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Abstract

RSSJ Journal of The Remote Sensing Society of Japan Vol. No. ( ) pp.

AKEUCHI AKANO CHI ASUOKA

Institute of Industrial Science, University of Tokyo, Koma-

Department of Agriculture, Kinki University, Naka-

. . . . *

* ba, Meguro, Tokyo , Japan

* Department of Geography, Tokyo Metropolitan University,

* Minami-osawa, Hachioji, Tokyo , Japan

*

* machi, Nara, Nara , Japan

occurred in the summer of . The damaged area was extracted by using principal component analysis supplemented

NOAA AVHRR

Recently, the number of forest fires in West Siberian Lowland (WSL) is increasing and they are considered as one

of the main driving factors influencing carbon cycling in whole earth. Since many forest fires take place in large and

hardly accessible areas, remote sensing seems to be the most appropriate tool for creating forest fire recovering

history. In this paper, SPOT HRV and Landsat ETM images were used to highlight the damaged area by fire that

by ground truth data. The total burnt area was calculated to be . (km ). Then re-generation condition in burnt

area from to was investigated using NOAA AVHRR data with sub-pixel land cover characterization. We

demonstrate that the phenomena observed by remote sensing data is consistent with climatic data including daily

precipitation and temperature. The method proposed in this study can be an e ective way for forest recovering

monitoring.

Plotnikovo

Monitoring of Re-generation Condition for Burnt Forested Wetland

in Western Siberia with Sub-pixel Land Cover Characterization

Wataru T * , Tomoko N * , Shiro O * and Yoshifumi Y *

* * * *

Keywords : forested wetland, burnt scar, sub-pixel analysis, NOAA AVHRR

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Shimoda, H., Fukue, K., Cho, K., Matsuoka, R., Hashi-

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tion of the methane emission from west Siberian wetland by

Scaling between NOAA/AVHRR and SPOT/HRV data.

( ), .

UNDP, UNEP, World Bank and WRI, . World Re-

sources . .

Kasischke, E. S. and Stocks, B. J. (Eds.), . Ecological

Studies : Fire, Climate Change, and Carbon Cycling in

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Measurements of Methane and Carbon Dioxide Fluxes in a

Birch Forest in West Siberia after Burning.

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Nakano, T., Takeuchi, W., Inoue, G., Fukuda, M. and

Yasuoka, Y., . Temporal variations in soil-atmosphere

methane exchange after fire in a peat swamp forest in West

Siberia. , .

TM

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moto, T., Nemoto, T., Tokunaga, M., Tanba, S. and Takagi,

M., . Development of a Software Package for ADEOS

and NOAA Data Analysis. ( ).

Bateson, C. A., Asner, B. P. and Wessman, C. A., .

Endmember Bundles : A New Approach to Incorporating

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Floudas, C. A. and Visweswaran, V. (Eds.), . Quadratic

optimization. .

Dwivedi, R. S. and Sankar, T. R., . Principal component

analysis of Landsat MSS data for delineation of terrain

features. ( ), .

Garcia-Haro, F. J., Gilabert, M. A. and Melia, J., .

Monitoring fire-a ected areas using Thematic Mapper data.

( ), .

Ribed, P. S. and Lopez, A. M., . Monitoring burnt areas

by principal components analysis of multi-temporal TM

data. ( ), .

Plotnikovo

Plotnikovo

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: JST

IEEE

Remote Sens. Environ.,

Elsevier Science,

Springer Publisher

In proceed :

Ninth symposium on the joint Siberian permafrost studies

between Japan and Russia in ,

Soil science and plant nutrition,

In proceed : IGARSS ,

Trans. Geosci. Remote Sens,

Klumer Academic Publishers,

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