, R. (2020). Removal of

phosphorus by aluminum-based drinking water treatment residuals collected from various geographic locations in the United States. Geological Society of America Abstracts with Program.

248. Warke, M., Sarkar, D., Zhang, Z., and Datta, R. (2020) Crop rotation of rice with hyperaccumulator Peris vittata to lower arsenic accumulation in rice grains: preliminary studies. Geological Society of America Abstracts with Program.

249. Zhang, Z., Sarkar, D., Sidhu, V., and Datta, R. (2020) Removal of lead in residential soils of Jersey City using biodegradable chelating agent-enhanced phytoremediation. Geological Society of America Abstracts with Program.

250. Neve, S., Sarkar, D., Zhang, Z., Warke, M., Na Nagara, V., and Datta R (2020) Using vetiver biochar to adsorb lead. Geological Society of America Abstracts with Program.

251. Na Nagara, V., Sarkar, D., Luo, Q., Zhang, Z., and Datta, R. (2020) Assessment of potential human health risk from heavy metals exposure via consumption of tea (Camellia sinensis) collected from three countries. Geological Society of America Abstracts with Program.

252. Na Nagara, V., Sarkar, D., Neve, S., Zhang, Z., and Datta, R. (2020) Heavy metal and nutrient removal from stormwater retention pond by vetiver grass (Chrysopogon zizanioides): plant growth chamber study. Geological Society of America Abstracts with Program.

253. Kiiskila, J., Sarkar, D., and Datta, R. (2020) Differential proteomics and metabolomics of shoots of vetiver grass (Chrysopogon zizanioides) used to treat acid mine drainage. Geological Society of America Abstracts with Program.

254. Panja, S., Sarkar, D., and Datta, R. (2020) Plug-flow reactor-based antibiotic and nutrient removal by vetiver grass (Chrysopogon zizanioides). Geological Society of America Abstracts with Program.

255. Rahmati, R., Sarkar, D., and Datta, R. (2020). Removal of lead by aluminum-based drinking water treatment residuals collected from different parts of the United States. Proceedings of the 36th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. (Won 1st Prize of $1000 in Student Competition).

256. Na Nagara, V., Sarkar, D., Neve, S., Zhang, Z., and Datta, R. (2020) Bioretention System Retrofit to Enhance Stormwater Pollutant Removal Using a recycled industrial waste- coated mulch. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts (Won 2nd Prize of $500 in Student Competition).

257. Warke, M., Sarkar, D., Martin, K., Zhang, Z., and Datta, R. (2020). Using Vetiver Grass Phytotechnology to Remove Lead from Paint-Contaminated Residential Soils: Antioxidant Enzyme Responses. Proceedings of the 36th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

D) INVITED PRESENTATIONS:

1999: Georgia Southwestern State University 2000: Savannah River Ecology Laboratory

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2001: Air and Waste Management Association, San Antonio Chapter 2002: Southwest Research Institute 2006: CONACYT – Mexico 2006: Geological Society of America (Annual Meeting) 2006: Daniel B. Stephens and Associates, Albuquerque, New Mexico 2007: Indiana University at Bloomington 2008: American Chemical Society (Annual Meeting) 2008: University of Alberta, Canada 2008: Louisiana State University 2008: Michigan Technological University 2008: Columbia University 2009: Kean University 2009: Asutosh College of the University of Calcutta, India 2010: University of Massachusetts at Boston 2011: Richard Stockton College of New Jersey 2011: Geological Society of America (Annual Meeting) 2013: City College of New York 2013: Rutgers University 2013: Mailman School of Public Health, Columbia University 2013: Soil Science Society of America (Annual Meeting) 2014: Geological Association of New Jersey (Annual Meeting) 2015: Stevens Institute of Technology 2015: Michigan Technological University 2015: University of Tennessee 2016: University of Waterloo, Canada 2016: New Jersey City University 2016: Indian Institute of Technology, Kharagpur, India 2016: EdXCare International, Kolkata, India 2016: Sabujayan Project: Office of the District Magistrate, Krishnanagar, Nadia District, India 2017: New Jersey Institute of Technology 2017: Southwest Forestry University, Kunming, China 2017: Yunnan Agricultural University, Kunming, China 2018: Group for Rural Alternative Movement (GRAM), Kolkata, India 2018: Department of Micro, Small and Medium Enterprises, Government of West Bengal, Kolkata, India 2018, 2019: Ministry of Panchayats and Rural Development, Government of West Bengal, Kolkata, India 2019: Princeton University, Princeton, NJ. 2019: Indian Statistical Institute, Giridih Campus, India. Keynote speech in the 3rd Annual Research Symposium of the Agricultural and Ecological Research Unit. 2019: Swach Environment Private Limited, Kolkata, India 2019: Hugo Neu Corporation Thought Leaders Forum: Climate resilience through innovative carbon farming and green infrastructure for healthy waters, ecosystems and communities. Kearny Point, Kearny, NJ, United States. 2020: Princeton University, Princeton, NJ (Virtual conference on Water Resilience)

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2020: Indian Institute of Technology, Gandhinagar. Virtual Conference on the 5C's of Water Vulnerability: Climate Change, Contaminants, Co-occurrence, Conflicts and COVID-19.

E) NON-REFEREED BIBLIOGRAPHY:

I. Final Project Reports

1. O’Connor, D. Sarkar, and J.B Sartain (1998) Reuse of Carlton Reject Water (Final Report; Sarasota County Utilities, SPA # 96108-C)

2. G.A. O’Connor and D. Sarkar (1999) Fate of land applied residuals bound phosphorus (Final Report; Florida Department of Environmental Protection, Contract # WM661)

3. G.A. O’Connor and D. Sarkar (2001) Phosphorus contamination potential of groundwater associated with land application of domestic and animal waste products (Final Report; Florida Water Resources Research Center – US Geological Survey)

4. D. Sarkar (2004) Geochemical speciation and human bioavailability of arsenic in pesticide applied soils: Phase-I: In-Vitro Studies (Final Report; Advanced Research Program-Texas Higher Education Coordinating Board)

5. D. Sarkar and R. Datta (2006) A novel phytoremediation method using vetiver grass to cleanup lead-based paint-contaminated soils – Phase-I: Greenhouse Studies (Final Report; Lead Technical Studies – Department of Housing and Urban Development)

6. Makris, K.C., D. Sarkar, M. Hardy, and R. Datta (2007) A new method to cleanup chromium enriched stormwater in naval shipyards – Phase-I (Final Report; Department of Defense)

7. D. Sarkar and R. Datta (2008) Biogeochemistry of arsenic in Superfund site soils (Final Report; Science to Achieve Results - United States Environmental Protection Agency)

8. Attinti, R., D. Sarkar, and R. Datta (2012) A new method to cleanup metal enriched stormwater in naval shipyards – Phase-II (Final Report; Department of Defense)

9. Deng, Y., Sarkar, D., and Rakshit, R. (2013) Scrap Tire and Water Treatment Residuals as Novel “Green” Sorbents for Removal of Common Metals from Polluted Urban Storm Water Runoff (Final Report: New Jersey Water Resources Research Institute – US Geological Survey).

10. D. Sarkar, R. Attinti, and R. Datta (2014) A novel phytoremediation method using vetiver grass to cleanup lead-based paint-contaminated soils – Phase-II: Simulated Field Studies (Final Report; Lead Technical Studies – Department of Housing and Urban Development)

11. D. Sarkar, Y. Deng, and P. Punamiya (2015) Remediation of mixed contaminant plumes using ferrate (Final Report; Research Opportunity in Remediation Science and Engineering Program, DuPont Corporation)

12. K.R. Barrett, D. Sarkar, and Y. Deng (2017) Development of new, effective, and low-cost media for sustainable management of polluted road stormwater in highly urbanized areas (Final Report: U.S. Department of Transportation via University Transportation Research Center Region 2)

13. D. Sarkar, Y. Deng, and K.R. Barrett (2017) A green technology for nutrient and metal reduction in NJ coastal waters (Final Report: National Oceanic and Atmospheric Administration via New Jersey Sea Grant Consortium)

II. Instructional Manuals

1. Segovia, A, D. Sarkar (1993) Exercises in Environmental Geology. UMCP Press.

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2. G.A. O’Connor and D. Sarkar (1999) QA/QC Manual for the Soil Chemistry Laboratory, Soil and Water Science Department, University of Florida.

3. D. Sarkar and R. Datta (2003) QA/QC Manual for the Environmental Geochemistry Laboratory, Earth and Environmental Science Department, University of Texas at San Antonio.

III. Thesis and Dissertation

1. Sarkar, D (1991) Geology of the area around Kunchia, Purulia District, West Bengal, India, with observations on gold prospecting. M.Sc. Thesis – University of Calcutta.

2. Sarkar, D (1997) Adsorption of mercury onto variable charge surfaces. Ph.D. Dissertation – University of Tennessee at Knoxville. UMI Publication # 9840337.

F) FUNDED GRANTS:

I. Research (External ~$9 million): Geological Society of America Graduate Student Research Grant, 1996, $1500 (Direct):

Adsorption of mercury onto variable charge surfaces (PI). Water Environment Research Foundation Grant, 1999-2001, $311,935 (Total):

Biogeochemistry of phosphorus in land applied sewage sludges, commercial fertilizers, and animal manures: Phase-I: Greenhouse Studies (Joint-PI; PI - Dr. G.A O’Connor, University of Florida).

U.S. Geological Survey Research Grant (via Florida Water Research Resources Center, 2000-2001, $57,380 (Total): Phosphorus contamination potential of groundwater associated with land application of domestic/animal waste products (PI; Joint PI - Dr. G.A. O’Connor, University of Florida).

Advanced Research Program - Texas Higher Education Coordinating Board, 2001-2003, $98,000 (Direct): Geochemical speciation and human bioavailability of arsenic in pesticide-applied soils: Phase-I: In-Vitro Studies (PI; Proposal Ranked 2nd in the State of Texas in ARP program).

United States Environmental Protection Agency (via Science to Achieve Results – STAR Program), 2002-2005, $391,473 (Total): Biogeochemistry of arsenic in contaminated soils of Superfund sites (PI; Proposal ranked 1st nationally in the Hazardous Substances Research program; Co-PI: Dr. Rupali Datta, University of Texas at San Antonio)

Advanced Research Program Supplemental Teachers Grant-Texas Higher Education Coordinating Board, 2003, $8100 (Direct): speciation and human bioavailability of arsenic in pesticide-applied cotton soils of Texas (PI).

National Institute of Health - SCORE, 2004-2007, $414,550 (Total): Novel Remediation Methods to Lower Human Health Risk from Exposure to Arsenic-Enriched Soils (PI; Co- PI – Dr. Rupali Datta, University of Texas at San Antonio).

San Antonio Life Sciences Institute - REF, 2004-2005, $199,990 (Direct): A multi- disciplinary approach to reduce human bioavailability and carcinogenicity of soil arsenic (PI; Joint PI - Dr. Bandana Chatterjee, UT Health Science Center, San Antonio, Co-PI: Dr. Rupali Datta, University of Texas at San Antonio)

Department of Housing and Urban Development - Lead Technical Studies Program, 2004-2006, $372,767 (Total): A novel phytoremediation method using vetiver grass to cleanup lead-based paint-contaminated soils (PI; Co-PI - Dr. Rupali Datta)

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Department of Defense, Phase-I, 2006-2007, $100,000 (Total): A new method to clean up chromium enriched stormwater in Naval shipyards (PI; Co-PI – Dr. Rupali Datta)

Department of Defense, Phase-II, 2008-2010, $750,000 (Total): A new method to clean up metal enriched stormwater in Naval shipyards (PI; Co-PI – Dr. Rupali Datta)

National Science Foundation, 2010-2014, $390,320 (Total): REU Site: Transdisciplinary environmental science research on forest lakes in Northwest New Jersey (Co-PI; PI – Dr. Kirk Barrett, Montclair State University)

National Science Foundation, 2010-2011, $28,050 (Total): Upgrade of the Optical ICP at Montclair State University (Co-PI; PI – Dr. Matthew Gorring, Montclair State University)

Housing and Urban Development – Lead Technical Studies Program, 2011-2014, $499,694 (Total): A Novel Phytoremediation Method using Vetiver Grass to Cleanup Lead-Based Paint Contaminated Soils: Phase II – Field Study (PI; Joint-PI – Dr. Rupali Datta, Michigan Technological University)

New Jersey Water Resources Research Institute, 2011-2012, $14,996 (Total): Scrap Tire and Water Treatment Residuals as Novel “Green” Sorbents for Removal of Common Metals from Polluted Urban Storm Water Runoff (Joint-PI; PI – Dr. Yang Deng, Montclair State University)

New Jersey Water Resources Research Institute, 2011-2012, $10,000 (Total): Developing a green technology to remove phosphate and pharmaceuticals from wastewater effluents (Co-PI; Doctoral student PI – Saumik Panja, Montclair State University).

