地球学报
地毬學報
지구학보
ACTA GEOSCIENTIA SINICA
2013年
4期
455-462
,共8页
覃小群%刘朋雨%黄奇波%张连凯
覃小群%劉朋雨%黃奇波%張連凱
담소군%류붕우%황기파%장련개
碳汇%二氧化碳%珠江流域
碳彙%二氧化碳%珠江流域
탄회%이양화탄%주강류역
carbon sink%carbon dioxide%the Pearl River Valley
以流域的岩性、径流量和水化学分析数据为主要资料,利用基于GIS空间分析的GEM-CO2模型,估算珠江流域陆地岩石风化作用消耗大气/土壤空气中的CO2,评价河流流域的碳汇能力。结果表明,珠江流域因岩石溶蚀和风化作用消耗大气/土壤中的CO2量为252×109 mol·a-1(571×103 mol·km-2·a-1),从岩性分析,碳酸盐岩区大气/土壤CO2消耗量为180×109 mol·a-1(1030×103 mol·km-2·a-1),占总量的71.4%。二级流域以西江流域CO2消耗量最大,占珠江流域总CO2消耗量79.4%,北江、东江分别占总量的13.0%、4.9%。珠江流域大气/土壤CO2消耗量大约为世界大河流域平均值的2.3倍。
以流域的巖性、徑流量和水化學分析數據為主要資料,利用基于GIS空間分析的GEM-CO2模型,估算珠江流域陸地巖石風化作用消耗大氣/土壤空氣中的CO2,評價河流流域的碳彙能力。結果錶明,珠江流域因巖石溶蝕和風化作用消耗大氣/土壤中的CO2量為252×109 mol·a-1(571×103 mol·km-2·a-1),從巖性分析,碳痠鹽巖區大氣/土壤CO2消耗量為180×109 mol·a-1(1030×103 mol·km-2·a-1),佔總量的71.4%。二級流域以西江流域CO2消耗量最大,佔珠江流域總CO2消耗量79.4%,北江、東江分彆佔總量的13.0%、4.9%。珠江流域大氣/土壤CO2消耗量大約為世界大河流域平均值的2.3倍。
이류역적암성、경류량화수화학분석수거위주요자료,이용기우GIS공간분석적GEM-CO2모형,고산주강류역륙지암석풍화작용소모대기/토양공기중적CO2,평개하류류역적탄회능력。결과표명,주강류역인암석용식화풍화작용소모대기/토양중적CO2량위252×109 mol·a-1(571×103 mol·km-2·a-1),종암성분석,탄산염암구대기/토양CO2소모량위180×109 mol·a-1(1030×103 mol·km-2·a-1),점총량적71.4%。이급류역이서강류역CO2소모량최대,점주강류역총CO2소모량79.4%,북강、동강분별점총량적13.0%、4.9%。주강류역대기/토양CO2소모량대약위세계대하류역평균치적2.3배。
The atmospheric/soil CO2 consumption by rock weathering has become the main carbon sink. The flux of CO2 consumed by rock weathering increases with the increasing carbonate rock outcrop area and the water drainage intensity. In this paper, with the rock, water runoff and water chemistry data of the valley as the main data, the authors estimated the flux of atmospheric/soil CO2 consumed by chemical erosion of continental rocks in the Pearl River Valley based on a global erosion model (GEM-CO2) developed by Amiotte Suchet. The total carbon consumption is about 252×109 mol·a-1 (571×103 mol·km-2·a-1), about 71.4% of which are caused by carbonate rocks, with about 180×109 mol·a-1 (1030×103 mol km-2·a-1) CO2 consumed flux. About 79.4%of the consumption of CO2 is localized in Xijiang tributary basin, because of a high proportion of carbonate rocks and high humidity in this area. In contrast, the Beijiang tributary basin and the Dongjiang tributary basin only possess 13%and 4.9%of the total CO2 consumption amount respectively. The flux of atmospheric/soil CO2 consumed in the Pearl River Valley is 2.3 times higher than the average CO2 consumption of the major river basins in the world.