Using Remote Sensing to Assess Russian Forest Fire Carbon Emissions
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Anthony C. Janetos | Eric S. Kasischke | Herman H. Shugart | D. V. Ershov | A. S. Isaev | Nancy H. F. French | S. A. Bartalev | H. Shugart | E. Kasischke | S. Bartalev | A. Janetos | N. French | A. Isaev | G. Korovin | G. N. Korovin | B. E. Orlick | T. L. Murphy | D. Ershov | H. Shugart | A. Janetos | E. S. Kasischke | Sergey Bartalev | Dmitry Ershov
[1] F. Baret,et al. Potentials and limits of vegetation indices for LAI and APAR assessment , 1991 .
[2] Черемисин,et al. RUSSIAN ACADEMY OF SCIENCE , 1993 .
[3] José M. C. Pereira,et al. A comparative evaluation of NOAA/AVHRR vegetation indexes for burned surface detection and mapping , 1999, IEEE Trans. Geosci. Remote. Sens..
[4] A. Isaev,et al. Carbon Stock and Deposition in Phytomass of the Russian Forests , 1995 .
[5] C. Perry,et al. Functional equivalence of spectral vegetation indices , 1984 .
[6] S. Nilsson,et al. Possibilities for Increased Carbon Sequestration through Improved Protection of Russian Forests , 1995 .