United States Department of Interior – Office of Surface Mining, 2012-2015, $199,945 (Total): Low- cost green technology to improve water quality in mining impacted ecosystems. Phase-I: Model development and optimization (PI; Joint-PI – Dr. Xingmao Ma, Southern Illinois University at Carbondale; Co-PI – Dr. Rupali Datta, Michigan Technological University, and Dr. Yang Deng, Montclair State University)

DuPont Corporation – Research Opportunity in Remediation Science and Engineering Program, 2012-2015, $ 344,286 (Total): Remediation of mixed contaminant plumes using ferrate (PI; Co-PI – Dr. Yang Deng)

Michigan Department of Environmental Quality, Nonpoint Source Program, 2014-2016, $144,710 (Total): Reducing Copper Loads form Stamp Sand Deposits in the Keewenaw Peninsula with Permeable Reactive Barriers (Co-PI; PI – Dr. Alex Mayer, Michigan Technological University)

US Department of Transportation (via Region 2 University Transportation Research Center), 2015-2017, $160,000 (Total): Development of new, effective, and low-cost media for sustainable management of polluted road stormwater in highly urbanized areas (PI; Joint PI – Dr. Kirk Barrett, Manhattan College)

National Oceanic and Atmospheric Administration National Sea Grant Program (via NJ Sea Grant Consortium), 2014-2018, $139,995 (Direct): A green technology for nutrient and metal reduction in NJ coastal waters ((PI; Co-PI – Dr. Yang Deng, Montclair State University; Dr. Kirk Barrett, Manhattan College)

National Science Foundation – Major Research Instrumentation, 2015-2018, $168,245 (Total): Acquisition of an Inductively Coupled Plasma – Mass Spectrometer for elemental concentration and speciation analysis (Co-PI; PI – Xiaona Li, Montclair State University)

Department of Defense – Consortium for Energy, Environment, and Demilitarization, 2015-2018, $2,650,434 (Total): Net Zero technologies for the Army’s Industrial Munitions Base (Co-PI; PI – Dr. Christos Christodoulatos, Stevens Institute of Technology).

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New Jersey Water Resources Research Institute, 2017-2018, $10,000 (Total): Developing a multi-tasking green technology for removal of wastewater contaminants and bioethanol production (Co-PI; Student PI – Saumik Panja, Stevens Institute of Technology).

National Oceanic and Atmospheric Administration National Sea Grant Program (via NJ Sea Grant Consortium), 2018-2020, $215,815 (Total): Green retrofit of stormwater BMPs for pollution prevention in urban coastal communities in New Jersey (PI).

Housing and Urban Development – Lead Technical Studies Program, 2018-2021, $578,564 (Total): A Novel Phytoremediation Method using Vetiver Grass to Cleanup Lead-Based Paint Contaminated Soils: Phase III – Demonstration Study (Joint PI; PI – Dr. Rupali Datta, Michigan Technological University).

United States Environmental Protection Agency (via NJ Department of Environmental Protection, 319h program), 2019-2022, $775,000 (Total): Development of a watershed protection plan for Southern Barnegat Bay-Little Egg Harbor tributaries (Co-PI; PI – Dr. Richard Lathrop, Rutgers University).

Bayonne Golf Course, 2019-2020, $60,931 (Total): Bayonne Wetlands conceptual design. Phase 1: Water quality and engineering data collection and evaluation (PI; Co-PI – Dr. Jon Miller, Stevens Institute of Technology).

United States Department of Interior – Office of Surface Mining and Reclamation, 2021- 2023, $200,000 (Total): Cost effective sustainable reclamation of abandoned mine lands from coal mining activities (Joint PI; PI – Dr. A. RoyChowdhury, Navajo Technical University).

II. Research (Internal ~ $1 million):

1. Scholarly Activities Research Incentive Fund, University of Tennessee, 1997, $3000/1y (Direct): Adsorption of mercury by a multicomponent surface: An experimental-modeling approach (Student-PI with Dr. K.C. Misra).

2. Start-up Funds, 2000, $150,000: UTSA. 3. Faculty Research Award, 2001, $5000/1y (Direct): UTSA. 4. Instrument Grant for the purchase of ICP-MS, 2002, $150,000: UTSA. 5. Start-up Funds, 2008, $325,000 (excluding student support): MSU 6. Start-up Funds, 2016, $366,000 (including student support): SIT 7. Ignition Grant Initiative, Stevens Institute of Technology, 2016-17, $18,000: Skin cancer from chronic exposure to arsenic-contaminated soils (Co-PI: Hongjun Wang). 8. Laboratory Improvement Funds, Stevens Institute of Technology, 2018, $50,000. Equipment for the new Environmental Sustainability Laboratory.

G) SIGNIFICANT PROFESSIONAL SERVICES:

Member, Science Advisory Board, New Jersey Department of Environmental Protection – Water Quality and Quantity Standing Committee, 2020 - Member, Board of Directors, University Transportation Research Center, Region 2, 2017- Member, Toxics Advisory Committee, Delaware River Basin Commission, 2017 – Member, Advisory Board, Department of Earth and Planetary Sciences, University of Tennessee at Knoxville, 2017 – Member, Scientific Advisory Board, Association of Environmental Health and Sciences, 2017 – Founding Editor-in-Chief: Current Pollution Reports, 2015 -

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Founding Section Editor-in-Chief: Applied Sciences (Section: Environmental and Sustainable Science and Technology), 2018 -

Founding Technical Editor: International Journal of Environmental Science and Technology, 2009 –

Associate Editor: GeoHealth, 2017 – Associate Editor: Environmental Technology and Innovation, 2020 – Associate Editor, Soil Science Society of America Journal, 2011-2017 Associate Editor: Environmental Geosciences, 2001-2016 Associate Editor: Geosphere, 2005-2016 Editorial Board Member: Environmental Pollution, 2005–2018 Editorial Board Member: Chemosphere, 2006–2009 Editorial Board Member: International Journal of Applied Environmental Science, 2005-2010. Editorial Board Member: British Journal of Environment Climate Change, 2010-2014. Guest Editor (Special Editions): Environmental Geosciences – Issue #1: Environmental

Analyses and Modeling (V. 10, No. 4, December 2003); Issue #2: Nutrients and Environmental Quality (V. 11, No. 1, March 2004); Issue#3: Environmental Biogeochemistry (V. 11, No. 2, June 2004)

Invited Reviewer: o Journals: Soil Science Society of America Journal, Journal of Environmental

Quality, Environmental Science and Technology, Water Research, Separation Science and Technology, Geoderma, Chemosphere, Restoration Ecology, Geosphere, Environmental Geosciences, Vadose Zone Journal, Environmental Pollution, Bioresource Technology, Science of the Total Environment, Environmental Modelling and Software Journal, Environmental Geology, Bioremediation Journal, Journal of Environmental Management, Journal of Agricultural and Food Chemistry, Journal of Hazardous Materials, Water, Air, and Soil Pollution, Proceedings of Indian National Science Academy, International Journal of Environmental Science and Technology, Environmental Chemistry Letters, Current Pollution Report, and many more.

o Book: McGraw-Hill, Elsevier, Wiley, American Chemical Society. o Funding Agencies: National Science Foundation, National Institute of Health

(Panel); U.S. Department of Agriculture, U.S. Geological Survey – National Institute of Water Resources, Texas Institute of Water Research, U.S. Civilian Research & Development Foundation, Azerbaijan National Science Foundation, Natural Environment Research Council, United Kingdom, Maryland Industry Partnerships Program, Israel Ministry of Science and Technology, Denmark Ministry of Foreign Affairs.

o Academic: As an external reviewer of PhD dissertations, promotion and tenure packages, departments and program assessments of universities, both within and outside the US.

Symposium Chair: Annual Goldschmidt Conference, Knoxville, June 2010. Conference Program Chair: Division of Environmental Geosciences, American Association of Petroleum Geologists Annual Conference, San Antonio, April 2008. Symposium Chair: Spring meeting of the American Chemical Society, New Orleans, April

2008. Title: Speciation of arsenic and other trace elements in soils and sediments. Symposium Chair: Joint Annual meeting of the Geological Society of America, Soil Science

Society of America, American Society of Agronomy, and Crop Science Society of America,

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Houston, October 2008. Title: Urban geochemistry and associated human and ecological health issues.

Organizer (w/ Dr. Eusebio Juriasti of Mexico): Joint CONACYT-UTSA Conference, Mexico City, August 31, 2006.

Invited Judge: Symposium titled: Groundwater Issues: Resource, Exploration, Exploitation, and Remediation. American Association of Petroleum Geologists National Meeting, Dallas, TX, 2004.

Member-at-Large: Research Grants Committee, Geological Society of America, 2006 – 2010.

Member, Education Committee: American Society of Agronomy, 2007 - 2009 Chair, Public Outreach Committee: Division of Environmental Geosciences, American

Association of Petroleum Geologists, 2007 Member, Public Outreach Committee: Division of Environmental Geosciences, American

Association of Petroleum Geologists, 2007 – 2010. Member, Hydrogeology Committee: Division of Environmental Geosciences, American

Association of Petroleum Geologists, 2007 – 2010. Member, Publications Committee: Division of Environmental Geosciences, American

Association of Petroleum Geologists, 2001 – 2016. Faculty Advisor, UTSA Student Chapter of National Association for Environmental

Professionals, 2001 - 2002. Symposium Chair: American Chemical Society (Southwestern) Annual Meeting. October

2001. Title: Environmental Issues facing the U.S.-Mexico Border. Symposium Chair: Joint Annual Meeting (International) of Soil Science Society of

America, American Society of Agronomy, and Crop Science Society of America. November 2002. Title: Soil Carbon.

Symposium Chair: Annual Meeting of Geological Society of America. November 2004. Title: Current Perspectives in Environmental Biogeochemistry (Oral-I; Oral-II; and Poster).

Symposium Chair: Joint Annual Meeting (International) of Soil Science Society of America, American Society of Agronomy, and Crop Science Society of America. October 2005. Title: Trace Elements in Soils and Plants.

