高寒湿地和草甸退化及恢复对土壤微生物碳代谢功能多样性的影响  被引量：32

作　　者：李飞 刘振恒 贾甜华 李珊珊[3] 白彦福 郭灿灿 王惟惟 孔猛 张涛 Awais Iqbal 周华坤[4] 贾宇 尚占环 LI Fei;LIU Zhenheng;JIA Tianhua;LI Shanshan;BAI Yanfu;GUO Cancan;WANG Weiwei;KONG Meng;ZHANG Tao;Awais Iqball;ZHOU Huakun;JIA Yu;SHANG Zhanhuan(State Key Laboratory of Grassland Agro-ecosystems,Life Sciences College of Lanzhou University,Lanzhou 730000,China;Grassland Station,Livestock and Forest Bureau of Gansu Maqu County,Maqu 747300,China;College of Pastoral Agriculture Science and Technology,Lanzhou University,Lanzhou 730070,China;Qinghai Provincial Key Laboratory of Ecology Restoration in Cold Region,Northwest Institute of Plateau Biology,Chinese Academy of Sciences,Xiaing 810008,China)

机构地区：[1]兰州大学生命科学学院,草地农业生态系统国家重点实验室,兰州730000 [2]甘肃省玛曲县畜牧林业局草原站,玛曲747300 [3]兰州大学草地农业科技学院,兰州730070 [4]青海省寒区恢复生态学重点实验室,中国科学院西北高原生物研究所,西宁810008

出　　处：《生态学报》2018年第17期6006-6015,共10页Acta Ecologica Sinica

基　　金：国家重点研发计划课题(2016YFC0501906-2);国家自然科学基金项目(41671508);青海省创新平台建设专项(2017-ZJ-Y20)

摘　　要：为研究高寒湿地、草甸的退化及恢复与土壤微生物碳代谢功能多样性的关系,以及影响土壤微生物碳代谢功能多样性的关键因素,利用BIOLOG Eco微平板法,分析了甘肃玛曲地区5类(湿地、沼泽化草甸、高寒草甸、退化草甸、人工恢复草甸) 14个退化与恢复样地的土壤微生物对单一碳源的利用情况。结果表明,从湿地到沙化草地的逐渐退化过程中,草甸的土壤微生物群落代谢活性差异显著;主要是由于在湿地干化过程中,微生物活性逐渐升高,沼泽草甸土壤微生物活性最高;随着草甸不断退化,微生物活性逐渐降低,沙化草地最低;而人工补播恢复使土壤微生物活性有所增加,表明退化对微生物碳代谢功能多样性造成显著影响,人工恢复措施在一定程度上提高了土壤微生物活性。聚合物类(吐温40、吐温80、环状糊精、肝糖)、氨基酸类及碳水化合物类是土壤微生物主要利用的碳源。冗余分析结果显示,土壤的碳氮比、含水量、有机碳、全氮、容重、氮磷比、p H及植被覆盖度是影响土壤微生物碳代谢功能多样性的关键因子。因此,可用土壤碳代谢功能多样性变化评价高寒湿地及草甸的退化和恢复及其变化程度。Qinghai-Tibetan plateau being the third pole of the earth, has global ecological significance and plays a considerable role as a watershed of major rivers of the region. Approximately 85% of the plateau comprises alpine grasslands, thus acting as a major pool for livestock grazing and providing many other ecosystem services. Over the past few decades, grassland deterioration has been the consequence of overgrazing and some other additional factors. Grassland degradation triggers adverse changes in the physical and chemical properties of the soil, which ultimately influence soil microbes. Soil microbes play a significant role in nutrition and other bio-geochemical cycling of the soil. This paper aims to explore the correlation between grassland degradation, soil microbes, and the key factors affecting the diversity of soil microbial carbon metabolism. The BIOLOG Eco microplate method was applied to analyze the community level physiological profile （CLPP） of soil microbes. In this study, we investigated the soil microbial community functional diversity profile for different types of alpine wetlands and meadows including alpine wetlands, swamp meadows, alpine meadows, and degraded and artificially restored meadows. Soil samples from the above grasslands were collected during August 2015. The BIOLOG plates were incubated at 25℃, and color development in each well was noted as optical density （OD） at 595 nm with a plate reader over a 7-d period, i.e., 24, 48, 72, 96, 120, 144, and 168 h. The variation in utilization rates of soil microbes was analyzed from 14 restoration plots with varying degrees of disturbances/degradation of 5 types of land, including wetlands, swamp wetlands, meadows, and degraded and restored meadows from the Maqu region of Gansu Province. The metabolic activity of the soil microbial community amidst different soils of various meadows was significantly different. During the process of wetland drying, microbial activity progressively increased, and the soil microbial activity was highest

关 键 词：退化草甸 微生物多样性 BIOLOG Eco微平板法 土壤理化性质 植被 

分 类 号：S154.3[农业科学—土壤学]