Why ABoVE?
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1 Why ABoVE? Eric Kasischke, Scott Goetz, John Kimball, Michelle Mack 6 October 2011 2011 NASA Carbon Cycle & Ecosystems Joint Science Workshop
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Why ABoVE?. Eric Kasischke, Scott Goetz, John Kimball, Michelle Mack. 6 October 2011 2011 NASA Carbon Cycle & Ecosystems Joint Science Workshop. - PowerPoint PPT Presentation
Transcript of Why ABoVE?
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Why ABoVE?
Eric Kasischke, Scott Goetz, John Kimball, Michelle Mack
6 October 2011
2011 NASA Carbon Cycle & Ecosystems Joint Science Workshop
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1. Recent changes in climate are causing significant and novel changes to arctic/boreal ecosystems over large areas
that have widespread impacts on society
Permafrost thaw is leading to shrinkage of lakes and mobilizing frozen carbon
(Photo: G. Grosse)
The Slave Lake, Alberta fire in May 2011 was the second largest natural disaster in Canadian history (>$750 million) (Photo: National Post - news.nationalpost.com)
Mountain pine beetle outbreaks have accelerated and are spreading (Source: Univ. of Alberta)
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2. Complex interactions are the norm, with many critical feedbacks to regional and global climate
•How rapidly will permafrost warm?
•What are the impacts of permafrost warming?
• Is there a methane tipping point?
• What controls burning of organic soils in tundra, forests & peatlands?
Photo: M. Kanevskiy
Large stocks of soil carbon Widespread permafrost
Grosse et al. 2011
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Ecosystem Dynamics
Atmosphere/Climate
Disturbance
Surface Hydrology
Permafrost
Land Surface/Subsurface
Soil Carbon
Land-Atmosphere Feedbacks
Human Dimensions / Impact Assessment
3. Addressing key uncertainties requires transdisciplinary research in a number of areas unique to HNL regions
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4. Models of key arctic/boreal processes do not adequately explain current impacts nor can they project future impacts
• Additional research is needed to– Address known areas of uncertainty (the known unknowns; e.g.
ground-layer processes)– Identify novel and new patterns of landscape change and
ecosystem reorganization (the unknown unknowns; e.g. tipping points)
• Crucial data sets are needed to drive and independently to assess models
• An integrated modeling approach is needed (e.g., the Community Land Model [left])
source: http://www.cesm.ucar.edu/models/clm/
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5. Remote sensing data are essential for addressing uncertainties and informing and assessing models
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5. Remote sensing data are essential for addressing uncertainties and informing and assessing models
1. Longer-term satellite image data (Landsat, AVHRR)
2. New satellite systems scheduled for launch over the next few years (SMAP, IceSat2, OCO-2)
3. NASA Earth Venture missions (CARVE, AirMOSS)
4. Use of airborne remote sensing data to provide unique information products and to prepare for future missions (e.g., DESDynI and HyspIRI)
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6. ABoVE provides a means to coordinate northern high latitude research conducted by a broad coalition of national
& international organizations
NSF PPDOE NGEEUSGS YRB
NCAR
FWS, NPS, DOI CCRC
DOD SERDPNOAA
International Participation IARC, NRCAN NGOs
Monitoring/Assessment
Basic Research
ABoVE
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ABoVE Study Domain and
Nested Design
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ABoVE Study Domain and
Nested Design
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Possible ABoVE Timeline