Member, Graduate Faculty, University of Alabama, 2005-2010. Member, Graduate Faculty/Adjunct Professor, Michigan Technological University, 2009 – Member, Graduate Faculty, University of Massachusetts at Boston, 2010 – Technical Auditor, Center for Nuclear Waste and Regulatory Analysis, Southwest

Research Institute, 2005. Scientific Consultant, Center for Nuclear Waste and Regulatory Analysis, Southwest

Research Institute, 2005 – 2007. Member, Committee on Emerging Contaminants, New Jersey Department of

Environmental Protection, 2008 – 2012. Member, Attenuation Processes for Metals and Radionuclides Team, Interstate Technology

and Regulatory Council, 2008 – 2014. Board of Directors, Society of Environmental Toxicology and Chemistry – Hudson Delaware

Chapter, 2010 – 2014. Vice President, Society of Environmental Toxicology and Chemistry – Hudson Delaware

Chapter, 2011 – 2012. President, Society of Environmental Toxicology and Chemistry – Hudson Delaware

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Chapter, 2012 – 2013. Member of the following professional societies: * Soil Science Society of America, 1996 – * American Society of Agronomy, 1996 – * Geological Society of America, 1996 – * Environmental Geosciences Division, American Association of Petroleum Geologists, 1996 – * American Geophysical Union, 1997 – * Association of Environmental Health and Sciences, 2017 – * International Engineering and Technology Institute, 2018 – * Association of Agricultural Scientists of Indian Origin, 2005 – * American Association for the Advancement of Science, 1998 - * The Universities Council on Water Resources, 2002-2008

H) HONORS, AWARDS, AND OTHER SPECIAL RECOGNITIONS:

Fellow, 2019 Soil Science Society of America Fellow, 2011 Geological Society of America. Outstanding Researcher of Environmental Geosciences Award, 2015 American

Association of Petroleum Geologists. Outstanding Service Award, 2015 Montclair State University. Outstanding Research Grant Success Award, 2013 Montclair State University. Outstanding Teacher of Environmental Geosciences Award, 2008 American

Association of Petroleum Geologists. President’s Distinguished Achievement Award for Research Excellence, 2006

University of Texas at San Antonio. Early Career Award in Research, 2005 Southern Branch of the American Society of

Agronomy. Outstanding Young Scientist Award, 2004 Association of Agricultural Scientists of

Indian Origin. Top 40 Under 40 San Antonio Rising Star Award, 2004 San Antonio Business Journal. Faculty Research Award, 2001, University of Texas at San Antonio. Based on G.A. O’Connor and D. Sarkar, 1999 (Item# D-I-2), Rule 62-640.500(4),

Florida Administrative Code was implemented. Ref: Drew, M (2000), “Implementation of Rule 62-640.500(4), Florida Administrative Code.” Program Guidance Memo, Florida Department of Environmental Protection. DOM-00-05.

WHO’S WHO in Geosciences, American Geological Institute, 1999. Based on G.A. O’Connor, D. Sarkar, and J.B Sartain, 1998 (Item# D-I-1), Rule 62-

610.865, Florida Administrative Code was modified. Ref: Drew, M (2000), “Blending of concentrate with reclaimed water.” Program Guidance Memo, Florida Department of Environmental Protection. DOM-00-04.

Coffee Cup Society Award, 1995 and 1997, Department of Geological Sciences, University of Tennessee as the graduate student with the highest GPA.

Science Alliance Fellowship, 1993, University of Tennessee. Honors in Geology, 1988, in the B.S. Program, University of Calcutta. National Scholarship, 1983 (for placement in “Top 100” of the graduating class of

more than 250,000 students in the statewide school leaving examination).

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I) THESIS/DISSERTATION SUPERVISION (only those as Major Advisor listed here): I. UNIVERSITY OF TEXAS AT SAN ANTONIO:

1. Melissa Haddad, Fall 2002. MS Thesis in Environmental Science

Publications: i. Haddad, M.J. and D. Sarkar (2003) Glomalin, a newly discovered component of soil organic matter. Part-I: Environmental significance. Environ. Geosci., 10(3): 91 - 98. ii. Haddad, M.J. and D. Sarkar (2003) Glomalin, a newly discovered component of soil organic matter. Part-II: Influence of soil properties. Environ. Geosci. 10(3): 99 - 106. iii. Haddad, M.J. and Sarkar, D. (2002) Glomalin in soil organic matter as a function of soil properties. Agronomy Abstracts. iv. Haddad, M.J. and Sarkar, D. (2001) Environmental significance of glomalin in soil organic matter. ACS Abstracts with Program.

Awards and Honors: a) Geological Society of America Graduate Student Research Grant, 2002, $2000: Glomalin in soil organic matter as a function of soil properties b) Soil Science Society of America Best Student Paper Contest, 2002: Glomalin in soil organic matter as a function of soil properties (Third Place nationally).

2. Michael Ferguson, Fall 2003. MS Thesis in Geology.

Publications: i. Sarkar, D., M.C. Ferguson, R. Datta, and S. Birnbaum. Bioremediation of petroleum hydrocarbons in contaminated soils: Comparison of biosolids addition, carbon supplementation, and monitored natural attenuation. Environ. Polln. 136: 187-195. ii. Birnbaum, S.J., Sarkar, D., Datta,R., and Ferguson, M.C. (2004) Treat it or leave it? A bench-scale view comparing monitored natural attenuation with two forms of biostimulation. Geological Society of America Abstracts with Program, V. 36, No. 5. iii. Sarkar,D., Datta, R., and Ferguson, M. (2003) Biodegradation of Petroleum Hydrocarbons in Soils: Effects of Biosolids Addition and Role of Carbon. AAPG Abstracts.

3. Marina Parra-Noonan, Spring 2004. MS Thesis in Geology

Publications: i. Sarkar, D., K.C. Makris, R. Datta, and M. Parra-Noonan (2007) Effect of soil properties on arsenic fractionation and bioaccessibility in cattle and sheep dipping vat site soils Environ. International, 33: 164 - 169. ii. Sarkar, D., M. Parra-Noonan, and R. Datta (2007) Distribution of arsenic in chemically variant dipping vat site soils. Bull Environ. Contamin. Toxicol. 73: 838-845 iii. Sarkar, D. and Parra-Noonan, M, and Datta, R. (2004) Bioavailability of arsenic in cattle dipping vat site soils as a function of soil chemistry. Geological Society of America Abstracts with Program, V. 36, No. 5. iv. Parra-Noonan, M., Sarkar, D., and Datta, R. (2004) Geochemical fate of arsenic in cattle-dip vat site soils from Australia. Geological Society of America Abstracts with Program, V. 36, No. 1. v. Parra-Noonan, M. and Sarkar, D. (2003) Bioavailability of arsenic in contaminated soils from cattle-dip vat sites. NAEP Abstracts with Programs.

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vi. Sarkar, D. and Parra-Noonan, M. (2003) Geochemical Fate of Arsenic in Cattle-Dip Vat Site Soils. Agronomy Abstracts.

4. Alpana Khairom, Summer 2005. M.S. Thesis in Environmental Science

Publications: i. Sarkar, D., K.C. Makris, R. Datta, and Khairom, A (2006) Effect of remedial treatment on phosphorus availability in an arsenical pesticide contaminated soil. Bull Environ. Contamin. Toxicol., 77(1): 297 - 304. ii. Sarkar, D., S. Quazi, K.C. Makris, R. Datta, and A. Khairom (2007). Arsenic bioaccessibility in a soil amended with drinking water treatmentresiduals in the presence of phosphate fertilizer. Arch. Environ. Contamin. Toxicol., 53: 329-336. iii. Datta, R., D. Sarkar, A. Khairom, and C. Therapong (2005) Phytoremediation of constructed wetlands. In J. Lehr (ed) Encyclopedia of Water. Vol. 3, Surface and Agricultural Water. John Wiley and Sons, New York, NY, pp. 364-371. iv. Quazi, S., Sarkar, D., Khairom, A., and Datta, R. (2005) Arsenic Bioavailability in a Soil Amended with Water Treatment Residuals in the Presence of Phosphorus: Effect of Amendment Rates. Agronomy Abstracts. v. Khairom, A., Sarkar, D., and Datta, R. (2005) Bioavailability of arsenic and phosphorus in a Florida soil amended with water treatment residuals: Effect of equilibration time. Geological Society of America Abstracts with Program, V. 37, No. 3. vi. Quazi, S., Sarkar, D., Khairom, A., Datta, R., and Sharma, S. (2005) Bioavailability Of Arsenic In Arsenical Pesticide-Amended Soils: Preliminary Greenhouse Study. Eos Trans. AGU, 86(18), Jt. Assem. Suppl, Abstract B31A-02. vii. Khairom, A., Sarkar, D. and Datta, R. (2004) Preliminary studies on arsenic and phosphorus bioavailability in chemically amended soils. Geological Society of America Abstracts with Program, V. 36, No. 1. viii. Khairom, A., Sarkar, D., and Datta, R. (2004) Bioavailability of arsenic and phosphorus in a sandy soil amended with water treatment residuals. Geological Society of America Abstracts with Program, V. 36, No. 5.

5. Vandana Vandanapu, Summer 2005. M.S. Thesis in Environmental Science

Publications: i. Sarkar, D., K.C. Makris, V. Vandanapu, and R. Datta (2007). Adsorption of arsenic in soils amended with water treatment residuals. Environ. Pollution, 146: 414 - 419. ii. Sarkar, D, V. Vandanapu, and R. Datta (2005) Soil N management impact on quality of surface and subsurface water. In J. Lehr (ed) Encyclopedia of Water. Vol. 3, Surface and Agricultural Water. John Wiley and Sons, New York, NY, pp. 694-701. iii. Vandanapu, V., Sarkar, D., Makris, K., and Datta, R. (2005) Arsenic Adsorption and Desorption by Drinking-Water Treatment Residuals: an Isotherm Study. Agronomy Abstracts. iv. Vandanapu, V., Sarkar, D., Datta, R., and Makris, K.C. (2005) Arsenic Adsorption and Desorption by Drinking Water Treatment Residuals: Incubation Studies. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract B33B-05. v. Vandanapu, V., Sarkar, D., Datta, R., and Sharma, S. (2004) Arsenic adsorption and desorption by water treatment residuals: Preliminary results. Geological Society of America Abstracts with Program, V. 36, No. 5.

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vi. Nagar, R., Sarkar, D., Datta, R., Khairom, A., Vandanapu, V., and Quazi, S. (2004) Effect of sewage sludge addition on heavy metal concentrations in agricultural soils. Geological Society of America Abstracts with Program, V. 36, No. 5.

Awards and Honors: Geological Society of America Graduate Student Research Grant, 2004, $1700: Arsenic geochemistry in water treatment residual amended soils.

6. Neal Simpson, Spring 2006. MS Thesis in Environmental Science

Publications: i. Simpson, N., D. Sarkar, R. Datta, and S. Sharma (2006) Effects of Sewage Sludge Disposal on Metal Contents in the Sediments and Water of Mitchell Lake, San Antonio, TX. Bull Environ. Contamin. Toxicol., 77(1): 104 – 111. ii. Barber, S.J., Sarkar, D., Simpson, N., Sharma, S., and Datta, R. (2005) Heavy Metals Release in Mitchell Lake as a Function of Sediment Properties. Agronomy Abstracts. iii. Barber, S., Simpson, N., Sharma, S., Sarkar, D., and Datta, R. (2005) Bioavailability of heavy metals in sediments of a sludge-disposal lake. Geological Society of America Abstracts with Program, V. 37, No. 3. iv. Simpson, N. and Sarkar, D. (2004) Heavy Metals in Sediments of a Sludge Disposal Lake. AAPG Abstracts. v. Simpson, N.W., Sarkar, D., Sharma, S., and Datta, R. (2004) Heavy metal geochemistry in sludge-affected sediments of Mitchell Lake, Texas. Geological Society of America Abstracts with Program, V. 36, No. 5. vi. Barber, S.J., Sarkar, D., Simpson, N., Sharma, S., and Datta, R. (2005) Heavy Metals Release in Mitchell Lake as a Function of Sediment Properties. Agronomy Abstract.

7. Abraham Frias, Fall 2006. MS Thesis in Environmental Science

Publications: i. Sarkar, D., R. Datta, and A. Frias (2003) Biogeochemistry of arsenic in pesticide-applied soils: Preliminary results from an incubation study. Nat. Assoc. Environ. Prof. Proc. V. 28, 15pp. ii. Frias, A. and Sarkar, D. (2004) Bioavailability of Arsenic in Pesticide- Applied Cotton Soils of Texas. AAPG Abstracts. iii. Frias, A.R., Sarkar, D., and Datta, R. (2004) Geochemical forms and bioavailability of arsenic in pesticide-applied cotton soils of Texas: An incubation study. Geological Society of America Abstracts with Program, V. 36, No. 5. iv. Sarkar, D., Frias, A., and Datta, R. (2005) Biogeochemistry of arsenic in pesticide-applied cotton soils of Texas: Effects of application rate and equilibration time. Agronomy Abstracts.

