Warren B. Cohen
United States Forest Service
203 Papers
1.3K Citations
Warren B. Cohen is an academic researcher from United States Forest Service. The author has contributed to research in topics: Land cover & Forest inventory. The author has an hindex of 84, co-authored 201 publications. Previous affiliations of Warren B. Cohen include United States Department of Agriculture & Oregon State University.
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Papers
Patterns of forest regrowth following clearcutting in western Oregon as determined from a Landsat time-series
TL;DR: In this article, the authors used a date-invariant regression model to predict the post-harvest forest regrowth rate in the Pacific Northwest Forest Inventory and Analysis program.
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Detection of Deforestation and Land Conversion in Rondonia, Brazil Using Change Detection Techniques
TL;DR: In this paper, the authors compared change detection techniques for identifying deforestation and cattle pasture formation during a period of early colonization and agricultural expansion in the vicinity of Jamari, Rond6nia.
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Statistical properties of hybrid estimators proposed for GEDI – NASA’s Global Ecosystem Dynamics Investigation
Paul L. Patterson,Sean P. Healey,Göran Ståhl,Svetlana Saarela,Sören Holm,Hans-Erik Andersen,Ralph Dubayah,Ralph Dubayah,Laura Duncanson,Steven Hancock,John Armston,James R. Kellner,Warren B. Cohen,Zhiqiang Yang +13 more
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Landsat-based monitoring of annual wetland change in the Willamette Valley of Oregon, USA from 1972 to 2012
TL;DR: In this paper, the authors used Landsat MSS and TM/ETM+ images from 1972 to 2012 to manually interpret loss, gain, and type conversion of wetland area in the floodplain of the Willamette River.
The normal fire environment—Modeling environmental suitability for large forest wildfires using past, present, and future climate normals
TL;DR: In this article, the authors modeled the normal fire environment for occurrence of large forest wildfires (>40ha) for the Pacific Northwest Region of the United States and used downscaled climate projections for two greenhouse gas concentration scenarios and over 30 climate models to project changes in environmental suitability for large forest fires over the 21st century.
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