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This project integrates fire risk models, species distribution models (SDMs) and population models with scenarios of future climate and land cover to project how the effects of climate-induced changes to species distributions and land use change will impact threatened species in fire-prone ecosystems. This project also identifies and prioritizes potential management responses to climate change (e.g. assisted colonization, fire management, land protection, dispersal corridors). Anticipated products include: 1) maps (digital and hard copy) of habitat suitability under current and future climate change, current and future projected urban growth and combinations of climate change and future projected urban growth, under...
Categories: Data, Project; Tags: 2011, Academics & scientific researchers, CA, CA-Southern, California Landscape Conservation Cooperative, All tags...
This data set is distributed through the Conservation Biology Institute's Data Basin site: http://app.databasin.org/app/pages/datasetPage.jsp?id=5a1a66e950534fd095dee1a68a8c6f61 From the metadata: "This dataset shows the predicted change in average precipitation between historical (1961-1990) and future (2070-2099) time periods, simulated by the dynamic global vegetation model MC1 under the Hadley climate change projection and the anthropogenic emissions scenario A2. Change in precipitation (per ~ 8 km pixel) is depicted as a ratio of the average precipitation for 2070-2099 / the average for 1961-1990. Data values above 1 represent a projected increase in precipitation and values less than 1 represent a projected...
This data set is distributed through the Conservation Biology Institute's Data Basin site: http://app.databasin.org/app/pages/datasetPage.jsp?id=e2d159c08cd7463b9fcf8e5d8ae66740 A description from the metadata: "This dataset shows the predicted rise in temperature between historical (1961-1990) and future (2070-2099) time periods, simulated by the dynamic global vegetation model MC1 underthe Hadley climate change projection and the anthropogenic emissions scenario A2. Temperature change (in degrees C) was calculated by taking the difference between the simulated future average monthly maximum temperature and the historical average monthly maximum temperature per ~ 8 km pixel. Background: The dynamic global...