Awards and Honors: 2nd Prize in Student Oral Presentation Competition, 2005. Southern Branch of the American Society of Agronomy

8. Chacharee Therapong, Summer 2007. Ph.D. dissertation in Environmental Science a n d

Engineering

Publications:

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i. Datta, R., D. Sarkar, A. Khairom, and C. Therapong (2005) Phytoremediation of constructed wetlands. In J. Lehr (ed) Encyclopedia of Water. Vol. 3, Surface and Agricultural Water. John Wiley and Sons, New York, NY, pp. 364-371. ii. Datta, R., D. Sarkar, H. Mohamed, and C. Therapong (2007) Remediation of arsenical pesticide applied soils using water treatment residuals: Preliminary greenhouse results. In D. Sarkar, R. Datta, and R. Hannigan (ed.) Concepts and Applications in Environmental Geochemistry. Elsevier, Amsterdam, The Netherlands, pp. 543-560. iii. Datta, R., D. Pachanoor, C. Therapong, and D. Sarkar. Influence of arsenate-phosphate interactions on arsenic stress in rice seedlings (In Review: Environ Exp. Botany). iv. Therapong, C., Datta, R., Sarkar, D. and Pachanoor, D.S. (2006) Arsenic Accumulation by Pteris vittata L. in Two Chemically Variant Soils Treated with Arsenical Pesticides - Greenhouse Study. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B43A-18. v. Pachanoor, D.S., Datta, R., Sarkar, D., and Therapong, C. (2005) Antioxidant Responses of Monocot Seedlings to Arsenical Pesticides. Agronomy Abstracts. vi. Quispe, M., Therapong, C., Datta, R., and Sarkar, D. (2005) Arsenic remediation potential of Vetiver grass. Geological Society of America Abstracts with Program, V. 37, No. vii. Mohamed, H., Therapong, C., Andra, S., Datta, R., and Sarkar, D. (2005) Phytoavailability of Arsenic in pesticide-Applied Soils: Effect of Chemical Remediation. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract NB52A-04. viii. Therapong, C., Datta, R., and Sarkar, D. (2004) Comparative Arsenic Stress Response in Monocot Seedlings. AAPG Abstracts. ix. Therapong, C., Datta, R., and Sarkar, D. (2004) Arsenic stress response in rice: Comparison between organic and inorganic pesticides. Geological Society of America Abstracts with Program, V. 36, No. 5. x. Therapong, C., Datta, R. and Sarkar, D. (2003) Arsenic Stress Response in Monocot Seedlings. Agronomy Abstracts xi. Datta, R., Sarkar, D., and Therapong, C. (2003) Evaluation of Arsenic Stress on Grass Seedlings. Agronomy Abstracts.

9. Jason Salazar, Fall 2007. MS Thesis in Environmental Science.

Publications: i. Makris, K.C., J. Salazar, S. Quazi, S. Andra, D. Sarkar, S.B.H. Bach, and R. Datta. (2008) Controlling the fate of roxarsone and inorganic arsenic in poultry litter. J Environ Qual, 37: 963-971. ii Datta, R., Makris K.C., Salazar, J., Quazi, S., and Sarkar, D. (2007) Novel Chemical Amendment to Reduce Arsenic Availability in Poultry Litter. Agronomy Abstracts. iii. Salazar, J., Sarkar, D., Datta, R., and Sharma, S. (2006) Adsorption of Roxarsone onto Drinking Water Treatment Residuals: Preliminary Studies. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract H43C-29.

10. John Branom, Spring 2008. MS Thesis in Environmental Science.

Publications: i. Branom, J.R. and D. Sarkar (2004) Phosphorus bioavailability in sediments of a sludge-disposal lake. Environ. Geosci. 11(1): 42 - 52. ii. Branom, J.R. and Sarkar, D. (2004) Geochemical Forms of Phosphorus in Sediments of a Sludge Disposal Lake. AAPG Abstracts.

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iii. Sarkar, D. and Branom, J. (2003) Biogeochemistry of phosphorus in a eutrophic lake. Geological Society of America Abstracts with Program, V.36, No. 1. iv. Branom, J.R. and Sarkar, D. (2003) Phosphorus in Sediments of a Sludge Disposal Lake. Agronomy Abstracts.

11. Christopher Amy, Summer 2008. MS Thesis in Environmental Science.

Publications: i. Amy, C.D., Sarkar, D., and Datta, R. (2004) In-situ stabilization of arsenic in soils amended with water treatment residuals. Geological Society of America Abstracts with Program, V. 36, No. 5. ii. Sarkar, D., Amy, C., and Datta, R. (2005) Bioavailability of arsenic in soil amended with various water treatment residuals: An incubation study. Agronomy Abstracts.

12. Summer Barber, Summer 2008. MS Thesis in Environmental Science.

Publications: i. Punamiya, P., Datta, R., Sarkar, D., Barber, S., Patel, M., and Das, P. (2010). Symbiotic role of Glomus mosseae in phytoextraction of lead in vetiver grass [Chrysopogon zizanioides (L.)]. Jour.Hazard. Mater. 177: 465-474. ii. Barber, S., Datta, R., and Sarkar, D. (2006) The Effects of an Endomycorrhizal Fungus Glomus mosseae on the Uptake of Lead by Vetiver Grass. Agronomy Abstracts. iii. Barber, S.J., Sarkar, D., Simpson, N., Sharma, S., and Datta, R. (2005) Heavy Metals Release in Mitchell Lake as a Function of Sediment Properties. Agronomy Abstracts. iv. Barber, S., Simpson, N., Sharma, S., Sarkar, D., and Datta, R. (2005) Bioavailability of heavy metals in sediments of a sludge-disposal lake. Geological Society of America Abstracts with Program, V. 37, No. 3.

13. Michael Hardy, Summer 2008. MS Thesis in Environmental Science

Publications: i. Hardy, M., Makris, K.C., Sarkar, D., and Datta, R. (2007) A Packed Bed Reactor System to Treat Chromium-Contaminated Shipyard Stormwater. Agronomy Abstracts. ii. Sarkar, D., and Hardy, M. (2007) Using A Waste By-Product To Remove Metals from Contaminated Shipyard Stormwater. Geological Society of America Abstracts with Program, V. 39, No. 6.

14. Padmini Das. Summer 2008. MS Thesis in Environmental Science

Publications: i. Makris, K.C., Datta, R., Sarkar, D., Sakya, K. and Das, P.(2007) Chaotropic effects on 2,4,6-trinitrotoluene uptake by wheat ( Triticum aestivum ) Plant and Soil 295(1-2): 229-237. ii. Shakya, K., Das, P., Makris, K.C., Datta, R., Sarkar, D. and Panchoor, D. (2006) Uptake and Biotransformation of 2,4,6-Trinitrotoluene (TNT) by Wheat (Triticum aestivum) (2006). Agronomy Abstracts. iii. Das, P., Datta, R., Sarkar, D., Makris, K.C., Ovuegbe, E., and Punamiya, P. (2007) Chemically-Catalyzed Uptake of 2, 4, 6-Trinitrotoluene by Vetiver Grass (Vetiveria Zizanioides) In Soil. Geological Society of America Abstracts.




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iv. Das, P., Makris, K.C., Sarkar, D., Datta, R. and Punamiya, P. (2008) TNT adsorption in chemically variant soils: Preliminary studies. Agronomy Abstracts. v. Punamiya, P., Datta, R., Patel. M., Sarkar, D. and Das P. (2008) Effect of arbuscular mycorrhizal fungi on Cadmium uptake by Brassica juncea: An Incubation study. Agronomy Abstracts. vi. Das, P., Makris, K.C., Datta, R., Sarkar, D. and Punamiya, P. (2008) Urea- Catalyzed Extractability of 2,4,6-Trinitrotoluene from Contaminated Soils. American Association of Petroleum Geologists vii. Punamiya, P., Datta, R., Sarkar, D., Barber, S., Patel. M. and Das P. (2008) Symbiotic role of Glomus mosseae in lead phytoextraction using vetiver grass. Geological Society of America Abstracts viii. Punamiya, P., Datta, R., Sarkar, D. and Das P. (2008) Effect of Cadmium on antioxidant enzymes in the presence of beneficial arbuscular mycorrhizal fungi: An Incubation study using Brassica juncea (Indian mustard) Geological Society of America Abstracts.

15. Pravin Punamiya. Summer 2008. MS Thesis in Environmental Science

Publications: i. Datta, R., Sarkar, D., Punamiya, P., and Nagar, R. (2007) Response to Letter to the editor re: Datta et al., 2006 (Boyce et al.). Sci Total Environ.388 (2007)376-378. ii. Makris, K.C., Quazi, S., Punamiya, P., Sarkar, D. and Datta, R. (2007). Fate of arsenic in swine waste of concentrated animal feeding operation. Journal of Environmental Quality (2008)37, 1626-33. iii. Makris, K.C., Punamiya, P., Sarkar, D. and Datta, R. (2007). Novel Colorimetric method overcoming phosphorus interference during trace arsenic analysis in soil solutions. The Analyst (2008)133, 191-196. iv. Pachanoor, D., Punamiya, P., Therapong, C., Datta, R. and Sarkar, D. (2006).Effect of Arsenical Pesticides on Antioxidant Enzymes in Rice: A Comparative Greenhouse Study using Organic and Inorganic Arsenical Pesticides. Agronomy Abstracts. (ASA-CSSA-SSSA , Nov 12-16, Indianapolis, IN. v. Punamiya, P., Makris, K.C., Datta, R. and Sarkar, D (2007) Low-Level Colorimetric Determination of Arsenic in the Presence of Phosphorus in Soil Solutions. Agronomy Abstracts. (ASA-CSSA-SSSA , Nov 4-8 ,New Orleans, LA). vi. Das, P., Datta, R., Sarkar, D., Makris, K.C., Ovuegbe, E., and Punamiya, P. (2007) Chemically-Catalyzed Uptake of 2, 4, 6-Trinitrotoluene by Vetiver Grass (Vetiveria Zizanioides) In Soil. Geological Society of America Abstracts with Program, V.39, No.6. ( GSA, 28-31 Oct, Denver, CO ) vii. Patel, M., Datta, R., Punamiya, P. and Sarkar, D (2007) Arsenic Distribution and Localization in the Fronds of the Hyperaccumulator Fern Pteris vittata. Agronomy Abstracts. (ASA-CSSA-SSSA , Nov 4-8 ,New Orleans, LA) viii. Quazi, S., Makris, K.C., Sarkar, D., Datta, R. and Punamiya, P. (2007) Geochemical fate of arsenic in swine litter AGU, Abstract 88(52).( AGU, 10–14 DEC 2007, San Francisco, CA. ix. Punamiya, P., Patel. M., Datta, R. and Sarkar, D. (2008) Phytoextraction of lead in soil using lead-accumulating grass (Vetiveria zizanioides) in the presence of beneficial arbuscular mycorrhizal fungi. American Association of Petroleum Geologists (AAPG, April 19-23 San Antonio, TX) x. Punamiya, P., Datta, R., Patel. M., Sarkar, D. and Das P. (2008) Effect of arbuscular mycorrhizal fungi on Cadmium uptake by Brassica juncea: An Incubation study. Agronomy Abstracts. (ASA Southern Branch Annual Meeting February 3-5, 2008 Dallas, TX)

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xi. Das, P., Makris, K.C., Sarkar, D., Datta, R. and Punamiya, P. (2008) TNT adsorption in chemically variant soils: Preliminary studies. Agronomy Abstracts. (ASA Southern Branch Annual Meeting February 3-5, 2008, Dallas, TX). xii. Patel, M., Datta, R., Punamiya, P., Sarkar, D. and Sahi, S. (2008) Antioxidative responses and arsenic localization in the arsenic-hyperaccumulator Chinese brake fern (Pteris vittata L.)Agronomy Abstracts. (ASA Southern Branch Annual Meeting February 3-5, 2008 Dallas, TX) xiii. Das, P., Makris, K.C., Datta, R., Sarkar, D. and Punamiya, P. (2008) Urea- Catalyzed Extractability of 2,4,6-Trinitrotoluene from Contaminated Soils. American Association of Petroleum Geologists. (AAPG, April 19-23 San Antonio TX) \ xiv. Barber, S., Patel, M., Datta, R., Sarkar, D. & Punamiya, P. (2008) Effect of Glomus mosseae on lead uptake by the Vetiveria Zizanioides. American Association of Petroleum Geologists. (AAPG, April 19-23 San Antonio TX) xv. Punamiya, P., Datta, R., Sarkar, D., Barber, S., Patel. M. and Das P. (2008) Symbiotic role of Glomus mosseae in lead phytoextraction using vetiver grass. Geological Society of America Abstracts xvi. Punamiya, P., Datta, R., Sarkar, D. and Das P. (2008) Effect of Cadmium on antioxidant enzymes in the presence of beneficial arbuscular mycorrhizal fungi: An Incubation study using Brassica juncea (Indian mustard) Geological Society of America Abstracts.

