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International Journal of Remote Sensing Volume 32, 2011 - Issue 22
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Original Articles

Understanding burn severity sensing in Arctic tundra: exploring vegetation indices, suboptimal assessment timing and the impact of increasing pixel size

Natalie T. Boelman Lamont-Doherty Earth Observatory, Columbia University, Palisades, NY, 10964, USACorrespondence[email protected]
,
Adrian V. Rocha Marine Biological Laboratory, Ecosystems Center, Woods Hole, MA, 02543, USA
&
Gaius R. Shaver Marine Biological Laboratory, Ecosystems Center, Woods Hole, MA, 02543, USA
Pages 7033-7056 | Received 27 Oct 2010, Accepted 20 Jun 2011, Published online: 19 Sep 2011

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Longyan Cai & Min Wang. (2022) Is the RdNBR a better estimator of wildfire burn severity than the dNBR? A discussion and case study in southeast China. Geocarto International 37:3, pages 758-772.
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Timothy A. Warner, Nicholas S. Skowronski & Michael R. Gallagher. (2017) High spatial resolution burn severity mapping of the New Jersey Pine Barrens with WorldView-3 near-infrared and shortwave infrared imagery. International Journal of Remote Sensing 38:2, pages 598-616.
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E. Cuesta & C. Quintano. (2015) Linear fractional-based filter as a pre-classifier to map burned areas in Mediterranean countries. International Journal of Remote Sensing 36:13, pages 3293-3316.
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Zhiwei Wu, Hong S. He, Christopher W. Bobryk & Yu Liang. (2014) Scale effects of vegetation and topography on burn severity under prevailing fire weather conditions in boreal forest landscapes of Northeastern China. Scandinavian Journal of Forest Research 29:1, pages 60-70.
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Crystal A. Kolden & John Rogan. (2013) Mapping Wildfire Burn Severity in the Arctic Tundra from Downsampled MODIS Data. Arctic, Antarctic, and Alpine Research 45:1, pages 64-76.
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Articles from other publishers (17)

