Soil carbon source and accumulation over 12,000 years in a semi-natural Miscanthus sinensis grassland in southern Japan
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- 作者:D.S. Howletta ; Y. Tomaa ; b ; H. Wangc ; S. Sugiyamad ; T. Yamadae ; A. Nishiwakif ; F. Fernandezg ; J.R. Stewarta ; h ; ryan.stewart@byu.edu
- 关键词:Soil carbon sequestration ; Miscanthus sinensis ; Japan ; Andisols ; Biofuels ; C4 grasses
- 刊名:Catena
- 出版年:2013
- 出版时间:May, 2013
- 年:2013
- 卷:104
- 期:Complete
- 页码:127-135
- 全文大小:1071 K
文摘
Miscanthus, a promising feedstock for the production of lignocellulosic ethanol, will likely see a considerable increase in cultivation and production in the U.S. and Europe in the coming decades. To better predict the effect of this change on soil edaphic resources, we examined a Miscanthus sinensis-dominated grassland in its native range in southern Japan. Soil organic carbon age, accumulated carbon stock, and carbon source were determined on pyrolysis volatile (Py-V) and pyrolysis residue (Py-R) fractions of soil organic matter. Stable carbon isotopic composition of soil organic matter was also determined. Values of total sequestered C summed from two soil profiles (0-1.5 m) were 515 and 559 Mg C ha? 1. Stable isotope analysis showed that about 66.8 % of soil C, ranging from 52.0 to 84.8 % , was derived from C4 plants. Variation of soil age indicated by 14C dates of Py-V and Py-R fractions was correlated linearly with soil depths with a R2 value ranging from 0.98 to 0.99. Phytolith data showed an increase in abundance of M. sinensis and Pleioblastus sect. Nezasa following a pyroclastic eruption 7 kyrs ago, and a decrease in Sasa sect. Crassinodi from 12 to 7 kyrs ago. Organic carbon flux ranged from 0.85 to 1.63 Mg C ha? 1 yr? 1 through 1.5-m soil profiles, and Miscanthus-derived carbon flux was distributed in a similar pattern to the total C throughout the soil profiles. Over a 12,000 year history of land use at the Aso caldera, Japan, M. sinensis was found to be a major contributor to soil carbon and a sink for atmospheric CO2, which, under certain constraints, has implications for the potential sequestration of soil carbon under Miscanthus in cultivated conditions.