16. Shahida Quazi, Summer 2008. Ph.D. Dissertation in Environmental Science and Engineering.

Publications: i. Quazi, S., Sarkar, D., and Datta, R. (2013) Human health risk from arsenical pesticide contaminated soils: A long-term greenhouse study. J. Hazard. Mater. 262: 1031-1038. (DOI 10.1016/j.jhazmat.2012.10.027) ii. Quazi, S., Datta, R. and Sarkar, D. (2011). Effects of soil types and forms of arsenical pesticides on rice growth and development. Inter. J. Environ. Sci. Technol. 8: 445-460. iii. Quazi, S., Sarkar, D., and Datta, R. (2010). Effect of soil aging on arsenic fractionation and bioaccessibility in inorganic arsenical pesticide contaminated soils. Appl. Geochem. 25: 1422-1430. iv. Andra, S., Makris, K., Quazi, S., Sarkar, D., Datta, R., and Bach, S. (2010). Organocopper complexes during roxarsone degradation in wastewater lagoons. Environ. Sci. Pollut. Res. 17(1): 1167-1173. v. Makris, K.C., S. Quazi, P. Punamiya, D. Sarkar, and R. Datta, (2008) Fate of arsenic in swine waste from concentrated animal feeding operations. J Environ Qual, 37: 1626-1633. vi. Makris, K.C., Quazi, S., Nagar, R., Sarkar, D., Datta, R., V.L. Sylvia (2008) In-vitro model improves prediction of soil arsenic bioavailability: worst-case scenario. Environ. Sci. Technol., 42: 6278-6284. vii. Quazi, S., D. Sarkar, and R. Datta (2005) Lead: Health effects. In J. Lehr (ed) Encyclopedia of Water. Vol. 2, Water Quality and Resource Development. John Wiley and Sons, New York, NY, pp. 432-440. viii. Quazi, S., D. Sarkar, R. Datta, and S. Sharma (2007) Greenhouse study on arsenic speciation and bioavailability in two pesticide-contaminated soils of Florida: Preliminary results. In D. Sarkar, R. Datta, and R. Hannigan (ed.) Concepts and Applications in Environmental Geochemistry. Elsevier, Amsterdam, The Netherlands, pp. 345-362. ix. Sarkar, D., S. Quazi, K.C. Makris, R. Datta, and A. Khairom (2007). Arsenic bioaccessibility in a soil amended with drinking water treatment residuals in the presence of phosphate fertilizer. Arch. Environ. Contamin. Toxicol., 53: 329-336.

http://dx.doi.org/10.1016/j.jhazmat.2012.10.027

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x. Quazi, S., K. Makris, D. Sarkar, R. Datta, P. Punamiya (2007) Geochemical fate of arsenic in swine litter. EOS Trans. AGU 88 (52). xi. Quazi, S., Makris, K.C., Sarkar, D., Datta, R. and Patel, M. (2007) Effects of a Common Gastric Bacterium on Soil Arsenic Bioaccessibility and Speciation in the Human Stomach. Agronomy Abstracts. xii. Makris, K.C., Andra, S.S., Quazi, S., Sarkar, D., Bach. S., and Datta, R. (2007) Probing Roxarsone Degradation in Animal Waste with the Aid of Electrospray Mass Spectrometry. Agronomy Abstracts. xiii. Nagar, R., Sarkar, D., Datta, R., Makris, K.C., and Quazi, S. (2007) Long- Term Effectiveness Of Drinking-Water Treatment Residuals In Reducing Soil Arsenic Bioaccessibility: A Greenhouse Study: Geological Society of America Abstracts with Program, V. 39, No. 6. xiv. Quazi, S., Sarkar, D., Makris, K.C. and Datta, R., (2006) Fate and Stability of soil-borne arsenic in the human stomach. Agronomy Abstracts. xv. Quazi, S., Sarkar, D., Sylvia, V., and Datta, R. (2006) Correlation Between An In-vitro Method And An In-vivo Method In Assessing Bioavailable Arsenic In Two Pesticide-Amended Soils. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B31A-02. xvi. Quazi, S., Sarkar, D., Khairom, A., and Datta, R. (2005) Arsenic Bioavailability in a Soil Amended with Water Treatment Residuals in the Presence of Phosphorus: Effect of Amendment Rates. Agronomy Abstracts. xvii. Quazi, S., Sarkar, D., Khairom, A., Datta, R., and Sharma, S. (2005) Bioavailability Of Arsenic In Arsenical Pesticide-Amended Soils: Preliminary Greenhouse Study. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract B31A-02. xviii. Quazi, S., Sarkar, D., Datta, R., and Sharma, S. (2005) Consideration of arsenic bioavailability in human health risk assessment: Preliminary greenhouse results. Geological Society of America Abstracts with Program, V. 37, No. 3. xix. Juckett, M., Quazi, S., Morales, M., Smith, B., Wang, X., and Sarkar, D. (2005) Cursory examination of water quality in the San Antonio river basin. Geological Society of America Abstracts with Program, V. 37, No. 3. xx. Quazi, S., Sarkar, D., Datta, R., and Sharma, S. (2004) Greenhouse study on arsenic speciation and bioavailability in two pesticide-contaminated soils of Florida: Preliminary results. Geological Society of America Abstracts with Program, V. 36, No. 5. xxi. Nagar, R., Sarkar, D., Datta, R., Khairom, A., Vandanapu, V., and Quazi, S. (2004) Effect of sewage sludge addition on heavy metal concentrations in agricultural soils. Geological Society of America Abstracts with Program, V. 36, No. 5.

Awards and Honors: a) Geological Society of America Graduate Student Research Grant, 2005, $1500: A greenhouse study on biogeochemistry of arsenic in pesticide-applied Florida soils: In-vitro – In-vivo Correlation b) UTSA Presidential Dissertation Award, 2005, $4000: First EES graduate student to have received this prestigious research award.

17. Rachana Nagar, Summer 2008. Ph.D. Dissertation in Environmental Science and Engineering

Publications: i. Nagar, R., Sarkar, D., Punamiya, P., and Datta, R. (2015) Drinking Water Treatment Residual Amendment Lowers Inorganic Arsenic Bioaccessibility in Contaminated Soils: A Long-Term Study. Water Air Soil Pollut. 226(11): 1-15.





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ii. Nagar, R., Sarkar, D., Makris, K., and Datta, R. (2013) Bioaccessibility and Speciation of an Organoarsenical in Drinking-water Treatment Residual Amended Soil: A Long Term Greenhouse Study. J. Hydrol. 518(C): 477-485. ii. Nagar, R., Sarkar, D., Makris, K., and Datta, R. (2013) Inorganic Arsenic Sorption by Drinking-Water Treatment Residuals Amended Sandy Soil: Effect of Soil Solution Chemistry. Inter. J. Environ. Sci. Technol.10: 1-10. iii. Nagar, R., Sarkar, D., Makris, K., and Datta, R. (2010). Effect of solution chemistry on arsenic sorption by Fe- and Al-based drinking-water treatment residuals. Chemosphere. 78(8): 1028-1035. iv. Nagar, R., Makris, K., Sarkar, D., Datta, R., Sylvia, V. (2009) Bioavailability and Bioaccessibility of arsenic in a soil amended with drinking water treatment residuals. Arch. Environ. Contamin. Toxicol. 57(4): 755-766. v. Anderson, A., R. Nagar, and D. Sarkar (2007) Spatial and temporal effects on surface water quality in a segment of the San Antonio River, Texas. In D. Sarkar, R. Datta, and R. Hannigan (ed.) Concepts and Applications in Environmental Geochemistry. Elsevier, Amsterdam, The Netherlands, pp. 591-608. vi. Nagar, R., D. Sarkar, and R. Datta (2006) Effect of sewage sludge addition on soil quality in terms of metal concentrations. Bull. Environ. Contamin. Toxicol. 76(5): 823-830. vii. Nagar, R., Sarkar, D., Datta, R., Makris, K.C., and Quazi, S. (2007) Long- Term Effectiveness of Drinking-Water Treatment Residuals In Reducing Soil Arsenic Bioaccessibility: A Greenhouse Study: Geological Society of America Abstracts with Program, V. 39, No. 6. viii. Nagar, R., Sarkar, D., Makris, K.C., Datta, R. and Sylvia, V.L. (2007) WTRs as a Remedial Agent For Arsenic-Contaminated Soils: In-Vitro and in-vivo studies. Agronomy Abstracts. ix. Sarkar, D., Nagar, R., Makris, K.C., and Datta, R. (2007) Modeling Arsenate Adsorption by Drinking-Water Treatment Residuals. Agronomy Abstracts. x. Nagar, R., Sarkar, D., Makris, K.C., and Datta, R. (2006) Effects of Solution Properties on Arsenic Immobilization in Drinking Water Treatment Residuals-Amended Soils: Incubation Study. Agronomy Abstracts. xi. Sharma, S., Datta, R., Sarkar, D, and Nagar, R. (2006) Geochemical Speciation and Bioavailability of Arsenic in Chemically Variant Soils Amended with Sodium Arsenite: A Greenhouse Study. Agronomy Abstracts. xiii. Nagar, R., Sarkar, D., Datta, R., and Makris, K.C. (2006) Solution pH effects on arsenic removal by drinking water treatment residuals in presence of metals and ligands. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract H33B-04. xiv. Nagar, R., Sarkar, D., Makris, K.C., and Datta, R. (2006) Effects of Solution Properties on Arsenic Immobilization in Drinking Water Treatment Residuals-Amended Soils: Incubation Study. Agronomy Abstracts xiv. Nagar, R., Sarkar, D., Makris, K., and Datta, R. (2005) Arsenic Sorption by Water Treatment Residuals as a Function of pH in the Presence of Competing Ligands. Agronomy Abstracts. xv. Nagar, R., Sarkar, D., Sharma, S., and Datta, R. (2005) Potential phytoavailability of heavy metals as a function of soil properties in biosolids amended soils. Geological Society of America Abstracts with Program, V. 37, No. 3. xvi. Nagar, R., Sarkar, D., Datta, R., and Sharma, R. (2005) Effect of Solution Properties on Arsenic Adsorption by Drinking Water Treatment Residuals. Eos Trans. AGU, 86(18), Jt. Assem. Suppl., Abstract B33B-04. xvii. Nagar, R., Sarkar, D., Datta, R., Khairom, A., Vandanapu, V., and Quazi, S. (2004) Effect of sewage sludge addition on heavy metal concentrations in agricultural soils. Geological Society of America Abstracts with Program, V. 36, No. 5.

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Awards and Honors: a) Geological Society of America Graduate Student Research Grant,2006, $2000: Potential of a drinking water treatment byproduct as an amendment to lower arsenic availability in soils.

18. Kabindra Shakya. Ph.D. in Environmental Science and Engineering (Transferred to U of NH)

Publications: i. Makris, K.C., K.M. Shakya, R. Datta, D. Sarkar, and D. Pachanoor. High uptake of 2,4,6 trinitrotoluene by vetiver grass – potential for phytoremediation? Environ. Pollut., 146: 1 – 4. ii. Makris, K.C., K.M. Shakya, R. Datta, D. Sarkar, and D. Pachanoor (2007) Chemically-Catalyzed Uptake of 2,4,6-Trinitrotoluene by Vetiveria zizanioides. Environ. Pollution, 148: 101-106. iii. Makris, K.C., Datta, R., Sarkar, D., Sakya, K. and Das, P.(2007) Chaotropic effects on 2,4,6-trinitrotoluene uptake by wheat ( Triticum aestivum ) Plant and Soil 295(1-2): 229-237. iv. Shakya, K.M., Makris, K.C., Datta, R., Pachanoor, D., Sarkar, D., and Das, P. (2006) Uptake and Biotransformation of 2,4,6-Trinitrotoluene (TNT) by Wheat (Triticum aestivum). Agronomy Abstracts. v. Shakya, K.M., Sarkar, D., Datta, R., Makris, K.C., and Pachanoor, D.S. (2006) Uptake of 2,4,6-Trinitrotoluene (TNT) by Vetiver grass (Vetiviera ziznoides L.) -- Preliminary results from a hydroponic study. Eos Trans. AGU, 87, Jt. Assem. Suppl., Abstract B43A-20.

