4.4  深入土壤动物生态特征与生态功能研究。土壤动物的许多功能及其内部的生态过程还鲜为人知，如土壤动物之间及其与土壤微生物的相互作用过程、土壤动物与全球变化过程、土壤动物生理生态过程研究等。

参考文献

[1]孙贤斌,李玉成,张小平,等.淮南市重金属污染对土壤动物群落和多样性影响研究[J].生态学杂志,2005,24(10):1163–1166.

[2]朱永恒,濮励杰,王宗英.芜湖市郊土壤污染对土壤动物群落结构的影响[J].应用与环境生物学报,2005,11(3):319–323.

[3]Coleman DC,Crossley Jr DA,Hendrix PF.Fundamentals of Soil Ecology(second ed)[M].San Diego: Elsevier Academic Press,2004.79-184．

[4] Jonas J L, Wilsona G W T, Whiteb P M, et al. Consumption of mycorrhizal and saprophytic fungi by Collembola in grassland soils. Soil Biology & Biochemistry, 2007, 39:2594～2602.

[5] Rooney N, McCann K, Gellner G, et al. Structural asymmetry and the stability of diverse food

webs. Nature, 2006, 442:265～269.

[6] Scheu S, Theenhaus A, Hefin Jones T. Links between the detritivore and the herbivore system:

effects of earthworms and Collembola on plant growth and aphid development. Oecologia, 1999，

119:541～551.

[7]Josef Rusek, Biodiversity of Collembola and their functional role in the ecosystem Biodiversity and Conservation 7, 1998,1207–1219]

[8]Harris, K.K., Boerner, R.E., 1990. Effects of belowground grazing by collembola on plant growth, mycorrhizal infection, and P uptake of Geranium robertianum. Plant and Soil 129, 203–210.)

[9] Johnson D, Krsek M, Wellington E M H, et al. Soil invertebrates disrupt carbon flow through fungal networks. Science, 2005, 309, 1047.

[10] Zamuner E C, Picone L I, Echeverria H E. Comparison of phosphorus fertilization diagnostic methods for wheat under no-tillage [J]. Soil & Tillage Research, 2006, 89:70-77.

[11] Badjia C A, Guedesa R N C, Silva A A, et al. Impact of deltamethrin on arthropods in maize under conventional and no-tillage cultivation [J]. Crop Protection, 2004, 23:1031-1039.

[12]Jeffrey A M. Pollution and the worlgwie loss of biodiversity. Biodiversity and Conservation.1992,1(1):1-18.

[13]Breuce A.Valuing environmental function in developing countries. Biodiversity and Conservat -ion. 1992, 1(1):34-50.

[14]Stoo H F.Biotechnology and hazardous wast treatment . Journal Environmental Quality. 1992, 21:167-175.

[15]Eljsackers H.Soil fauna and soil microflora as possible indicator of soil pollution. Environmental Monitoring and assessment.1983,3(4):307-315

[16]Dunger W.Long term studies on soil fauna at wood sites with increasing industrial pollution. Revalution of Soil Biology.1992,28(1):31-40

[17]Briiggle G.Effect of pesticides on metabolism and population development of a terrestrial enchytraeied species.Digest of XI International Colloquium on Soil Zoology.Jyvaskyla,Finland,1992

[18]Edwards C A. The effect of contaminates on the structure and function of soil communities. Digest of XI International Colloquium on Soil Zoology.Jyvaskyla,Finland,1992

[19]Lee K E.Some trends and opportunities in earthworm research. Soil Biology and Biochemistry. 1992,24(12):1765-1772

[20]张志杰等 湘江流域工业污染的生物学监测评价[M]. 北京:中国环境科学出版社.1991.  [21]王振中等 湘江流域工业污染源对农田生态系统土壤动物群落影响的研究[J]. 应用生态学报[J].1990,1(2):154-164.

[22] 陈国定 等 应用甲螨监测土壤污染的研究[J] 中国环境科学.1991,1(2.100-103)  

[23] 王振中 张友梅等 有机磷农药对土壤动物毒性影响的研究[J].应用生态学报，2002，13（12）：1664-1666

[24]王一华 傅荣恕. 辛硫磷农药对土壤螨类影响的研究[J]. 山东师范大学(自然科学版)，2003，18(4):72-75

[25]王振中 张友梅 夏卫生等 有机磷农药对土壤动物群落结构的影响研究[J].生态学报，1996，16（4）：357-366

[26]Gardi C,Tomaselli M,Parisi V.2002.Soil quality indicators and biodiversity in northern Italian permanent grasslands[J].Eur. J. Soil Biol.,38:103~110.

