Soil carbon sequestration plays an essential role in mitigating atmospheric CO2 increases and the subsequently global greenhouse effect. The storages and dynamics of soil organic carbon (SOC) of 0-30 cm soil depth in different landscape types including beaches, reservoir and pond, reed wetland, forest wetland, bush wetland, farmland, building land, bare land (severe saline land) and salt field in the modern Yellow River Delta (YRD) were studied based on the data of the regional survey and laboratory analysis. The landscape types were classified by the interpretation of remote sensing images of 2000 and 2009, which were calibrated by field survey results. The results revealed an increase of 10.59 km(2) in the modem YRD area from 2000 to 2009. The SOC density varied ranging from 0.73 kg m(-2) to 4.25 kg m(-2) at depth of 0-30 cm. There were approx. 3.559x10(6) t and 3.545x10(6) t SOC stored in the YRD in 2000 and 2009, respectively. The SOC storages changed greatly in beaches, bush wetland, farm land and salt field which were affected dominantly by anthropogenic activities. The area of the YRD increased greatly within 10 years, however, the small increase of SOC storage in the region was observed due to landscape changes, indicating that the modern YRD was a potential carbon sink and anthropogenic activity was a key factor for SOC change.
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机译:土壤碳固存在缓解大气中二氧化碳的增加以及随后的全球温室效应中起着至关重要的作用。在海滩,水库和池塘,芦苇湿地,森林湿地,灌木丛湿地,农田,建筑地,裸地(重度盐碱地)等不同景观类型中,土壤深度为0-30 cm的土壤有机碳(SOC)的存储和动态基于区域调查和实验室分析的数据,研究了现代黄河三角洲(YRD)的盐和盐田。通过对2000年和2009年遥感图像的解释对景观类型进行分类,并通过实地调查结果进行校准。结果显示,从2000年到2009年,现代YRD区域增加了10.59 km(2)。SOC密度在0-30 cm的深度范围从0.73 kg m(-2)到4.25 kg m(-2)不等。大约有。 3.559x10(6)t和3.545x10(6)t SOC分别存储在2000年和2009年的YRD中。在海滩,灌木丛湿地,农田和盐田中,SOC的存储量发生了很大变化,这些变化主要受人为活动的影响。长江流域的面积在10年内大大增加,但是,由于景观变化,该地区的SOC储量仅增加了一点,这表明现代长江流域是潜在的碳汇,而人为活动是SOC变化的关键因素。
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