生物炭在适当的用量下可以减少沿海盐渍土壤中氮的淋失，保持氮的保留，而不会增加氨的挥发。

Biochar applied with appropriate rates can reduce N leaching, keep N retention and not increase NH volatilization in a coastal saline soil.

机构信息

Collaborative Innovation Center of Sustainable Forestry in Southern China of Jiangsu Province, Nanjing Forestry University, Nanjing 210037,China.

Institute of Agro-biotechnology, Jiangsu Academy of Agriculture Sciences, Nanjing 210014, China.

出版信息

Sci Total Environ. 2017 Jan 1;575:820-825. doi: 10.1016/j.scitotenv.2016.09.137. Epub 2016 Sep 29.

DOI:10.1016/j.scitotenv.2016.09.137

PMID:27693153

Abstract

The impacts of biochar addition on nitrogen (N) leaching, (ammonia) NH volatilization from coastal saline soils are not well understood. In this soil column study, the effects of wheat straw biochar application at rates of 0.5%, 1%, 2% and 4% by weight to a coastal saline soil on N leaching, NH volatilization, soil pH and N retention were investigated. Results showed that 0.5% and 1% biochar amendments reduce the NH-N, NO-N and total N concentrations of leachate and thereby significantly decrease their cumulative lost loads by 11.6-24.0%, 13.2-29.7%, and 14.6-26.0%, respectively, in compared with the control. The biochar-induced soil N leaching mitigation efficiency was weakened when the biochar application rates increased to 2% and 4%. However, the impact of biochar addition on cumulative NH volatilizations were negative and significantly 25.6-53.6% higher NH volatilizations in soils with 2% and 4% biochar amended than control were detected, which was mainly attributed to the averaged 0.53-0.88units higher soil pH as results of biochar addition. On average, the total N concentrations of soil were kept same with 1.01-1.06gkg under control and biochar treatments. Therefore, biochar application to the coastal saline soils with appropriate rates (i.e., 0.5% and 1% in current study) can reduce N leaching, keep soil N retention, and not increase NH volatilization, which was beneficial for sustainable use of saline soils.

摘要

生物炭添加对沿海盐渍土壤中氮（N）淋失和（氨）NH 挥发的影响尚未得到很好的理解。在这项土柱研究中，研究了向沿海盐渍土中添加 0.5%、1%、2%和 4%（按重量计）小麦秸秆生物炭对 N 淋失、NH 挥发、土壤 pH 和 N 保留的影响。结果表明，0.5%和 1%的生物炭添加降低了淋出液中 NH-N、NO-N 和总 N 的浓度，从而分别使累积的损失负荷减少了 11.6%-24.0%、13.2%-29.7%和 14.6%-26.0%。与对照相比。当生物炭施用量增加到 2%和 4%时，生物炭引起的土壤 N 淋失缓解效率减弱。然而，生物炭添加对累积 NH 挥发的影响是负面的，添加 2%和 4%生物炭的土壤中 NH 挥发分别比对照高出 25.6%-53.6%，这主要归因于生物炭添加导致的平均 0.53-0.88 个单位的土壤 pH 升高。平均而言，土壤总 N 浓度在对照和生物炭处理下保持相同，为 1.01-1.06gkg。因此，在适当的浓度下（即在本研究中为 0.5%和 1%）向沿海盐渍土壤中添加生物炭可以减少 N 淋失，保持土壤 N 保留，而不会增加 NH 挥发，这有利于盐渍土壤的可持续利用。

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生物炭在适当的用量下可以减少沿海盐渍土壤中氮的淋失，保持氮的保留，而不会增加氨的挥发。

Biochar applied with appropriate rates can reduce N leaching, keep N retention and not increase NH volatilization in a coastal saline soil.

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