II. MONTCLAIR STATE UNIVERSITY

1. Michael Hardy. PhD Dissertation in Environmental Management (Discontinued)

Publications (2008 onwards): i. Makris, K., Andra, S., Sarkar, D., Hardy, M., Datta, R., Bach, S., Mullens, C. (2009) Nitrous oxide supersaturation at the liquid/air interface of animal waste. Environ. Pollut. 157(12): 3508-3513. ii. Sarkar, D., Hardy, M., and Datta, R. (2010) Beneficial reuse of a municipal waste byproduct for reclamation of abandoned mine sites. ASMR Conference Proceedings. iii. Hardy, M., D. Sarkar, K. Makris, R. Datta (2008) Using a Waste By- Product to Remove Metals from Contaminated Shipyard Stormwater. AAPG Abstracts. iv. Hardy, M.A., D. Sarkar, R. Datta (2008) Water Treatment Residuals Remove Copper, Lead, and Zinc from Acidic Wastewater. Agronomy Abstracts. v. Hardy, M., Sarkar, D., and Datta, R. (2009) Removal of heavy metals from shipyard stormwater using residuals of drinking water treatment, HDC- SETAC Conference Proceedings. Vi Hardy, M., Sarkar, D., and Datta, R. (2009) Immobilization of Heavy Metals in Abandoned Mine Soils Amended with Al-Based Drinking Water Treatment Residuals: An Incubation Study. Agronomy Abstracts.

Awards and Honors: a. Geological Society of America Graduate Student Research Grant, 2009, $3110: A novel technique utilizing a waste by-product for cost effective reclamation of abandoned mine soils b. 3rd Prize in Student Poster Presentation Competition, 2009. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology.




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2. Pravin Punamiya, Fall 2013. PhD Dissertation in Environmental Management

Publications (2009 onwards): i. Datta, R., Das, P., Tappero, R., Punamiya, P., Elzinga, E., Sahi, S., Feng, H., Kiiskila, J., and Sarkar, D. (2017) Evidence for exocellular Arsenic in Fronds of Pteris vittata. Nature Scientific Reports 7: 2839-2846. DOI:10.1038/s41598-017-03194-x. ii. Punamiya, P., Sarkar, D., Rakshit, S., Elzinga, E. and Datta, R. (2016) Immobilization of tetracyclines on manure and manure-amended soils using Al- based drinking water treatment residuals. Environ. Sci. Pollut. Res. 23: 3322-3332. iii. Sun, S., Zheng, Y., Lv, P., Punamiya, P., Sarkar, D., Dan, Y., Ma, J., and Li, Y. (2016) Determination of prometryn in vetiver grass and water using gas chromatography-nitrogen chemilumininescence detection. J. Chromatogr. Sci. 54(2): 97-102. iv. Nagar, R., Sarkar, D., Punamiya, P., and Datta, R. (2015) Drinking Water Treatment Residual Amendment Lowers Inorganic Arsenic Bioaccessibility in Contaminated Soils: A Long-Term Study. Water Air Soil Pollut. 226(11): 1-15. v. Punamiya, P., Sarkar, D., Rakshit, S., and Datta, R. (2015) Effect of solution properties, complexing ligands, and competing metal on sorption of tetracyclines on Al-based drinking water treatment residuals. Environ. Sci. Pollut. Res. 22: 7508-7518. vi. Barbooti, M., Punamiya, P., Su, H., and Sarkar, D. (2014) Oxytetracycline adsorption on Iraqi montmorillonite. Inter. J. Environ. Sci. Technol. 11(1): 69-76. vii. Rakshit, S., Sarkar, D., Punamiya, P., and Datta, R. (2014) Kinetics of oxytetracycline sorption on magnetite nanoparticles. Inter. J. Environ. Sci. Technol. 11(5):1207-1214. viii. Rakshit, S., Sarkar, D., Elzinga, E., Punamiya, P., and Datta, R. (2014) Surface Complexation of Oxytetracycline by Magnetite: Effect of Solution Properties. Vadose Zone J. 13(2). doi:10.2136/vzj2013.08.0147 ix. Caporale, A, Sarkar, D., Datta, R., Punamiya, P., and Violante, A. (2014) Effect of arbuscular mycorrhizal fungi (Glomus spp.) on growth and arsenic uptake of vetiver grass (Chrysopogon zizanioides L.) from contaminated soil and water systems. J. Soil Sci. Plant Nutr. 14(4): 955-972. x. Punamiya, P., Sarkar, D., Rakshit, S., and Datta, R. (2013) Effectiveness of Al-based drinking water treatment residuals as a novel sorbent for removal of tetracyclines from aqueous medium. J. Environ. Qual. 42: 1449-1459. xi. Rakshit, S., Sarkar, D., Punamiya, P., and Datta, R. (2013) Kinetics of oxytetracycline sorption on magnetite nanoparticles. Inter. J. Environ. Sci. Technol. (In Press: DOI 10.1007/s13762-013-0317-x) xii. Das, P., Sarkar, D., Punamiya, P., Makris, K., and Datta, R. (2013) Effectivenessof Urea in Enhancing the Extractability of 2,4,6 Trinitrotoluene from Chemically Variant Soils. Chemosphere (In Press: DOI 10.1016/j.chemosphere.2013.06.028) xiii. Rakshit, S., Sarkar, D., Elzinga, E., Punamiya, P., and Datta, R. (2013) Surface Complexation of Oxytetracycline by Magnetite: Effect of Solution Properties. Vadose Zone J. (Accepted) xiv. Datta, R., Das, P., Smith, S., Punamiya, P., Ramanathan, D.M., Reddy, R., and Sarkar, D. (2013). Phytoremediation potential of vetiver grass [chrysopogon zizanioides (l.)] for tetracycline. Inter. J. Phytorem. 15: 343-351. xv. Punamiya, P., Datta, R., Sarkar, D., Barber, S., Patel, M., and Das, P. (2010). Symbiotic role of Glomus mosseae in phytoextraction of lead in vetiver grass [Chrysopogon zizanioides (L.)]. Jour.Hazard. Mater. 177: 465-474.

http://10.0.3.248/j.chemosphere.2013.06.028

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xvi. Makris, K., Sarkar, D., Salazar, J., Punamiya, P., and Datta, R. (2010) Alternative amendment for soluble phosphorus removal from poultry litter. Environ. Sci. Pollut. Res. 17(1):195-202. xvii. Punamiya, P., Sarkar, D., Datta, R. (2010) Interaction and effect of solution chemistry on sorption of oxytetracycline on Fe-based drinking-water treatment residuals. HDC-SETAC Conference Proceedings. xviii. Datta, R., Smith, S., Das, P., Punamiya, P., Ramanathan, D., Sarkar, D. (2010) Uptake of Tetracycline from Hydroponic Systems by Vetiver Grass. HDC-SETAC Conference Proceedings. xix. Das, P., Datta, R., Sarkar, D., Punamiya, P., and Makris, K.C. (2009) Chemically enhanced phytoextraction of 2, 4, 6 trinitrotoluene (TNT) by Vetiver grass from a low organic matter containing soil, HDC-SETAC Conference Proceedings. xx. Punamiya, P., Barber, S., Das, P., Sarkar, D., and Datta, R. (2009) Phytoextraction of lead using a metal-accumulating grass (Vetiveria zizanioides) in the presence of an arbuscular mycorrhizal fungus, Glomus mosseae, HDC-SETAC Conference Proceedings. xxi. Punamiya, P., Sarkar, D., Datta, R., and Makris, K.C. (2009) Rapid and inexpensive arsenic determination method in water and soil extracts in the presence of phosphorus, Proceedings of the 94th annual meeting of NJWEA. xxii. Rakshit, S., Sarkar, D., and Punamiya, P. (2009) Oxytetracycline Sorption on Magnetite, Proceedings of the 36th Northeast Regional Meeting of ACS. xxiii. Punamiya, P., Sarkar, D., Datta, R. (2009) Aluminum Based Drinking Water Treatment Residuals as a Novel Sorbent to Immobilize Oxytetracycline: Effects of Solution Properties, Proceedings of the 36th Northeast Regional Meeting of ACS. xxiv. Das, P., Sarkar, D., Punamiya, P., Makris, K.C., Datta, R. (2009) Enhanced Uptake and Biotransformation of 2, 4, 6-Trinitrotoluene by Vetiver Grass (Chrysopogon zizanioides) from Soil. Agronomy Abstracts. xxv. Punamiya P, Agyin-Birikorang S, Sarkar D., Das P and Datta R (2009) Oxytetracycline Adsorption and Desorption by Drinking Water Treatment Residuals: Preliminary Results. Agronomy Abstracts. xxvi. Punamiya, P., Sarkar, D., Datta, R. (2010) Interaction and effect of solution chemistry on sorption of oxytetracycline on Fe-based drinking-water treatment residuals. HDC-SETAC Conference Proceedings. xxvii. Datta, R., Smith, S., Das, P., Punamiya, P., Ramanathan, D., Sarkar, D. (2010) Uptake of Tetracycline from Hydroponic Systems by Vetiver Grass. HDC-SETAC Conference Proceedings. xxviii. Rakshit, S., Punamiya, P., Datta, R., and Sarkar, D. (2010) Sorption of oxytetracycline on magnetite-water interface. Goldschmidt Abstracts. xxix. Punamiya, P., Sarkar, D., Datta, R. (2011) Aluminum-based drinking- water treatment residuals a “green” sorbent for tetracyclines. Geological Society of America Abstracts with Program. xxx. Rakshit, S., Sarkar, D., Elzinga, E., Punamiya, P., Datta, R. (2011) Ciprofloxacin adsorption on magnetite-water interface. Geological Society of America Abstracts with Program. xxxi. Das, P., Datta, R., Punamiya, P., Sarkar, D. (2011) Phytoremediation potential of vetiver grass (chrysopogon zizanioides l.) For 2,4,6- trinitrotoluene (TNT) from soil: urea-catalyzed uptake and nitroreductase enzyme mediated transformation. Geological Society of America Abstracts with Program. xxxii. Punamiya, P., Sarkar, D., Datta, R. (2012) Drinking water treatment residuals as a "green" sorbent for veterinary antibiotics: Results from an incubation study. HDC-SETAC Conference Proceedings.













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xxxiii. Sidhu, V., Sarkar, D., Fonti, V., Punamiya, P., Das, P., Datta, R. (2012) Field pennycress (Thlaspi arvense) and camelina (Camelina sativa) have potential for sustainable stabilization of copper contaminated soils: A greenhouse feasibility study. Agronomy Abstracts. xxxiv. Punamiya, P., Sarkar, D., Datta, R. (2012) Using drinking water treatment residuals to immobilize tetracyclines in manures and manure-amended Soils: Greenhouse study. Agronomy Abstracts. xxxv. Punamiya, P., Sarkar, D., and Datta, R. (2013) Effective low-cost sorbent for immobilization and stabilization of tetracyclines in manure and manure amended soils: A greenhouse column study. HDC-SETAC Conference Proceedings. xxxvi. Punamiya, P., Sarkar, D., and Datta, R. (2013) Remediation of Tetracyclines in Manure and Manure Amended Soils: A Long-Term Greenhouse Column Study. Agronomy Abstracts. xxxvii. Punamiya, P., Kaur, K., Deng, Y., and Sarkar, D. (2013) Potential Removal of Arsenic Via Oxidation and Adsorption on Iron Precipitates using an Environment-Friendly Oxidant, Ferrate (VI). Geological Society of America Abstract with Program (5th International Conference on Medical Geology). xxxviii. Punamiya, P., Sarkar, D., and Datta, R. (2013) Effect of Solution Properties on Tetracycline Removal by Iron-Based Drinking Water Treatment Residuals. Geological Society of America Abstract with Program (5th International Conference on Medical Geology). xxxix. Punamiya, P., Deng, Y., and Sarkar, D. (2014) Debromination of tetrabromobisphenol A (TBBPA) with an environmentally friendly oxidant – Ferrate (VI). Geological Society of America Abstracts with Program. xxxx. Punamiya, P., Sarkar, D., and Datta, R. (2014) Remediation of tetracyclines in manure amended soils: A long term greenhouse study. Geological Society of America Abstracts with Program.

