[1] Simon J, Dannenmann M, Pena R, et al. Nitrogen nutrition of beech forests in a changing climate:importance of plant-soil-microbe water, carbon, and nitrogen interactions[J]. Plant and Soil, 2017,418(1/2):89-114.
[2] Chen Z, Wei K, Chen L, et al. Effects of the consecutive cultivation and periodic residue incorporation of Bacillus thuringiensis (Bt) cotton on soil microbe-mediated enzymatic properties[J]. Agriculture, Ecosystems & Environment, 2017,239:154-160.
[3] Hartmann M, Frey B, Mayer J, et al. Distinct soil microbial diversity under long-term organic and conventional farming[J]. Isme Journal, 2015,9(5):1177-1194.
[4] Carini P, Marsden P J, Leff J W, et al. Relic DNA is abundant in soil and obscures estimates of soil microbial diversity[J]. Nature Microbiology, 2017,2(3):16242.
[5] Maestre F T, Delgado-Baquerizo M, Jeffries T C, et al. Increasing aridity reduces soil microbial diversity and abundance in global drylands[J]. Proceedings of the National Academy of Sciences, 2015,112(51):15684-15689.
[6] Tedersoo L. Correspondence:Analytical flaws in a continental-scale forest soil microbial diversity study[J]. Nature Communications, 2017,8:15572.
[7] Zhalnina K, Dias R, de Quadros P D, et al. Soil pH determines microbial diversity and composition in the park grass experiment[J]. Microbial Ecology, 2015,69(2):395-406.
[8] Lange M, Eisenhauer N, Sierra C A, et al. Plant diversity increases soil microbial activity and soil carbon storage[J]. Nature Communications, 2015,6:6707.
[9] Leff J W, Jones S E, Prober S M, et al. Consistent responses of soil microbial communities to elevated nutrient inputs in grasslands across the globe[J]. Proceedings of the National Academy of Sciences, 2015,112(35):10967-10972.
[10] 王岩春,干友民,费道平,等.川西北退牧还草工程区围栏草地植被恢复效果的研究[J].草业科学,2008,25(10):15-19.
[11] 石福孙, 吴宁, 罗鹏. 川西北亚高山草甸植物群落结构及生物量对温度升高的响应[J]. 生态学报, 2008, 28(11):5286-5293.
[12] 刘长秀,张宏,泽柏.灌丛对川西北高寒草甸土壤资源的影响[J].山地学报,2006,24(3):357-365.
[13] 鲍士旦.土壤农化分析[M].北京:科学出版社,2006.
[14] Steinauer K, Tilman D, Wragg P D, et al. Plant diversity effects on soil microbial functions and enzymes are stronger than warming in a grassland experiment[J]. Ecology, 2015,96(1):99-112.
[15] Tardy V, Spor A, Mathieu O, et al. Shifts in microbial diversity through land use intensity as drivers of carbon mineralization in soil[J]. Soil Biology and Biochemistry, 2015,90:204-213.
[16] McDaniel M D, Tiemann L K, Grandy A S. Does agricultural crop diversity enhance soil microbial biomass and organic matter dynamics? A meta-analysis[J]. Ecological Applications, 2014,24(3):560-570.
[17] Chu H, Sun H, Tripathi B M, et al. Bacterial community dissimilarity between the surface and subsurface soils equals horizontal differences over several kilometers in the western Tibetan Plateau[J]. Environmental Microbiology, 2016,18(5):1523-1533.
[18] Yuan Y, Si G, Wang J, et al. Bacterial community in alpine grasslands along an altitudinal gradient on the Tibetan Plateau[J]. Fems Microbiology Ecology, 2014,87(1):121-132.
[19] Zhang X F, Zhao L, Xu S J, et al. Soil moisture effect on bacterial and fungal community in Beilu River(Tibetan Plateau)permafrost soils with different vegetation types[J]. Journal of Applied Microbiology, 2013,114(4):1054-1065.
[20] Yergeau E, Hogues H, Whyte L G, et al. The functional potential of high Arctic permafrost revealed by metagenomic sequencing, qPCR and microarray analyses[J]. Isme Journal, 2010,4(9):1206.
[21] Zhalnina K, Dias R, de Quadros P D, et al. Soil pH determines microbial diversity and composition in the park grass experiment[J]. Microbial Ecology, 2015,69(2):395-406.
