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川西高原季节性雪被覆盖下凋落物输入对土壤微生物数量及生物量的影响 被引量:22

Effects of snowpack and litter input on soil microbial count and biomass in the Eastern Tibetan Plateau
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摘要 为了了解季节性雪被覆盖下不同碳供应水平对高山土壤生态系统过程的影响,2010年1月-5月在青藏高原东缘设计人工雪厚度梯度控制(0 cm,30 cm,100 cm)和凋落物添加(0 g,5 g,20 g鲜卑花叶片)的原位试验,测定了土壤中的微生物数量和微生物生物量。研究发现,雪被覆盖能有效地绝缘大气和土壤,减少冻融交替的幅度和频次,显著增加了细菌和真菌数量,而对微生物生物量碳氮无明显影响。凋落物的输入降低了微生物生物量氮的含量,增加了细菌和真菌的数量。说明雪被覆盖和有机碳的输入可以通过影响冬季土壤微生物群落结构,从而对高山地区冬季生态系统过程产生实质性的影响。 To understand the effects of snow-cover and organic carbon input on the alpine soil ecosystem processes, intact soil core incubations in three different snow regimes (0, 30 and 100 cm depth) and litter input (0, 5 and 20g Sibiraea angustata leaf litter) were used to measure the microbial count and biomass in the eastern Tibetan Plateau from January to May 2010. The result showed that snow-cover could effectively isolate atmosphere and soil, reduce the amplitude and frequency of frozen-thawing events, and increase significantly bacteria and fungi count, while did not influence microbial biomass carbon and nitrogen. Litter input increased microbial count, while decreased microbial nitrogen content. The results indicated that snow-cover and organic carbon input impact directly soil microbial community in winter, and then affect the ecosystem processes in alpine zone.
作者 胡霞 吴宁 尹鹏 吴彦
机构地区 中国科学院成都生物所生态恢复重点实验室 乐山师范学院生命科学学院 乐山师范学院学生处
出处 《生态科学》 CSCD 北大核心 2013年第3期359-364,共6页 Ecological Science
基金 中国科学院战略性先导科技专项(XDA05050404) "十二五"国家科技支撑计划项目(2011BAC09B04-02-03) 国家自然科学基金(40971178) 乐山师范学院科研项目(Z1263) 四川省国际合作项目(2011HH0011)
关键词 雪被覆盖 凋落物添加 细菌数量 真菌数量 微生物量碳氮 snowpack, litter input, bacteria count, fungi count, microbial biomass carbon and nitrogen
分类号 S154.38 [农业科学—土壤学]
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参考文献23

  • 1Zelles L. Fatty acid patterns of phospholipids andlipopolysaccharides in the characterization of microbialcommunities in soil: a review[J]. Biology and Fertility ofSoil, 1999,29(2): 111-129.
  • 2Panikov N S. Understanding and prediction of soilmicrobial community dynamics under global changefj].Applied Soil Ecology, 1999, 11(2-3): 161-176.
  • 3Dias-Ravina M, Acea M J, Carbanas T. Microbial biomassand its contribution to nutrient concentration in forest soils[J]. Soil Biology & Biochemistry,1993,25(1): 25-31.
  • 4胡亚林,汪思龙,黄宇,于小军.凋落物化学组成对土壤微生物学性状及土壤酶活性的影响[J].生态学报,2005,25(10):2662-2668. 被引量:139
  • 5周桔,雷霆.土壤微生物多样性影响因素及研究方法的现状与展望[J].生物多样性,2007,15(3):306-311. 被引量:182
  • 6鲁如坤.土壤农业化学分析手册[M].北京:中国农业科技出版社,2000.
  • 7Brookes P C, Landman A, Pruden G, Jenkinson, D S.Chloroform fumigation and the release of soil nitrogen: arapid direct extraction method to measure microbialbiomass nitrogen in soil[J]. Soil Biology & Biochemistry,1985,17 (6): 837-842.
  • 8Vance E D,Brookes P C,Jenkinson D S. An extractionmethod for measuring soil microbial biomass C[J]. SoilBiology & Biochemistry” 1987,19 (6): 703-707.
  • 9Larsen K S, Jonasson S, Michelsen A. Repeatedfreeze-thaw cycles and their effects on biologicalprocesses in two arctic ecosystem types[J]. Applied SoilEcology, 2002,21(3): 187-195.
  • 10Sutinen R, Hanninen P, Venalainen A. Effect of mildwinter events on soil water content beneath snowpack[J].Cold Regions Science and Technology^ 2008,51(1):56-67.

二级参考文献48

  • 1钟文辉,蔡祖聪.土壤管理措施及环境因素对土壤微生物多样性影响研究进展[J].生物多样性,2004,12(4):456-465. 被引量:130
  • 2Fantroussi SE,Verschuere L,Verstraete W,Top EM .(1999) Effect of phenylurea herbicides on soil microbial communities estimated by analysis of 16S rRNA gene fingerprints and community-level physiological profiles.Applied and Environmental Microbiology,65,982-988.
  • 3Feng Y,Motta AC,Reeves DW,Burmestera CH,Van Santena E,Osborne JA .(2003) Soil microbial communities under conventional-till and no-till continuous cotton systems.Applied and Environmental Microbiology,35,1693-1703.
  • 4Gelsomino A,Keijzer-Wolters A,Cacco G,van Elsas JD .(1999) Assessment of bacterial community structure in soil by polymerase chain reaction and denaturing gradient gel electrophoresis.Journal of Microbiological Methods,38,1-15.
  • 5Jenkinson DS,Ladd JN .(1981) Microbial biomass in soil:measurement and turnover in Paul.Soil Biochemistry,5,415-471.
  • 6Johnson NC,Wolf J,Koch GW .(2003) Interactions among mycorrhizae,atmospheric CO2 and soil N impact plant community composition.Ecology Letters,6,532-540.
  • 7Kaiser O,Puhler A,Selbitschka W .(2001) Phylogenetic analysis of microbial diversity in the rhizoplane of oilseed rape (Brassica napus cv.Westar) employing cultivation-dependent and cultivation-independent approaches.Microbial Ecology,42,136-149.
  • 8Klironomos JN .(2002) Feedback with soil biota contributes to plant rarity and invasiveness in communities.Nature,417,67-70.
  • 9Kourtev PS,Ehrenfeld JG,Haggblom M .(2002) Exotic plant species alter the microbial community structure and function in the soil.Ecology,83,3152-3166.
  • 10Kowalchuk GA,Buma DS,Boer WD,Klinkhamer PG,Veen JAV .(2002) Effects of above-ground plant species composition and diversity on the diversity of soil-borne microorganisms.Antonie Van Leeuwenhoek,81,509-520.

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生态科学
2013年 第3期

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