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7/30/2019 Citation of. Biological Filtering and Ecological Machinery for Self-Purification and Bioremediation in Aquatic Ecosyste

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Citation of. Biological Filtering and Ecological Machinery for Self-Purification and Bioremediation in

Aquatic Ecosystems. Towards a Holistic View.

Citation of. Biological Filtering and Ecological Machinery for Self-Purification

and Bioremediation in Aquatic Ecosystems. Towards a Holistic View.Bigger file. http://5bio5.blogspot.com/2013/05/citation-of-biological-filtering-and_18.htmlDocuments that cite this article:

Biological Filtering and Ecological Machinery for Self-Purification and Bioremediation in Aquatic

Ecosystems: Towards a Holistic View

(1998) Rivista di Biologia - Biology Forum, 91 (2) , pp. 221-232.

Author Name they cited:

Claret, C. (1)

Corriero, G. (1)

Dimitriadis, A. (1)

Fauvet, G. (1)

Lazareva, E.V. (1)

Licciano, M. (1)

Longo, C. (1)

Marmonier, P. (1)

Neofitou, C. (1)

Neofitou, N.(1)

Paleokostas, A.(1)

Pantazis, P.(1)

Psilovikos, A.(1)

Shestakova, T.V.(1)

Stabili, L.(1)

Vorozhun, I.M.(1)

Widdows, J.(1)

Subject Area

Agricultural and Biological Sciences (12)


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Environmental Science (8)

Biochemistry, Genetics and Molecular Biology (3)

Earth and Planetary Sciences (3)

Immunology and Microbiology (3)

Cited by

1

Bacterial accumulation by the Demospongiae Hymeniacidon perlevis: A tool for the bioremediation of

polluted seawater

Longo, C., Corriero, G., Licciano, M., Stabili, L.

2010

Marine Pollution Bulletin 60 (8) , pp. 1182-1187.

Longo, C.a, Corriero, G.a, Licciano, M.b, Stabili, L.bc

a Dipartimento di Biologia Animale ed Ambientale, Universit di Bari, Via Orabona, 4-70125 Bari, Italy

b Disteba, Universit del Salento, Via Prov. le Lecce-Monteroni, 73100 Lecce, Italy

c IAMC, Sezione di Taranto-CNR, Via Roma, 3-70400 Taranto, Italy

View references (64)

Abstract

Sponges can filter large amounts of water, which exerts an important grazing impact on free bacteria, an

important component of the diet of sponges. We examined the accumulation of bacteria in the

Demospongiae (Hymeniacidon perlevis). Analyses were performed on homogenates from unstarved and

starved sponges in seawater from their sampling site (the Ionian Sea). Culturable heterotrophic bacteria

(22C), total culturable bacteria (37C) and vibrios densities were measured on marine agar 2216, plate

count agar and TCBS agar, respectively. Total and fecal coliforms, as well as fecal streptococci, were

determined by the most probable number method (MPN). H. perlevis was able to accumulate all of the

six microbiological groups. Bacterial groups differed in their resistance to digestion by H. perlevis. Our

data suggest that H. perlevis may accumulate, remediate and metabolize bacteria and that they may be

employed as a useful bioindicator and bioremediator. 2010 Elsevier Ltd.

Author keywords

Filter-feeders; Hymeniacidon perlevis; Microbial pollution; Total coliforms; Water quality; Water self-

purification

Indexed keywords


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Bioindicator; Culturable bacteria; Culturable heterotrophic bacteria; Fecal coliforms; Fecal streptococci;

Filter-feeders; Ionian sea; Marine agars; Microbial pollution; Most probable number methods; Sampling

site; Self-purification; Total coliforms

Engineering controlled terms: Algae; Bacteriology; Bioremediation; Feeding; Polysaccharides;

Purification; Seawater; Water quality

Engineering main heading: Water pollution

EMTREE drug terms: sea water

GEOBASE Subject Index: bioaccumulation; bioindicator; bioremediation; fecal coliform; filter feeder;

microbiology; seawater; self purification; sponge; water pollution; water quality

EMTREE medical terms: article; bacterial count; bacterial metabolism; bacterium culture;

bioaccumulation; bioremediation; colony forming unit; controlled study; fecal coliform; heterotroph;

nonhuman; plate count; sea pollution; sponge (Porifera); Streptococcus; temperature; tissue

homogenate; Vibrio

MeSH: Animals; Bacteria; Biodegradation, Environmental; Porifera; Seawater; Water Pollutants

Medline is the source for the MeSH terms of this document.

Species Index: Bacteria (microorganisms); Demospongiae; Hymeniacidon perlevis

Chemicals and CAS Registry Numbers: Water Pollutants

ISSN: 0025326X CODEN: MPNBASource Type: Journal Original language: English

DOI: 10.1016/j.marpolbul.2010.03.035 PubMed ID: 20434181Document Type: Article

View in table layout

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View at Publisher

Stabili, L.; Disteba, Universit del Salento, Via Prov. le Lecce-Monteroni, 73100 Lecce, Italy;

email:[email protected]

Copyright 2010 Elsevier B.V., All rights reserved. MEDLINE is the source for the MeSH terms of this

document.

**

6

Self-purification of a long-stretched gully affects the restoration of an alpine-type lake in northern

Greece

Neofitou, C., Dimitriadis, A., Pantazis, P., Psilovikos, A., Neofitou, N., Paleokostas, A.

2005

Fresenius Environmental Bulletin 14 (12 A) , pp. 1141-1149.

