Soil Organic Carbon Loss and Turnover Resulting from Forest Conversion to Maize Fields in Eastern Thailand

Soil organic carbon（SOC） content and its stable carbon isotopic composition（within the upper 1 m） were measured to determine the e？ect of land-use changes from dry evergreen forest to maize fields in eastern Thailand.Digital land cover maps,derived from aerial photography and satellite images for ye...

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Veröffentlicht in:	Pedosphere 2011-10, Vol.21 (5), p.581-590
Hauptverfasser:	JAIARREE, S., CHIDTHAISONG, A., TANGTHAM, N., POLPRASERT, C., SAROBOL, E., TYLER, S.C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Aerial photography C stocks forest-derived C land-use change maize-derived C stable carbon isotope Zea mays 土地利用变化土壤有机碳损失森林泰国玉米田稳定碳同位素组成营业额
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container_issue	5
container_start_page	581
container_title	Pedosphere
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creator	JAIARREE, S. CHIDTHAISONG, A. TANGTHAM, N. POLPRASERT, C. SAROBOL, E. TYLER, S.C.
description	Soil organic carbon（SOC） content and its stable carbon isotopic composition（within the upper 1 m） were measured to determine the e？ect of land-use changes from dry evergreen forest to maize fields in eastern Thailand.Digital land cover maps,derived from aerial photography and satellite images for years 1989,1996,and 2002 were used in association with field surveys and farmer interviews to derive land-use history and to assist in study site selection.Conversion from forest to maize cultivation for the duration of 12 years reduced SOC stocks at the rate of 6.97 Mg C ha-1 year-1.Reduction was most pronounced in the top 10 cm soil layer,which was 47% after 12 years of cultivation.Stable carbon isotope data revealed that the main fraction lost was forest-derived C.Generally low input rates of maize-derived C were not sufficient to maintain SOC at the level prior to forest conversion.After 12 years of continuous maize cultivation,the maize-derived C fraction made up about 20% of total SOC（5 Mg ha-1 of the total 25.31 Mg ha-1）.
doi_str_mv	10.1016/s1002-0160(11)60160-4
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subjects	Aerial photography C stocks forest-derived C land-use change maize-derived C stable carbon isotope Zea mays 土地利用变化土壤有机碳损失森林泰国玉米田稳定碳同位素组成营业额
title	Soil Organic Carbon Loss and Turnover Resulting from Forest Conversion to Maize Fields in Eastern Thailand
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