Simulated PNW biomass consumed (g C/m2) under MIROC 3.2 medres A2 (2070-2099 average)

Apr 6, 2010 (Last modified Jul 19, 2010)
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Dataset was used in a scientifically peer-reviewed publication
Description:
For his MS thesis, Brendan Rogers used the vegetation model MC1 to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget and wild fire impacts across the western 2/3 of the states of Oregon and Washington using climate input data from the PRISM group (Chris Daly, OSU) at a 30arc second (800m) spatial grain. The model was run from 1895 to 2100 assuming that nitrogen demand from the plants was always met so that the nitrogen concentrations in various plant parts never dropped below their minimum reported values. A CO2 enhancement effect increased productivity and water use efficiency as the atmospheric CO2 concentration increased. Future climate change scenarios were generated through statistical downscaling from general circulation model output using anomalies and a climatology from the PRISM group at 30arc second spatial grain. Data came from three General Circulation Models (CSIRO Mk3, MIROC 3.2 medres, and Hadley CM 3), each run through three CO2 emission scenarios (SRES B1, A1B, and A2).
Data Provided By:
Brendan Rogers (2009)
Content date:
not specified
Citation:
Title: Simulated PNW biomass consumed (g C/m2) under MIROC 3.2 medres A2 (2070-2099 average)
Credits: Brendan Rogers (2009)
Publication Date: 2009

Peer review citations:

Title: Dynamic simulation of tree-grass interactions for global change studies
Credits: Daly, C., D. Bachelet, J.M. Lenihan, and R.P. Neilson
Publication Date: 2000
Other Citation Info: Daly, C., D. Bachelet, J.M. Lenihan, and R.P. Neilson. 2000. Dynamic simulation of tree-grass interactions for global change studies. Ecological Applications 10(2): 449-469.

Title: Climate change effects on vegetation distribution and carbon budget in the U.S.
Credits: Bachelet D., R.P. Neilson, J. M. Lenihan, and R.J. Drapek
Publication Date: 2001
Other Citation Info: Bachelet D., R.P. Neilson, J. M. Lenihan, and R.J. Drapek. 2001. Climate change effects on vegetation distribution and carbon budget in the U.S. Ecosystems 4:164-185.

Title: MC, a Dynamic Vegetation Model for estimating the distribution of vegetation and associated carbon and nutrient fluxes, Technical Documentation Version 1.0
Credits: Bachelet D., J.M. Lenihan, C. Daly, R.P. Neilson, D.S. Ojima, and W.J. Parton
Publication Date: 2001
Other Citation Info: Bachelet D., J.M. Lenihan, C. Daly, R.P. Neilson, D.S. Ojima, and W.J. Parton. 2001. MC, a Dynamic Vegetation Model for estimating the distribution of vegetation and associated carbon and nutrient fluxes, Technical Documentation Version 1.0. USDA Forest Service Pacific Northwest Station, General Technical Report PNW-GTR-508. 95pp.
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UC Irvine
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This information is in the public domain.
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Tags:
scenarios, pacific northwest, simulation, climate change, biomass consumed, fire, pnw, climate, projections, model, oregon, washington
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Conservation Biology Institute

The Conservation Biology Institute (CBI) provides scientific expertise to support the conservation and recovery of biological diversity in its natural state through applied research, education, planning, and community service.