[22] Wang J T, Cao P, Hu H W, et al. Altitudinal distribution patterns of soil bacterial and archaeal communities along Mt. Shegyla on the Tibetan Plateau[J]. Microbial Ecology, 2015,69(1):135-145.
[23] Jeanbille M, Buée M, Bach C, et al. Soil parameters drive the structure, diversity and metabolic potentials of the bacterial communities across temperate beech forest soil sequences[J]. Microbial Ecology, 2016,71(2):482-493.
[24] Rousk J, B, Brookes P C, et al. Soil bacterial and fungal communities across a pHgradient in an arable soil[J]. Isme Journal, 2010,4(10):1340.
[25] Fierer N, Jackson R B. The diversity and biogeography of soil bacterial communities[J]. Proceedings of the National Academy of Sciences of the United States of America, 2006,103(3):626-631.
[26] Shen C, Xiong J, Zhang H, et al. Soil pH drives the spatial distribution of bacterial communities along elevation on Changbai Mountain[J]. Soil Biology and Biochemistry, 2013,57:204-211.
[27] Leff J W, Jones S E, Prober S M, et al. Consistent responses of soil microbial communities to elevated nutrient inputs in grasslands across the globe[J]. Proceedings of the National Academy of Sciences, 2015,112(35):10967-10972.
[28] Ansola G, Arroyo P, de Miera L E S. Characterisation of the soil bacterial community structure and composition of natural and constructed wetlands[J]. Science of the Total Environment, 2014,473:63-71.
[29] Gao Y, Wang J, Guo S, et al. Effects of salinization and crude oil contamination on soil bacterial community structure in the Yellow River Delta region, China[J]. Applied Soil Ecology, 2015,86:165-173.
[1]李明辉,贾平,袁莉,等.川西北龙门山中段石灰岩矿区矿业废弃地生态恢复治理研究[J].水土保持研究,2007,14(01):187.
LI Ming-hui,JIA Ping,YUAN Li,et al.Ecological Restoration Reserch in Mining Wastedland of Limestone Mining Area in Middle Section of Longmenshan in Northwest of Sichuan[J].Research of Soil and Water Conservation,2007,14(06):187.
[2]刘克,赵文吉,胡德勇.基于RS和GIS的北京潮白河流域沙化现状及成因分析[J].水土保持研究,2008,15(06):157.
LIU Ke,ZHAO Wen-ji,HU De-yong.Status Analysis of Desertification in Chaobaihe River Basin Based on RS and GIS[J].Research of Soil and Water Conservation,2008,15(06):157.
[3]李斌,董锁成,江晓波,等.若尔盖湿地草原沙化驱动因素分析[J].水土保持研究,2008,15(03):112.
LI Bin,DONG Suo-cheng,JIANG Xiao-bo,et al.Analysis on the Driving Factors of Grassland Desertification in Zoige Wetland[J].Research of Soil and Water Conservation,2008,15(06):112.
[4]常月明,赵爱荣,王心源,等.半干旱丘陵地区林地在荒漠化中作用及其成因分析研究——以内蒙古四子王旗南部为例[J].水土保持研究,2007,14(02):280.
CHANG Yue-ming,ZHAO Ai-rong,WANG Xin-yuan,et al.To Study the Action and Cause of the Woodland to Desertification of Semi-arid Hill Area——A Case Study of Agro-pastoral Areas in Inner Mongolia[J].Research of Soil and Water Conservation,2007,14(06):280.
[5]桑以琳.荒谟沙化土壤开发利用研究──以内蒙古自治区乌兰布和沙谟综合治理开发区为例[J].水土保持研究,1998,5(03):84.
Sang Yilin.Waste Sandy Soil Exploitations and Uses──An Example of Wulanbuhe Comprehensive Desert Harnessment Region[J].Research of Soil and Water Conservation,1998,5(06):84.
收稿日期:2018-03-06;改回日期:2018-04-17。
基金项目:四川省教育厅项目:不同尺度条件下紫色土磷素迁移过程与效应(16ZB0311)
作者简介:杨秉珣(1975-),男,四川绵阳人,讲师,研究方向:生态环境与国土资源。E-mail:Bingxun_yang@163.com
通讯作者:董廷旭(1968-),男,四川苍溪人,本科,教授,研究方向:生态评价与GIS等。E-mail:yingxie1025@163.com