Émilie Desjardins, Sandra Lai, Laurent Houle, Alain Caron, Véronique Thériault, Andrew Tam, François Vézina & Dominique Berteaux. (2023) Algorithms and Predictors for Land Cover Classification of Polar Deserts: A Case Study Highlighting Challenges and Recommendations for Future Applications. Remote Sensing 15:12, pages 3090.
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Amy R Hudson, Debra P C Peters, John M Blair, Daniel L Childers, Peter T Doran, Kerrie Geil, Michael Gooseff, Katherine L Gross, Nick M Haddad, Melissa A Pastore, Jennifer A Rudgers, Osvaldo Sala, Eric W Seabloom & Gaius Shaver. (2022) Cross-Site Comparisons of Dryland Ecosystem Response to Climate Change in the US Long-Term Ecological Research Network. BioScience 72:9, pages 889-907.
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Amy R Hudson, Debra P C Peters, John M Blair, Daniel L Childers, Peter T Doran, Kerrie Geil, Michael Gooseff, Katherine L Gross, Nick M Haddad, Melissa A Pastore, Jennifer A Rudgers, Osvaldo Sala, Eric W Seabloom & Gaius Shaver. (2022) Cross-Site Comparisons of Dryland Ecosystem Response to Climate Change in the US Long-Term Ecological Research Network. BioScience.
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Peter R. Nelson, Andrew J. Maguire, Zoe Pierrat, Erica L. Orcutt, Dedi Yang, Shawn Serbin, Gerald V. Frost, Matthew J. Macander, Troy S. Magney, David R. Thompson, Jonathan A. Wang, Steven F. Oberbauer, Sergio Vargas Zesati, Scott J. Davidson, Howard E. Epstein, Steven Unger, Petya K. E. Campbell, Nimrod Carmon, Miguel Velez‐Reyes & K. Fred Huemmrich. (2022) Remote Sensing of Tundra Ecosystems Using High Spectral Resolution Reflectance: Opportunities and Challenges. Journal of Geophysical Research: Biogeosciences 127:2.
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K J Lees, J Buxton, C A Boulton, J F Abrams & T M Lenton. (2021) Using satellite data to assess management frequency and rate of regeneration on heather moorlands in England as a resilience indicator. Environmental Research Communications 3:8, pages 085003.
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Benjamin W. Abbott, Adrian V. Rocha, Arial Shogren, Jay P. Zarnetske, Frances Iannucci, William B. Bowden, Samuel P. Bratsman, Leika Patch, Rachel Watts, Randy Fulweber, Rebecca J. Frei, Amanda M. Huebner, Sarah M. Ludwig, Gregory T. Carling & Jonathan A. O’Donnell. (2021) Tundra wildfire triggers sustained lateral nutrient loss in Alaskan Arctic. Global Change Biology 27:7, pages 1408-1430.
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Alison Beamish, Martha K. Raynolds, Howard Epstein, Gerald V. Frost, Matthew J. Macander, Helena Bergstedt, Annett Bartsch, Stefan Kruse, Victoria Miles, Cemal Melih Tanis, Birgit Heim, Matthias Fuchs, Sabine Chabrillat, Iuliia Shevtsova, Mariana Verdonen & Johann Wagner. (2020) Recent trends and remaining challenges for optical remote sensing of Arctic tundra vegetation: A review and outlook. Remote Sensing of Environment 246, pages 111872.
Crossref
Joanna C. Carey, Benjamin W. Abbott & Adrian V. Rocha. (2019) Plant Uptake Offsets Silica Release From a Large Arctic Tundra Wildfire. Earth's Future 7:9, pages 1044-1057.
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Jonathan H. Pérez, Helen E. Chmura & Jesse S. Krause. (2018) Tundra avian community composition during recovery from the Anaktuvuk River Fire. International Journal of Wildland Fire 27:1, pages 69.
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Yueyang Jiang, Edward B. Rastetter, Adrian V. Rocha, Andrea R. Pearce, Bonnie L. Kwiatkowski & Gaius .R Shaver. (2015) Modeling carbon–nutrient interactions during the early recovery of tundra after fire. Ecological Applications 25:6, pages 1640-1652.
Crossref
C. Quintano, A. Fernández-Manso, L. Calvo, E. Marcos & L. Valbuena. (2015) Land surface temperature as potential indicator of burn severity in forest Mediterranean ecosystems. International Journal of Applied Earth Observation and Geoinformation 36, pages 1-12.
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Lin Liu, Elchin E. Jafarov, Kevin M. Schaefer, Benjamin M. Jones, Howard A. Zebker, Christopher A. Williams, John Rogan & Tingjun Zhang. (2014) InSAR detects increase in surface subsidence caused by an Arctic tundra fire. Geophysical Research Letters 41:11, pages 3906-3913.
Crossref
Lennert Schepers, Birgen Haest, Sander Veraverbeke, Toon Spanhove, Jeroen Vanden Borre & Rudi Goossens. (2014) Burned Area Detection and Burn Severity Assessment of a Heathland Fire in Belgium Using Airborne Imaging Spectroscopy (APEX). Remote Sensing 6:3, pages 1803-1826.
Crossref
Zhiwei Wu, Hong S. He, Yu Liang, Longyan Cai & Bernard J. Lewis. (2013) Determining Relative Contributions of Vegetation and Topography to Burn Severity from LANDSAT Imagery. Environmental Management 52:4, pages 821-836.
Crossref
M. Syndonia Bret-Harte, Michelle C. Mack, Gaius R. Shaver, Diane C. Huebner, Miriam Johnston, Camilo A. Mojica, Camila Pizano & Julia A. Reiskind. (2013) The response of Arctic vegetation and soils following an unusually severe tundra fire. Philosophical Transactions of the Royal Society B: Biological Sciences 368:1624, pages 20120490.
Crossref
T.V. Loboda, N.H.F. French, C. Hight-Harf, L. Jenkins & M.E. Miller. (2013) Mapping fire extent and burn severity in Alaskan tussock tundra: An analysis of the spectral response of tundra vegetation to wildland fire. Remote Sensing of Environment 134, pages 194-209.
Crossref
ADRIAN V. ROCHA & GAIUS R. SHAVER. (2011) Postfire energy exchange in arctic tundra: the importance and climatic implications of burn severity. Global Change Biology 17:9, pages 2831-2841.
Crossref

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