Awards and Honors: a. Geological Society of America Graduate Student Research Grant, 2009, $2390: Biogeo- chemical fate of a veterinary antibiotic in soil-water systems. b. 2nd Prize in Student Poster Presentation Competition, 2009. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology. c. New Jersey Water Resources Research Institute Student Research Grant, 2010, $5000: Green remediation of veterinary antibiotics in soil- water systems. d. 2nd Prize in Student Oral Presentation Competition, 2010. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology e. Best Doctoral Student Award, 2011. College of Science and Mathematics, Montclair State University f. 1st Prize in Student Oral Presentation Competition, 2012. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology. g. Travel Grant Award, 2013, $1000. 5th International Conference on Medical Geology, International Medical Geology Association, and Geological Society of America. h. 3rd Prize in Student Poster Presentation Competition, 2013. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology. i. 2nd Prize in Student Poster Presentation Competition, 2013. 5th International Conference on Medical Geology, International Medical Geology Association, and Geological Society of America.

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3. Padmini Das. Spring 2014. PhD Dissertation in Environmental Management.

Publications (2009 onwards): i. Datta, R., Das, P., Tappero, R., Punamiya, P., Elzinga, E., Sahi, S., Feng, H., Kiiskila, J., and Sarkar, D. (2017) Evidence for exocellular Arsenic in Fronds of Pteris vittata. Nature Scientific Reports 7: 2839-2846. DOI:10.1038/s41598-017-03194-x. ii. Das, P., Sarkar, D., and Datta, R. (2017) Proteomic profiling of vetiver grass (Chrysopogon zizanioides) under 2,4,6‐trinitrotoluene stress. GeoHealth, 1 (2): 66-7. iii. Das, P., Sarkar, D., and Datta, R. (2017) Kinetics of nitroreductase-mediated phytotransformation of TNT in vetiver grass. Inter. J. Environ. Sci. Technol. 14 (1), 187-192. iv. Sengupta, A., Das, P., Panja, S., Sarkar, D., Parikh, C., Ramanathan, D., Bagley, S., and Datta, R. (2016) Tetracycline uptake and metabolism by vetiver grass (Chrysopogon zizanoides L. Nash). Environ. Sci. Pollut. Res. 23(24): 880-889. v. Das, P., Sarkar, D., Makris, K.C., and Datta, R. (2015) Urea-Facilitated Uptake and Nitroreductase-Mediated Transformation of 2,4,6- Trinitrotoluene in Soil using Vetiver Grass. J. Environ. Chem. Engg. 3(1): 445-452. vi. Kiiskila, J., Das, P., Sarkar, D., and Datta, R. (2015) Phytoremediation of explosive-contaminated soils. Curr. Pollut. Rep. 1(1): 23-34. vii. Das, P., Sarkar, D., Punamiya, P., Makris, K., and Datta, R. (2013) Effectiveness of Urea in Enhancing the Extractability of 2,4,6 Trinitrotoluene from Chemically Variant Soils. Chemosphere. 93(9): 1811- 1817. viii. Datta, R., Das, P., Smith, S., Punamiya, P., Ramanathan, D.M., Reddy, R., and Sarkar, D. (2013). Phytoremediation potential of vetiver grass [chrysopogon zizanioides (l.)] for tetracycline. Inter. J. Phytorem. 15: 343-351. ix. Das, P., Datta, R., Makris, K., and Sarkar, D. (2010). Vetiver grass is capable of removing TNT from soil in the presence of urea. Environ. Pollut.158(5): 980-983. x. Punamiya, P., Datta, R., Sarkar, D., Barber, S., Patel, M., and Das, P. (2010). Symbiotic role of Glomus mosseae in phytoextraction of lead in vetiver grass [Chrysopogon zizanioides (L.)]. Jour.Hazard. Mater. 177: 465-474. xi. Das, P., Datta, R., Sarkar, D., Punamiya, P., and Makris, K.C. (2009) Chemically enhanced phytoextraction of 2, 4, 6 trinitrotoluene (TNT) by Vetiver grass from a low organic matter containing soil, HDC-SETAC Conference Proceedings. xii. Punamiya, P., Barber, S., Das, P., Sarkar, D., and Datta, R. (2009) Phytoextraction of lead using a metal-accumulating grass (Vetiveria zizanioides) in the presence of an arbuscular mycorrhizal fungus, Glomus mosseae, HDC-SETAC Conference Proceedings. xiii. Datta, R., Das, P., Sarkar, D., and Andra, S. (2009) A Phytoremediation Model for Lead and TNT contaminated soils. SERDP-ESTCP Abstracts xiv. Das, P., Sarkar, D., Datta, R., Makris, K.C., Shakya, K.M., and Pachanoor, D. (2009) Urea Catalyzed Phytoremediation of 2, 4, 6 Trinitrotoluene (TNT) Contaminated Water by Vetiver grass (Vetiveria zizanioides L.) and Wheat (Triticum aestivum L.), Proceedings of the 94th annual meeting of NJWEA. xv. Das, P., Sarkar, D., Punamiya, P., Makris, K.C., Datta, R. (2009) Enhanced Uptake and Biotransformation of 2, 4, 6-Trinitrotoluene by Vetiver Grass (Chrysopogon zizanioides) from Soil. Agronomy Abstracts. xvi. Punamiya, P., Agyin-Birikorang, S., Sarkar, D., Das, P., and Datta, R. (2009) Oxytetracycline Adsorption and Desorption by Drinking Water Treatment Residuals: Preliminary Results. Agronomy Abstracts.


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xvii. Datta, R., Smith, S., Das, P., Punamiya, P., Ramanathan, D., Sarkar, D. (2010) Uptake of Tetracycline from Hydroponic Systems by Vetiver Grass. HDC-SETAC Conference Proceedings. xviii. Das, P., Datta, R., Punamiya, P., Sarkar, D. (2011) Phytoremediation potential of vetiver grass (chrysopogon zizanioides l.) For 2,4,6- trinitrotoluene (TNT) from soil: urea-catalyzed uptake and nitroreductase enzyme mediated transformation. Geological Society of America Abstracts with Program. xix. Das, P., Sarkar, D., Datta, R. (2012) A chemically catalyzed phytoremediation model for TNT-contaminated soils. HDC-SETAC Conference Proceedings. xx. Das, P., Datta, R., Sarkar, D. (2012) Nitroreductase enzyme mediated phytodegradation of 2,4,6 Trinitrotoluene by vetiver grass. Agronomy Abstracts. xxi. Sidhu, V., Sarkar, D., Fonti, V., Punamiya, P., Das, P., Datta, R. (2012) Field pennycress (Thlaspi arvense) and camelina (Camelina sativa) have potential for sustainable stabilization of copper contaminated soils: A greenhouse feasibility study. Agronomy Abstracts. xxii. Das, P., Sarkar, D., Panja, S., and Datta, R. (2013) Stimulative phytoremediation of 2,4,6-Trinitrotoluene (TNT) from Soil using Vetiver Grass (Chrysopogon zizanioides L.): A Greenhouse Study, Geological Society of America Abstract with Program (5th International Conference on Medical Geology). xxiii. Das, P., Sarkar, D., and Datta, R. (2013) A Chemically-Catalyzed Phytoremediation Model for TNT-contaminated Soils, HDC-SETAC Conference Proceedings. xxiv. Das, P., Datta, R., Pidatala, V. R., Sarkar, D. (2013) Proteomic profiling of Vetiver grass (Chrysopogon zizanoides) under 2,4,6 Trinitrotoluene (TNT) stress. International Phytotechnology Society Abstract. xxv. Das, P., Sengupta, A., Nelson, D., Sarkar, D., and Datta, R. (2013) Phytoextraction of RDX-contaminated aqueous media by Vetiver Grass (Chrysopogon zizanoides). Agronomy Abstracts. xxvi. Panja, S., Das, P., Sarkar, D., Deng, Y., and Datta, R. (2014) Potential of vetiver grass to remove oxytetracycline and ciprofloxacin from aquatic media: Preliminary results from a hydroponic study. Geological Society of America Abstracts with Program.

Awards and Honors: a. Geological Society of America Graduate Student Research Grant, 2009, $2310: Development of a chemically-catalyzed phytoremediation system for 2, 4, 6-trinitrotoluene (TNT) contaminated soils. b. 1st Prize in Student Poster Presentation Competition, 2009. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology. c. 1st Prize in Student Poster Presentation Competition, 2009. 94th Annual Meeting of the New Jersey Water Environment Association. d. 1st Prize in Student Poster Presentation Competition, 2009. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology e. Best Doctoral Student Award, 2012. College of Science and Mathematics, Montclair State University f. 2nd Prize in Student Oral Presentation Competition, 2012. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology. g. Travel Grant Award, 2013, $1000. 5th International Conference on Medical Geology, International Medical Geology Association, and Geological Society of America.







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h. 1st Prize in Student Poster Presentation Competition, 2013. Annual Meeting of the Hudson-Delaware Chapter of the Society of Environmental Chemistry and Toxicology. i. 1st Prize in Student Oral Presentation Competition, 2013. 5th

International Conference on Medical Geology, International Medical Geology Association, and Geological Society of America.

4. Virinder Sidhu. Fall 2015. PhD Dissertation in Environmental Management

Publications: i. Sidhu, V.S., Sarkar, D., and Datta, R. (2016). Effects of biosolids and compost amendment on chemistry of soils contaminated with copper from mining activities. Environ. Monit. Assess. 188: 176-185. ii. Sidhu, V., Sarkar, D., Datta, R., and Solomon, B. (2018) Community response to a sustainable restoration plan for a Superfund site. Environ. Sci. Pollut. Res.,25: 16959-16968. ii. Sidhu, V., Sarkar, D., Fonti, V., Punamiya, P., Das, P., Datta, R. (2012) Field pennycress (Thlaspi arvense) and camelina (Camelina sativa) have potential for sustainable stabilization of copper contaminated soils: A greenhouse feasibility study. Agronomy Abstracts. iii. Sidhu, V.S.., Sarkar, D., Rakshit, S., and Datta, R. (2013) Geochemical forms of copper and phosphorus in copper mining impacted sediments of Upper Peninsula, Michigan. Geological Society of America Abstract with Program (5th International Conference on Medical Geology). iv. Sidhu, V.S., Sarkar, D., Rakshit, R., and Datta, R. (2013) Effects of biosolids addition on the total and plant available copper in the contaminated stamp sands of Torch Lake: An incubation study.Agronomy Abstracts. v. Sidhu, V., Sarkar, D., and Datta, R. (2014) Effects of biosolids and compost amendment on geochemical forms of copper and phosphorus in the contaminated stamp sands of Torch Lake, Michigan: An incubation study. Geological Society of America Abstracts with Program. vi. Sidhu, V., Sarkar, D., and Datta, R. (2015) Effects of compost addition and plant cover on fate and distribution of copper in contaminated stamp sands of Torch Lake, Michigan. Geological Society of America Abstracts with Program. vii. Sidhu, V., Sarkar, D., Barrett, K.R., and Datta, R. (2017) A green BMP for mitigation of nutrients and metals in stormwater: Greenhouse column study. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. viii. Sidhu, V., Sarkar, D., Geiger, E., and Datta, R. (2017) Effect of compost and plant cover on sustainable restoration of soils contaminated by copper mining. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. ix. Geiger, E., Sarkar, D., Sidhu, V., and Datta, R. (2017) Optimization of bioethanol production from lignocellulosic biomass using vetiver grass grown on metal-contaminated Stamp Sands in Upper Peninsula, Michigan. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. x. NaNagara, S., Sarkar, D., and Sidhu, V. (2017) Green filter media for use in catch basin inserts to remove nutrient and metals from stormwater runoff: Preliminary study. Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ. xi. NaNagara, S., Sarkar, D., and Sidhu, V. (2017) Evaluating metals and nutrient removal performance of green filter media using laboratory column experiment. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ.

