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作 者:白可喻[1] 韩建国[2] 王培[2] 宋锦峰 王显国[2]
机构地区:[1]中国农业科学院农业自然资源与区划研究所工作 [2]中国农业大学草地研究所,北京100094
出 处:《草地学报》1999年第4期308-318,共11页Acta Agrestia Sinica
基 金:国家科技攻关专题!96-016-01-04
摘 要:通过不同放牧处理对新麦草人工草地土壤氮素分配及其在生长期间的动态研究。结果表明,0~30cm土层全氮量月均值的顺序为对照>重牧>轻牧>中牧(P<0.01)。放牧强度对铵态氮量未形成显著影响(P>0.05)。0~30cm土层随着放牧强度的增加,硝态氮量逐渐增加。放牧区净可矿化氮量大于对照区,其中以中度放牧区最高。0~30cm土层土壤微生物生物量氮的顺序为重牧>对照>中牧>轻牧(P<0.05)。The distribution and growing seasonal dynamics of soil nitrogen fraction under light grazing (LG 0. 134hm2/1amb),medium grazing (MG 0. 08hm2/1amb), high grazing(HG 0. 067hm2/1amb), and no grazing (ck) was carried out on a russian wildrye grass(Psathyrostachys juncea (Fishch)Nevski) pasture during growing season (from mid -June-mid September)in 1997. The order of soil total N percentage in layer of 0~ 30cm soilwas CK>HG>LG>MG(P<0. 01). There were no significant difference among ammonianitrogen under different grazing intensities (P>0. 05). Because of the increasing of grazingintensities the content of nitric nitrogen increased in layer of 0~30cm soil. The net mineralizable N of grazing intensity was higher than that of ungrazed, and the content of netmineralizable N of medium grazing intensity was the highest, but there were no significantdifference among them because of short grazing period(P>0. 05), Soil microbial biomass Nin layer of 0,30cm soil was ranked as HG>CK>MG>LG(P<0. 05).
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