机构地区:[1]淮北师范大学生命科学学院,资源植物生物学安徽省重点实验室,淮北235000 [2]浙江师范大学地理与环境科学学院,金华321004 [3]安徽大学资源与环境工程学院,合肥230601
出 处:《农业工程学报》2015年第7期264-271,共8页Transactions of the Chinese Society of Agricultural Engineering
基 金:国家自然科学基金项目(31071868);教育部高校留学回国人员科研项目;资源植物生物学安徽省重点实验室项目资助(ZYZWSW2014010)
摘 要:生物炭具有培肥土壤和影响土壤氮素转化的效应,但对于不同肥力尤其是极低肥力的采煤塌陷复垦区土壤氮素转化方面缺乏研究。该文采用室内恒温控湿好气培养的方法,研究生物炭在不同氮肥水平下对肥力差异较大的两种土壤(肥力高的菜地土壤、肥力极低的塌陷区复垦土壤)硝化作用的影响。试验设2种氮肥水平、3种生物炭施用量。结果发现,相对于菜地土壤,塌陷区复垦土壤硝化作用缓慢,土壤最大硝化速率仅为菜地土壤的17.32%,且最大硝化速率出现的时间延迟4.2 d。高氮条件下,土壤硝化作用进行得较慢,施入生物炭后对硝化作用的抑制增强,并使土壤硝化加速阶段延长6 d(塌陷区复垦土壤)至11 d(菜地土壤)。塌陷区土壤尤其在高氮条件下最大硝化速率出现的时间明显随生物炭添加量增加而逐渐延迟,而土壤最大硝化速率不受生物炭及氮肥水平的影响。但菜地土壤土壤最大硝化速率值、最大硝化速率出现的时间值显著受氮肥水平及生物炭施用量影响。因此,生物炭对硝化作用的抑制主要表现在硝化作用的加速阶段,抑制强度受氮肥水平和土壤类型交互作用影响。The soil structure was severely destroyed, and the content of organic matter and fertility was extremely low in reclaimed soil in the coal-mining subsidence area. How to improve the soil fertility and recover soil productivity was a critical problem for sustainable agriculture in this area. Nitrogen fertilizer was one of the largest amounts of fertilizers used in agricultural production, and the nitrification of ammonium to nitrate was an important nitrogen transformation process in dryland soil. Numerous evidences showed that biochar could improve soil fertility and affect nitrogen transformation in soil. However, little attention was paid to compare the difference in nitrogen transformation affected by biochar addition in soils with different fertility levels, especially in the extremely infertile reclaimed soil in the coal-mining subsidence area. In this paper, the effect of biochar addition on the nitrification in the reclaimed soil from a coal-mining subsidence area was examined by using a laboratory aerobic incubation method with constant temperature and controlled humidity under different nitrogen supply levels. In addition, vegetable soil with high fertility was used as the comparation. The experimental factors included three levels of biochar (0, 1.5% and 3%), two levels of nitrogen (at the rates of 200 and 400 mg/kg, respectively), and two kinds of soil (vegetable soil and reclaimed soil with extremely low fertility). In addition, soils without any biochar or background nitrification information. Nitrate nitrogen nitrogen addition were cultured at the same condition to provide and ammonium nitrogen concentration in soils were monitored during the cultivation period. The variation of nitrate nitrogen concentration in the cultivated soils was simulated by Logistic function and the significance values of the model were analyzed. It showed that, compared with the vegetable soil, the nitrification was slow in the reclaimed soil. The maximum rate of nitrification in the reclaimed soil was only 17.
分 类 号:S274.3[农业科学—农业水土工程] S158.3[农业科学—农业工程]
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