[27]Ponge JF, Gillet S, Dubs F. 2003.Collembolan communities as bioindicators of land use intensification[J].Soil Biol.Biochem., 35:813~826.

[28]ISO 11267, 1999. Soil Quality. Inhibition of Reproduction of Collembola (Folsomia candida). International Standards Organization, Geneva, Switzerland.

[29] Badjia CA, Guedesa RNC, Silva AA, Araújo RA. Impact of deltamethrin on arthropods in maize under conventional and no-tillage cultivation, Crop Protection, 2004, 23:1031-1039.

[30] Adl, S.M., Coleman, D.C., Read, F.. Slow recovery of soil biodiversity in sandy loam soils of

Georgia after 25 years of no-tillage management. Agriculture [J]. Ecosystems and Environment,

2006, 114:323-334.

[31] Nakamoto, T., Tsukamoto, M.. and activity of soil organisms in fields of maize grown with a

white clover living mulch [J]. Agriculture, Ecosystems & Environment, 2006, 115:34-42.

[32] Coleman, D.C., Fu, S., Hendrix, P.F., Crossley Jr., D.A.. Soil foodwebs in agroecosystems:

impacts of herbivory and tillage management[J]. European Journal of Soil Biology, 2002, 38:21-28.

[33] 王振中,张友梅.土壤污染对土壤动物群落结构的影响[J ]. 湖南师范大学学报1987 , 10 (1) :90 - 96.

[34] 邱咏梅 郑荣泉 李灿阳 等 百草清除草剂对农田生态系统土壤动物群落结构的影响[J ].土壤通报,2006 ,37(5) :976 - 980.

[35]李忠武,王振中,邢协加,等.农药污染对土壤动物群落影响的实验研究[J ]. 环境科学研究, 1999，12 (1 ) :49 - 53.

[36]李斌,董元华,王辉,等.太仓地区有机氯污染农田土壤动物群落结构分析[J ].土壤学报, 2005 , 42(4) :687 - 691.

[37]邢协加，王振中，张友梅 等 杀虫双农药对土壤螨类和弹尾类影响的研究[J ].湖南师范大学自然科学学报,1997 ,20(1) :79 - 84.

[38] 王振中, 张友梅, 夏卫生, 等. 有机磷农药对土壤动物群落结构的影响研究[J]. 生态学报,1996, 16(4) : 357–366.

[39] 王振中, 张友梅, 李忠武, 等. 有机磷农药对土壤动物毒性的影响研究[J]. 应用生态学报,2002, 13(12) : 1663–1667.

[40] 李忠武, 王振中, 邢协加, 等. 有机磷农药污染对金龟子幼虫呼吸强度的影响[J]. 中国环境科学, 1998, 18(4) : 364–367.

[41]章家恩.土壤生物多样性的研究内容及持续利用展望[J].生物多样性,1999,7(2):140–144.

[42 ]佟富春,金哲东,王庆礼,等.长白山北坡土壤动物群落物种共有度的海拔梯度变化[J ].应用生态学报,2003 ,14(10) :1723 - 1728.

[43]董炜华,殷秀琴.小兴安岭白桦林土壤跳虫的动态特征[J ].生态学杂志，2005 ,24(3) :278 - 282.

[44]杨效东,唐建维.西双版纳不同演替状态热带次生林土壤节肢动物群落特征[J ] , 应用生态学报，2004 ,25 (6 ) :988 - 994.

[45]颜绍馗,汪思龙,胡亚林,等.亚热带天然次生常绿阔叶林与杉木人工林土壤动物群落特征比较[J ].应用生态学报,2004 ,15 (10) :1792 -1796。

[46] 易兰,由文辉,宋永昌.天童常绿阔叶林五个演替阶段凋落物中的土壤动物群落[J ].生态学报,2005 ,25(3) :466 - 473.

[47]王振中,张友梅,胡觉莲,等.土壤重金属污染对蚯蚓(Opisthopora)影响的研究[J].环境科学学报,1994,14(2):236–243.

[48] 张永志,徐建民,柯欣,等.重金属Cu污染对土壤动物群落结构的影响[J].农业环境科学学报,2006,25(增刊):127–130.

 2/3   首页 上一页 1 2 3 下一页 尾页