Neofitou, C.a , Dimitriadis, A.a, Pantazis, P.a, Psilovikos, A.a, Neofitou, N.a, Paleokostas, A.b

a University of Thessaly, Department of Agriculture Animal Production and Aquatic Environment,

Laboratory of Ichthyology-Hydrobiology, Fytokou str., N.Ionia, 384 46 Volos, Greece

b Ministry of Agriculture, Department of Fisheries, Inshore Waters and Aquaculture, 381 Acharnon str.,

111 43 Athens, Greece


Abstract

Vegoritis Lake in Macedonia, Greece, is part of an extensive water complex of smaller lakes and streams

with Pentavrisos gully discharging at the southern point of the lake and affecting considerably the lake's

nutrient cycles and biodiversity. During the last fifteen years, the lake has shown significant signs of

degradation, such as disturbance of its aquifer bed, algal blooms, fish mass mortalities, and the

transformation of its trophic status from an oligotrophic to a meso-trophic and, even, an eutrophic one.

Such a transformation has an additional impact on terrestrial, avian and aquatic fauna, with alteration in

species' composition, and a considerable decline in local fisheries and tourism. This study focused oninvestigating the role that gully Pentavrisos has on the physicochemical water quality status of Lake

Vegoritis. Most parameters inside the lake (nitrates 0.55-1.95 mg.l-1, nitrites 0.008-0.031 mg.l-1,

ammonia 0.011-0.158 mg.l-1) indicate the existence of a natural purification process occurring between

the sites of gully Pentavrisos, receiving the treated/untreated effluents, and the final recipient of those

effluents, Lake Vegoritis. Suggested mitigation measures for the restoration of the lake and the

management of the respective aquifer bed, mainly consist of rationalization of water consumption for

irrigation purposes, recycling of industrial effluent water, establishment of depuration plants for the

biological treatment of industrial and urban waste, appropriate planning and demarcation of land-use in

the littoral areas of the lake, and qualitative upgrade of Pentavrisos gully. by PSP Volume 14 - No 12a.

2005.

Author keywords


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Biodiversity; Greece; Self-purification; Water purification; Water quality; Water reservoirs

Indexed keywords

GEOBASE Subject Index: biodiversity; effluent; gully; habitat restoration; lake ecosystem; nutrient

cycling; physicochemical property; pollution effect; self purification; water quality; water treatment

Regional Index: Central Macedonia; Eurasia; Europe; Greece; Macedonia [Greece]; Pella; Southern

Europe; Vegoritis Lake

Species Index: algae; Aves

ISSN: 10184619 CODEN: FENBESource Type: Journal Original language: English

Document Type: Article


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Copyright 2008 Elsevier B.V.,

**

**

17

Influence of benthic and interstitial processes on nutrient changes along a regulated reach of a large

river (Rhne River, France)

Fauvet, G., Claret, C., Marmonier, P.

2001

Hydrobiologia 445 , pp. 121-131.

Fauvet, G.ab , Claret, C.c, Marmonier, P.b

a Universit de Savoie, GRETI, F-73376 Le Bourget du Lac Cedex, France

b UMR-CNRS 6553, ECOBIO, Universit Rennes 1, F-35380 Paimpont, France

c Department of Limnology, EAWAG/ETH, berlandstr. 133, CH-8600 Dbendorf, Switzerland


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Abstract

Benthic and hyporheic (i.e. the water-saturated interstitial zone beneath river bed-sediments) processes

together modify particulate and dissolved nutrient fluxes in streams, but the relative importance of

these processes remains unstudied in large rivers. Changes in material and nutrient fluxes (totalsuspended matter, biodegradable and refractory dissolved organic carbon, and nitrate) were monitored

along a reach with a regulated discharge (a by-passed section downstream of a dam). Mass balance

diagrams highlight a contrasting functioning between upstream and downstream parts of this sector of

the Rhne River (Pierre-Bnite sector, France). At the upstream location close to the water input,

characterized by partially clogged sediments and large lentic zones, decrease in total suspended matter

(TSM) and biodegradable dissolved organic carbon (BDOC) fluxes resulted from high rates of benthic

processes (i.e. sedimentation, respiration and mineralisation). At the downstream location,

characterized by strong vertical water exchanges in a large riffle, nutrient changes resulted from the

combination of processes that took place at the surface of the stream bed and during water percolation

through riffle sediments. Physical benthic processes (scouring of periphyton, erosion and resuspensionof sediment due to higher surface velocity) lead to an increase of TSM and DOC fluxes. Within the riffle,

decomposition and mineralisation of organic matter in the first meter of the infiltration zone, and

physical entrapment of RDOC, make the riffle as a sink for DOC and a source of nitrate. The significant

contribution of the riffle to the self-purification capacities of this large river reach shows the relevance

of including interstitial compartment in self-purification studies.

Author keywords

Bacteria; Dissolved organic carbon; Hyporheic zone; Nitrate; River; Sediment; Self-purification

Indexed keywords

Biotechnology descriptors: benthic environment; biodegradability; bioprocess; dissolved organic matter;

France; hydrodynamics; nutrient concentration; nutrient cycling; river; sediment; suspended particulate

matter

Engineering controlled terms: Biodegradation; Decomposition; Erosion; Infiltration; Organic chemicals;

Sediments

Engineering uncontrolled terms: Nutrient fluxes

Engineering main heading: Rivers

GEOBASE Subject Index: interstitial environment; nutrient; river; self purification

Regional Index: France

ISSN: 00188158 CODEN: HYDRBSource Type: Journal Original language: English

DOI: 10.1023/A:1017540306550Document Type: Article


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**

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