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International Journal of Remote Sensing Volume 29, 2008 - Issue 13
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Original Articles

Estimating post‐fire organic soil depth in the Alaskan boreal forest using the Normalized Burn Ratio

D. Verbyla Bonanza Creek Long Term Ecological Research Program, University of Alaska, Fairbanks, AK 99775‐7200, USACorrespondence[email protected]
&
R. Lord Bonanza Creek Long Term Ecological Research Program, University of Alaska, Fairbanks, AK 99775‐7200, USA
Pages 3845-3853 | Received 10 Sep 2006, Accepted 11 Nov 2007, Published online: 14 Jun 2008

Citations (20)

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Read on this site (2)

Michael Gilichinsky, Håkan Olsson & Svein Solberg. (2013) Reflectance changes due to pine sawfly attack detected using multitemporal SPOT satellite data. Remote Sensing Letters 4:1, pages 10-18.
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NatalieT. Boelman, AdrianV. Rocha & GaiusR. Shaver. (2011) Understanding burn severity sensing in Arctic tundra: exploring vegetation indices, suboptimal assessment timing and the impact of increasing pixel size. International Journal of Remote Sensing 32:22, pages 7033-7056.
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Articles from other publishers (18)

Georgios Zagalikis. 2023. Geographic Information Systems - Data Science Approach. Geographic Information Systems - Data Science Approach.
David M. Szpakowski, Jennifer L. R. Jensen, T. Edwin Chow & David R. Butler. (2023) Assessing the Use of Burn Ratios and Red-Edge Spectral Indices for Detecting Fire Effects in the Greater Yellowstone Ecosystem. Forests 14:7, pages 1508.
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Jiaying He, Dong Chen, Liza Jenkins & Tatiana V Loboda. (2021) Impacts of wildfire and landscape factors on organic soil properties in Arctic tussock tundra. Environmental Research Letters 16:8, pages 085004.
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Clement J. F. Delcourt, Alisha Combee, Brian Izbicki, Michelle C. Mack, Trofim Maximov, Roman Petrov, Brendan M. Rogers, Rebecca C. Scholten, Tatiana A. Shestakova, Dave van Wees & Sander Veraverbeke. (2021) Evaluating the Differenced Normalized Burn Ratio for Assessing Fire Severity Using Sentinel-2 Imagery in Northeast Siberian Larch Forests. Remote Sensing 13:12, pages 2311.
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Darcy H. Hammond, Eva K. Strand, Andrew T. Hudak & Beth A. Newingham. (2019) Boreal forest vegetation and fuel conditions 12 years after the 2004 Taylor Complex fires in Alaska, USA. Fire Ecology 15:1.
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David Szpakowski & Jennifer Jensen. (2019) A Review of the Applications of Remote Sensing in Fire Ecology. Remote Sensing 11:22, pages 2638.
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Carine Klauberg, Andrew T. Hudak, Carlos Alberto Silva, Sarah A. Lewis, Peter R. Robichaud & Terrie B. Jain. (2019) Characterizing fire effects on conifers at tree level from airborne laser scanning and high-resolution, multispectral satellite data. Ecological Modelling 412, pages 108820.
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Sandra R Holden, Brendan M Rogers, Kathleen K Treseder & James T Randerson. (2016) Fire severity influences the response of soil microbes to a boreal forest fire. Environmental Research Letters 11:3, pages 035004.
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S. Veraverbeke, B. M. Rogers & J. T. Randerson. (2015) Daily burned area and carbon emissions from boreal fires in Alaska. Biogeosciences 12:11, pages 3579-3601.
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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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B. M. Rogers, S. Veraverbeke, G. Azzari, C. I. Czimczik, S. R. Holden, G. O. Mouteva, F. Sedano, K. K. Treseder & J. T. Randerson. (2014) Quantifying fire‐wide carbon emissions in interior Alaska using field measurements and Landsat imagery. Journal of Geophysical Research: Biogeosciences 119:8, pages 1608-1629.
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F. Sedano & J. T. Randerson. (2014) Multi-scale influence of vapor pressure deficit on fire ignition and spread in boreal forest ecosystems. Biogeosciences 11:14, pages 3739-3755.
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Thuan Chu & Xulin Guo. (2013) Remote Sensing Techniques in Monitoring Post-Fire Effects and Patterns of Forest Recovery in Boreal Forest Regions: A Review. Remote Sensing 6:1, pages 470-520.
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Carmen Quintano, Alfonso Fernández-Manso & Dar A. Roberts. (2013) Multiple Endmember Spectral Mixture Analysis (MESMA) to map burn severity levels from Landsat images in Mediterranean countries. Remote Sensing of Environment 136, pages 76-88.
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Crystal A. Kolden & John T. Abatzoglou. (2012) Wildfire Consumption and Interannual Impacts by Land Cover in Alaskan Boreal Forest. Fire Ecology 8:1, pages 98-114.
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Eric S. Kasischke & Elizabeth E. Hoy. (2011) Controls on carbon consumption during Alaskan wildland fires. Global Change Biology 18:2, pages 685-699.
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Eric S. KasischkeDavid L. VerbylaT. Scott RuppA. David McGuireKaren A. MurphyRandi JandtJennifer L. BarnesElizabeth E. HoyPaul A. DuffyMonika CalefMerritt R. Turetsky. (2010) Alaska’s changing fire regime — implications for the vulnerability of its boreal forestsThis article is one of a selection of papers from The Dynamics of Change in Alaska’s Boreal Forests: Resilience and Vulnerability in Response to Climate Warming.. Canadian Journal of Forest Research 40:7, pages 1313-1324.
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K. Barrett, E.S. Kasischke, A.D. McGuire, M.R. Turetsky & E.S. Kane. (2010) Modeling fire severity in black spruce stands in the Alaskan boreal forest using spectral and non-spectral geospatial data. Remote Sensing of Environment 114:7, pages 1494-1503.
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