Spatial correlation analysis on soil organic carbon and the influencing factors in the Xiangxi River Basin

SHI Ting-ting; CHEN Zhi-hua; WANG Ning-tao; JIN Xiao-wen

Volume 30 Issue 4

Dec. 2011

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SHI Ting-ting, CHEN Zhi-hua, WANG Ning-tao, JIN Xiao-wen. Spatial correlation analysis on soil organic carbon and the influencing factors in the Xiangxi River Basin[J]. CARSOLOGICA SINICA, 2011, 30(4): 423-431.

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SHI Ting-ting, CHEN Zhi-hua, WANG Ning-tao, JIN Xiao-wen. Spatial correlation analysis on soil organic carbon and the influencing factors in the Xiangxi River Basin[J]. CARSOLOGICA SINICA, 2011, 30(4): 423-431.

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Spatial correlation analysis on soil organic carbon and the influencing factors in the Xiangxi River Basin

1.
School of Environmental Studies, China University of Geosciences
2.
Wuhan Geology Survey, China Geology Survey

Received Date: 2011-11-09
Publish Date: 2011-12-25

Abstract

Abstract

Base on the information of national soil survey for the second time and the date come out of field collection and lab. test, this paper firstly studies organic carbon density and pool of different soil types in the Xiangxi River Basin， then chooses information statistics method which is based on information entropy principle to study the spatial relationship quantitatively between soil organic carbon density and its influencing factors, including soil types, topography and geomorphology, soil parent material, vegetation coverage, soil thickness, slope and diversity of the land use types in basin. The results show that the total organic carbon pool of the basin is 75.18 Tg, and soil organic carbon density mainly ranges from 6.00 to 16.00 kg/m2, the soil organic carbon density is high in the northern part of basin and main stream area, and the soil organic carbon density in the other areas of the basin is distributed alternately with high and low. The spatial distribution of soil organic carbon density is affected by the distribution of soil types and topography and geomorphology conditions. The differences of information entropy values for soil organic carbon density at various levels by different soil types are significant, which are broadly consistent with the analysis and compute results of SOC density and carbon storage in the Xiangxi River Basin. In the alpine zone, forest land, farmland and bush land are benefit for storage of soil organic carbon with high density. The soil organic carbon density is highly correlated with soil thickness, but the relevance between the slope and organic carbon density is not obvious. The results of information entropy method used in quantitative calculation and analysis on soil organic carbon density and each impact factors are more reasonable and reliable.
- soil organic carbon density,
- soil organic carbon pool,
- information entropy model,
- Xiangxi River Basin

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References

[1]	金峰,杨浩,赵其国.土壤有机碳储量及影响因素研究进展［J］.土壤,2000,32(1):11-17.
[2]	Post W M, Peng T H, Emanuel W R, et al. The global carbon cycle［J］. American Scientist, 1990, 78:310～326.
[3]	Hough ton R A, Skole D L. Carbon［A］. In: The Earth As Transformed by Human Action (eds Turner B L , Clark W C, Kates R W, et al). Cambridge University Press［C］, 1990: 393-408.
[4]	Eswaran H, Reich F, Kimble J M. Global soil carbon stocks1 In: Lal R, Kimble J, Eswarn H (eds.). Global Climate Change and Pedogenic Carbonates. USA :Lewis Publishes ,1999, 15-26.
[5]	Pan G, Cuo T. Pedogenic carbonates in aridic soils of China and significance for terrestrial carbon transfer. In: L al R Kimble J, Eswaran H (eds.). Global Climate Change and Pedogenic Carbonates. New York: Lewis Publishers , 1999, 135-148.
[6]	Post W M, Emanuel W R, Zinke P J, et al. Soil carbon pools and life zones［J］. Nature, 1982, 298: 156-159.
[7]	潘根兴.中国土壤有机碳、无机碳库量研究［J］.科技通报,1999,15(5):330-332.
[8]	王绍强,周成虎,李克让.中国土壤有机碳库及空间分布特征分析［J］.地理学报,2000,55(5):533-544.
[9]	甘海华,吴顺辉,范秀丹.广东土壤有机碳储量及空间分布特征［J］.应用生态学报,2003,14(9):1499-1502.
[10]	许信旺,潘根兴,侯鹏程.不同土地利用对表层土壤有机碳密度的影响［J］.水土保持学报,2005,19(6):193-197.
[11]	程先富,史学正,于东升,等.兴国县森林土壤有机碳库及其与环境因子的关系［J］.地理研究,2004,23(2):211-217.
[12]	李甜甜,季宏兵,孙媛媛,等.我国土壤有机碳储量及影响因素研究进展［J］.首都师范大学学报(自然科学版),2007,28(2):93-96.
[13]	王绍强,周成虎.中国陆地土壤有机碳库的估算［J］.地理研究,1999,18(4):349-355.
[14]	Pan Genxing, Li Lianqing, Wu Laosheng, et al. Storage and sequest ration potential of topsoil organic carbon in China’s paddy soils［J］. Global Change Biology ,2003 , 10 :79-92.
[15]	许信旺,潘根兴,曹志红,等.安徽省土壤有机碳空间差异及影响因素［J］.地理研究,2007,26(6):1077-1086.1001-4810201104-0432-05

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Spatial correlation analysis on soil organic carbon and the influencing factors in the Xiangxi River Basin

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