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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2010's (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCM's from the B1 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).
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This dataset represents the composite score of watersheds for redwood conservation across multiple criteria compiled by the Conservation Biology Institute for the report "A GIS-based model for assessing conservation focal areas for the redwood ecosystem." Underlying criteria include late successional patch size, concentration of late successional patches, road density, location of imperiled species, forest neighborhood age, forest fragmentation, potential connectivity to existing protected areas, road/stream intersections, and forested riparian zones. For more details, see the full report at http://consbio.org/products/reports/a-gis-based-model-for-assessing-conservation-focal-areas-for-the-redwood-ecoregion. This...
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This dataset represents the estimated number of road and stream crossings per watershed compiled by the Conservation Biology Institute for the report "A GIS-based model for assessing conservation focal areas for the redwood ecosystem." For more details, see the full report at http://consbio.org/products/reports/a-gis-based-model-for-assessing-conservation-focal-areas-for-the-redwood-ecoregion. We are certain that not all existing roads and streams were accounted for on the U.S. Geological Survey 7.5 minute quadrangle products we had access to (both electronic and paper form). Dates on these quadrangles covered approximately a 30year time span (late 1960s to late 1990s) and some were still in their provisional state....
The goal of this project is to create critically needed coastal fog datasets. Anticipated products from the collaboration between on-the-ground natural resource managers and a multidisciplinary coalition of physical scientists are: 1) a compilation of existing fog related data from multiple sources: satellite (AVHRR, GOES, Modis, Landsat), NOAA buoy , and airport and meteorological stations, 2) USGS Open File report documenting the results of a multiday working session with climatologists, remote sensing specialists, fog modelers, statisticians, and natural resource managers, convened to review the data, examine and assess the correlations between data streams and models, specify initial parameters to be extracted...
Categories: Data, Project; Tags: evapotranspiration, 2011, California Landscape Conservation Cooperative, California coast, Coastal, All tags...
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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2050's (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCM's from the A2 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).
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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2090s (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCMs from the A2 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).
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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2010s (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCMs from the A2 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).
On September 6-7, 2013, 30 redwoods researchers, managers, and experts attended a workshop to share information and develop preliminary strategies to manage redwoods for persistence under climate change. Our discussion revolved around existing goals and objectives, current and future trends (including climate change projections), and how to manage for resilience, resistance, and transition. After the workshop, participants were invited on a field trip to learn about restoration efforts in Redwood National Park aimed at restoring previously harvested areas to conditions resembling mature redwood forest composition.
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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2090's (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCM's from the B1 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).
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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2050's (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCM's from the B1 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).
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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2010's (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCM's from the A2 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).
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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2050s (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCMs from the A2 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).
Coast redwoods (Sequoia sempervirens) and their many associated species create an iconic ecosystem, yet the impacts of stressors, including a variety of land use practices and climate change, threaten their continued persistence on the landscape. In September 2013, we held a workshop with researchers, managers, and other redwoods experts to explore the likely impacts of climate change and develop some initial strategies for adaptation. Workshop participants from diverse backgrounds identified four primary strategies to increasing the resilience of redwood ecosystems in the face of climate change. These included (1) restoring old-growth characteristics that protect stands from many stressors; (2) improving connectivity...
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This dataset represents the predicted distribution for Redwood (Sequoia sempervirens) for the years 2090's (ten year period average), based on the agreement of 2 or more out of 5 niche modeling techniques (Climate Space Model, Envelope Score, Environmental Distance, GARP, and SVM) and monthly precipitation and average temperature from 12 GCM's from the A2 emission scenario. Localities used to produce the model were resampled from the known current distribution, data provided by Save the Redwood League (http://www.savetheredwoods.org/).


    map background search result map search result map Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2010s Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2090s Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2050s California (USA) Redwoods Region Composite Conservation Model Score by Watershed California Redwoods Region - Number of Road and Stream Crossings (by Watershed) Predicted Distribution of Redwood (Sequoia sempervirens) - B1 emission scenario - 2090's Predicted Distribution of Redwood (Sequoia sempervirens) - B1 emission scenario - 2050's Predicted Distribution of Redwood (Sequoia sempervirens) - B1 emission scenario - 2010's Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2090's Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2050's Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2010's California (USA) Redwoods Region Composite Conservation Model Score by Watershed California Redwoods Region - Number of Road and Stream Crossings (by Watershed) Predicted Distribution of Redwood (Sequoia sempervirens) - B1 emission scenario - 2050's Predicted Distribution of Redwood (Sequoia sempervirens) - B1 emission scenario - 2010's Predicted Distribution of Redwood (Sequoia sempervirens) - B1 emission scenario - 2090's Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2090s Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2090's Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2050s Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2050's Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2010s Predicted Distribution of Redwood (Sequoia sempervirens) - A2 emission scenario - 2010's