David Verbyla
David Verbyla
Dept of Natural Resources Management UAF
Bestätigte E-Mail-Adresse bei alaska.edu - Startseite
TitelZitiert vonJahr
Methane bubbling from Siberian thaw lakes as a positive feedback to climate warming
KM Walter, SA Zimov, JP Chanton, D Verbyla, FS Chapin
Nature 443 (7107), 71, 2006
Remote sensing of vegetation and land-cover change in Arctic Tundra Ecosystems
DA Stow, A Hope, D McGuire, D Verbyla, J Gamon, F Huemmrich, ...
Remote sensing of environment 89 (3), 281-308, 2004
Shrinking ponds in subarctic Alaska based on 1950–2002 remotely sensed images
B Riordan, D Verbyla, AD McGuire
Journal of Geophysical Research: Biogeosciences 111 (G4), 2006
Evaluation of remotely sensed indices for assessing burn severity in interior Alaska using Landsat TM and ETM+
J Epting, D Verbyla, B Sorbel
Remote Sensing of Environment 96 (3-4), 328-339, 2005
Positive biodiversity-productivity relationship predominant in global forests
J Liang, TW Crowther, N Picard, S Wiser, M Zhou, G Alberti, ED Schulze, ...
Science 354 (6309), aaf8957, 2016
Carbon loss from an unprecedented Arctic tundra wildfire
MC Mack, MS Bret-Harte, TN Hollingsworth, RR Jandt, EAG Schuur, ...
Nature 475 (7357), 489-492, 2011
Alaska’s changing fire regime—implications for the vulnerability of its boreal forests
ES Kasischke, DL Verbyla, TS Rupp, AD McGuire, KA Murphy, R Jandt, ...
Canadian Journal of Forest Research 40 (7), 1313-1324, 2010
An ecoregion-based approach to protecting half the terrestrial realm
E Dinerstein, D Olson, A Joshi, C Vynne, ND Burgess, E Wikramanayake, ...
BioScience 67 (6), 534-545, 2017
Using Landsat data to assess fire and burn severity in the North American boreal forest region: an overview and summary of results
NHF French, ES Kasischke, RJ Hall, KA Murphy, DL Verbyla, EE Hoy, ...
International Journal of Wildland Fire 17 (4), 443-462, 2008
The greening and browning of Alaska based on 1982–2003 satellite data
D Verbyla
Global Ecology and Biogeography 17 (4), 547-555, 2008
Resampling methods for evaluating classification accuracy of wildlife habitat models
DL Verbyla, JA Litvaitis
Environmental Management 13 (6), 783-787, 1989
Relationship between satellite-derived land surface temperatures, arctic vegetation types, and NDVI
MK Raynolds, JC Comiso, DA Walker, D Verbyla
Remote Sensing of Environment 112 (4), 1884-1894, 2008
Satellite remote sensing of natural resources
DL Verbyla
CRC Press, 1995
Assessment of snow-cover mapping accuracy in a variety of vegetation-cover densities in central Alaska
DK Hall, JL Foster, DL Verbyla, AG Klein, CS Benson
Remote sensing of Environment 66 (2), 129-137, 1998
Optimistic bias in classification accuracy assessment
TO Hammond, DL Verbyla
International Journal of Remote Sensing 17 (6), 1261-1266, 1996
Alaska's changing boreal forest
FS Chapin, MW Oswood, K Van Cleve, LA Viereck, DL Verbyla
Oxford University Press, 2006
Land cover change on the Seward Peninsula: the use of remote sensing to evaluate the potential influences of climate warming on historical vegetation dynamics
CS Silapaswan, DL Verbyla, AD McGuire
Canadian Journal of Remote Sensing 27 (5), 542-554, 2001
Landscape-level interactions of prefire vegetation, burn severity, and postfire vegetation over a 16-year period in interior Alaska
J Epting, D Verbyla
Canadian Journal of Forest Research 35 (6), 1367-1377, 2005
Spatial patterns of lightning strikes in interior Alaska and their relations to elevation and vegetation
D Dissing, DL Verbyla
Canadian Journal of Forest Research 33 (5), 770-782, 2003
Quantifying fire severity, carbon, and nitrogen emissions in Alaska's boreal forest
LA Boby, EAG Schuur, MC Mack, D Verbyla, JF Johnstone
Ecological Applications 20 (6), 1633-1647, 2010
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