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xii. Park, D.Y., Sarkar, D., and Sidhu, V. (2017) Development of a new, effective, and low-cost media for sustainable management of polluted road water in highly urbanized areas. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ. xiii. NaNagara, S. Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Development of a green filter media for use in catch basin inserts in storm drains: Hydrocarbons removal. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ. xiv. Sidhu, V., Sarkar, D., and Barrett, K.R. (2018) Field study on removal of nitrogen and phosphorus by vegetated plots with soils amended with water-treatment residuals. New Jersey Water Environment Association 103rd Annual Conference Proceedings. xiv. Na Nagara, S., Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Field study on removal of dissolved metals and nutrients from parking-lot runoff by catch-basin filters augmented with water-treatment residuals-amended media. New Jersey Water Environment Association 103rd Annual Conference Proceedings. xv. Chen, C., Sarkar, D., Sidhu, V., Karak, T., and Datta, R. (2018) A Green BMP for Mitigation of Metals in Stormwater: Greenhouse Panel Study. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. xvi. Sarkar, D., Park, D.Y., Sidhu, V., Datta, R., and Barrett, K.R. (2018) “Green” Mulch for Sustainable Management of Polluted Urban Stormwater Runoff. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. xvii. Na Nagara, S., Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Field study on removal of dissolved metals from parking lot runoff by catch-basin filters augmented by media containing drinking water treatment residuals. New Jersey Department of Transportation Annual Research Showcase, West Windsor, NJ.

5. Abhishek Roychowdhury. Fall 2015. PhD Dissertation in Environmental Management

Publications: i. RoyChowdhury, A., Sarkar, D., and Datta, R. (2015) Remediation of acid mine drainage

impacted water. Curr. Pollut. Rep. 1(3): 131–141. ii. Roychowdhury, A, Sarkar, D, Deng, Y, and Datta, R. (2016). Assessment of soil water

contamination at Tab Simco coal mine: A case study. Mine Wat. Environ.36: 248-254. iii. RoyChowdhury, A., Datta, R., and Sarkar, D. (2017) Heavy metal pollution and remediation. In

Green Chemistry: An Inclusive Approach. Torok, B. and Dransfeild, T. (Eds) Elsevier. ISBN: 9780128092705.

iv. RoyChowdhury, A., Sarkar, D., and Datta, R. (2018) Preliminary studies on potential remediation of acid mine drainage-impacted soils byamendment with drinking-water treatment residuals. Remediation J. 28: 75-82.

v. RoyChowdhury, A., Sarkar, D., and Datta, R. (2018) Removal of acidity and metals from acid mine drainage-impacted water using industrial byproducts. Environ. Mgmt. (Accepted).

vi. Attinti, R., Sarkar, D., Roychowdhury, A., Datta, R. (2012) Increase in plant-available lead in paint-contaminated residential soils using a biodegradable chelating agent. HDC-SETAC Conference Proceedings. vii. Roychowdhury, A., Sarkar, D., Attinti, R., and Datta, R. (2014) Evaluation of Mehlich-3 test for prediction of total and bioaccessible lead concentrations in paint-contaminated residential soils. Geological Society of America Abstracts with Program. viii. Roychowdhury, R., Sarkar, D., and Datta, R. (2014) Using an industrial byproduct to treat acid mine drainage impacted water: Preliminary results. Geological Society of America Abstracts with Program.

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ix. RoyChowdhury, A., Sarkar, D., Deng, Y., and Datta, R. (2015) Soil and water characterization of an abandoned coal mining site impacted by long term acid mine drainage. American Society of Mining and Reclamation Proceedings. x. RoyChowdhury, A., Sarkar, D., Datta, R., and Deng, Y. (2015) Green remediation of acid mine drainage impacted water using an industrial byproduct: Filter column study. American Society of Mining and Reclamation Proceedings. xi. Roychowdhury, A., Sarkar, D., and Datta, R. (2015) Field scale filter development for “green” remediation of AMD-impacted water. Geological Society of America Abstracts with Program. xii. Roychowdhury, A., Sarkar, D., and Datta, R. (2015) Green remediation of AMD-impacted soils using an industrial byproduct and vetiver grass: Incubation and greenhouse studies. Geological Society of America Abstracts with Program. xiii. Roychowdhury, A., Sarkar, D., Deng, Y., and Datta, R. (2016) Green remediation of acid mine drainage impacted water: Field scale filter development using an industrial byproduct. American Society of Mining and Reclamation Proceedings. xiv. Roychowdhury, A., Sarkar, D., and Datta, R. (2017) Green remediation technology for prevention of erosion and metal leaching from acid mine drainage impacted soils. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. xv. Roychowdhury, A., Sarkar, D., and Datta, R. (2018) A Novel and Environmentally Friendly Technique for Remediation of Acid Mine Drainage-Impacted Water. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

Awards and Honors: a. American Society of Mining and Reclamation Graduate Student Research Award, 2015, $2000: Green remediation of acid mine drainage-impacted soil and water. b. Geological Society of America Environmental and Engineering Geology Division Student Presentation Award (2nd Prize), 2015: Field scale filter development for “green” remediation of AMD-impacted water.

III. STEVENS INSTITUTE OF TECHNOLOGY 1) Saumik Panja. PhD Dissertation in Environmental Engineering (2012 - Present)

Publications: i. Sengupta, A., Das, P., Panja, S., Sarkar, D., Parikh, C., Ramanathan, D., Bagley, S., and Datta, R. (2016) Tetracycline uptake and metabolism by vetiver grass (Chrysopogon zizanoides L. Nash). Environ. Sci. Pollut. Res. 23(24): 880-889. ii. Panja, S., Sarkar, D., and Datta, R. (2018) Vetiver grass (Chrysopogon zizanioides) is capable of removing insensitive high explosives from munition industry wastewater. Chemosphere. 209: 920-927.

iii. Panja, S., Das, P., Sarkar, D., Deng, Y., and Datta, R. (2014) Potential of vetiver grass to remove oxytetracycline and ciprofloxacin from aquatic media: Preliminary results from a hydroponic study. Geological Society of America Abstracts with Program. iv. Jackson, S., Bradley, A., Panja, S., Das, P., Punamiya, P., and Sarkar, D. (2014) Effect of hydroraking on trophic levels of Lake Wapalanne, New Jersey: Short-term and long-term studies. Proceedings of the Geological Association of New Jersey.

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v. Panja, S., Punamiya, P., Das, P, Mendoza, K., Tripathi, U., and Sarkar, D. (2015) Short-term and long-term effects of hydro-raking on the trophic level of Lake Wapalanne, and potential of vetiver grass for phosphorus removal. Geological Society of America Abstracts with Program. vi. Panja, S., Das, P., Datta, R., and Sarkar, D. (2015) Preliminary studies on removal of tetracycline and ciprofloxacin from secondary wastewater effluent using vetiver grass. Geological Society of America Abstracts with Program. vii. Panja, S., Sarkar, D., Datta, R. (2016) Potential of vetiver grass to remove ciprofloxacin from aquatic media. New Jersey Water Environment Association 101st Annual Conference Proceedings. viii. Panja, S., Sarkar, D., and Christodoulatos, C. (2016) Preliminary Studies on Removal of Energetic Compounds from Wastewater by Vetiver Grass. Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ. ix. Panja, S., Sarkar, D., Datta, R. (2016) Potential of vetiver grass to remove ciprofloxacin from aquatic media. New Jersey Water Environment Association 101st Annual Conference Proceedings. x. Panja, S. and Sarkar, D. (2017) A multitasking green technology for wastewater treatment. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ. xi. Panja, S., Sarkar, D., and Datta, R. (2017) Removal of Ciprofloxacin and Tetracycline by Vetiver Grass from Nutrient Amended Secondary Wastewater Matrix. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. xii. Sengupta, A, Panja, S., Bagley, S., Sarkar, D., and Datta, R. (2017) Bacterial degradation of tetracycline: Metabolomic profiling and biochemical pathway analysis. Proceedings of the 33rd Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts. xiii. Panja, S., and Sarkar, D. (2018) Developing a multitasking green phytotechnology to remove pharmaceuticals and nutrients from secondary waster effluents. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ.

Awards and Honors: a. New Jersey Water Resources Research Institute, 2011-2012, $10,000 (Total): Developing a green technology to remove phosphate and pharmaceuticals from wastewater effluents. b. New Jersey Water Resources Research Institute, 2017-2018, $10,000 (Total): Developing a multi-tasking green technology for removal of wastewater contaminants and bioethanol production. c. New Jersey Water Environment Association PhD Student Presentation Award (2nd Prize), 2016: Potential of vetiver grass to remove ciprofloxacin from aquatic media. d. Association of Environmental Health and Sciences Student Presentation Award (2nd Prize), 2017. Removal of ciprofloxacin and tetracycline by vetiver grass from nutrient amended secondary wastewater matrix. e. Stevens Innovation Expo Graduate Student Innovative Research Award (2nd Prize), 2018. Developing a multitasking green phytotechnology to remove pharmaceuticals and nutrients from secondary waster effluents.

2) Sameer Neve. PhD in Environmental Engineering (2017 - present) 3) Roxana Rahmati. PhD in Environmental Engineering (2019 - present) 4) Mohammad Halim. PhD in Environmental Engineering (2019 - present) 5) Sunhawach Na Nagara. MS in Sustainability Management (2016-17); PhD in Environmental Engineering (2018 – present).

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Publications: i. NaNagara, S., Sarkar, D., and Sidhu, V. (2017) Green filter media for use in catch basin inserts to remove nutrient and metals from stormwater runoff: Preliminary study. Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ. ii. NaNagara, S., Sarkar, D., and Sidhu, V. (2017) Evaluating metals and nutrient removal performance of green filter media using laboratory column experiment. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ. iii. NaNagara, S. Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Development of a green filter media for use in catch basin inserts in storm drains: Hydrocarbons removal. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ. iv. Na Nagara, S., Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Field study on removal of dissolved metals and nutrients from parking-lot runoff by catch-basin filters augmented with water-treatment residuals-amended media. New Jersey Water Environment Association 103rd Annual Conference Proceedings. v. Na Nagara. S. and Sarkar, D. (2018) Field Performance of a Low-cost, “Green” Filter Media: Metals, Sediments, and Hydrocarbons Removal. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts vi. Na Nagara, S., Sarkar, D., Sidhu, V., and Barrett, K.R. (2018) Field study on removal of dissolved metals from parking lot runoff by catch-basin filters augmented by media containing drinking water treatment residuals. New Jersey Department of Transportation Annual Research Showcase, West Windsor, NJ. Awards and Honors: a. Association of Environmental Health and Sciences Student Presentation Award (1st Prize), 2017. Field Performance of a Low-cost, “Green” Filter Media: Metals, Sediments, and Hydrocarbons Removal.

6) Dong Young Park. MS in Sustainability Management (2016-18)

Publications: i. Park, D.Y., Sarkar, D., and Sidhu, V. (2017) Development of a new, effective, and low-cost media for sustainable management of polluted road water in highly urbanized areas. Stevens Innovation Expo, Stevens Institute of Technology, Hoboken, NJ. ii. Sarkar, D., Park, D.Y., Sidhu, V., Datta, R., and Barrett, K.R. (2018) “Green” Mulch for Sustainable Management of Polluted Urban Stormwater Runoff. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

7) Pallabi Mukherjee. MS in Sustainability Management (2017-18).

8) Chuxiao Chen. ME in Environmental Engineering (2017-19).

Publications: i. Chen, C., Sarkar, D., Sidhu, V., Karak, T., and Datta, R. (2018) A Green BMP for Mitigation of Metals in Stormwater: Greenhouse Panel Study. Proceedings of the 34th Annual International Conference on Soils, Sediments, Water, and Energy, Amherst, Massachusetts.

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