The Biological Indication of Soil Animals to Soil Environment

Abstract

Abstract: The biological indication of soil animals to soil environment has been an issue or subject of general interest of soil ecology around the world. Scholars and researchers at home and abroad have devoted more and more attention to the studies, such as biological indication of soil nematodes to soil environmental fertilizers, pesticides, herbicides and heavy metal pollution, analysis of protozoan to leftover organic pollutants, pesticides and heavy metals, biological indication of species diversities of earthworms to soil environmental pollution, and relationship between composition and density of soil mite species and soil environmental changes, The paper researched on the necessity and importance of the biological indication of soil animals to soil environmental changes.

CLC Number:

S151.94

Xiang Changguo, Yang Shijun, Nie Qin. The Biological Indication of Soil Animals to Soil Environment[J]. Chinese Agricultural Science Bulletin, 2007, 23(4): 364-364.

References

[1] Cole man D C,Crossley D A Jr. Funda mentals of soil ecology[M]. San Diego: Acade mic Press, 1996. 106-107.
[2] Cole man D C,Hendrix P F,Odum E P. Ecosystem health: An overview[M]. SSSA Special Publication, 1998, 52:1-20.
[3] Curry J P, Good J A. Soil faunal degradation and restoration[J]. Advances in Soil Science,1992,17:171-215.
[4] Nageeb Rashed M, Soltan M E. Animal Hair as Biological Indicator for Heavy Metal Pollution in Urban and Rural Areas[J]. Environmental Monitoring and Assessment, 2005,110(1-3):41-53.
[5] Narioka Hajime. Drainbility of macrospores inviolacies ash soils of the Kanto Loam Formations. Soil Science: Confronting New Realities in the 21st century[M]. In the 17th WCSS(World congress of Soil Science) 2002,35 Paper on.480:1-9.
[6] Ritz K, Trudgill D L. Utility of nematode community analysis as an integrated measure of the functional state of soils: Peres perceive and challenges[J]. Plant Soil, 1999,212(1)1-11.
[7] Ingham R E, Trofymow J A. Interaction of bacteria,fungi,and their nematode grazers: Effects of nutrient cycling and plant growth[M]. Ecol Monogr.1995, 55:119-140.
[8] Korthals G W,Ende A,Megen H. Short-term effects of cadmium,copper,nickel and zinc on soil nematodes form different feeding and life-history strategy groups[M]. Appl Soil Ecol, 1996,4:107-117.
[9] Yi Lan,You Wenhui,Song Yongchang.Soil animal communities at five succession stages in the litter of the evergreen broad-leaved forest in Tiantong, China[J]. Frontiers of Biology in China, 2006 1 (2):142-150.
[10] Bonger T. The maturity index: An ecological measure of environ mental disturbance based on nematode species composition[J]. Oecologia, 1990,83:14-19.
[11] Bonger T,Ferris F. Nematode community structure as abioindicator in environ monitoring[J]. Trends Ecol Evol, 1999.14:224-227.
[12] Bongers T,Meulen H,Korthals G W. Inverse relationship bet nematode maturity index and plant parasite index under enriched nutrient conditions[J].Appl Soil Ecol,1997,6:195-199.
[13] Donkin S G, Dusenbery D B. Soil toxicity test using the nematode Caenorhabditis elegans and an effective method of recovery[J]. Arch Environ Contam Toxicol, 1993,25:145-151.
[14] Gyedu Ababio T K, Furstenberg J B, Baird D. Nematodes as indicators of pollution: A case study from the Swartkops Rives system,South Africa[J]. Hydrobiologin. 1999,397:155-169.
[15] Hitchcock D R,Black M C, Williams P L. Investigations into using the nematode Caenorhabditis elegans for municipal and industrial wastewater toxicity testing[J]. Arch Environ Contam Toxicol, 1997,33(3):252-260.
[16] Kammenga J E, Arts M S J, Oude-breuil W J M. HSP-60 as potential biomarker of toxic stress in the nematode Plectus acuminatu[J]s. Arch Environ Contam Toxicol, 1998,34(3):253-258
[17] K. B. Gongal'skii, A.D.Pokarzhevskii, F.A.Savin. Spatial Distribution of Animals and Variation in Their Trophic Activity Measured Using the Bait-Lamina Test in Sod-Podzolic[J]. Soil under a Spruce Forest Russian Journal of Ecology 2003,34(6):395-404
[18] Maek E F, Kate M, Scow S L. Tri chloro etylene and toluene effects on the structure and function of the soil community[J]. Soil Baol Biochem, 1997,29(1(:75-89.
[19] Macrae I C, Vinckx E. Effect of lindane and DDT on populations of protozoa in a garden soil[J]. Soil Biol Biocchem, 2003,5(2):245-247.
[20] 马正学,龚大洁,宁应之.锌矿采矿区土壤污染后对原生动物影响的研究[J].甘肃科学学报,2002,14(3):53-57.
[21] 王霞,胡锋,李辉信,等.秸秆还田情况下蚯蚓活动对稻麦轮作土壤磷素的影响[J].农业环境科学学报,2004,23(2):341-344.
[21] Lee M R,Correa J A,Castilla J C. An assessment of the potential use of the nematode to copepod ratio in the monitoring of metals pollution[J]. Mar Pollu Bull. 2001,42:496-701.
[22] 向昌国,张平究,潘根兴,等.长期不同施肥下太湖地区黄泥土蚯蚓的多样性、蛋白质含量与氨基酸组成的变化[J].生态学报,2006,26(6):1667-1674
[23] Cortez J,Bouche M. Decomposition of mediterranean leaf litters by Nicodrilus meridionalis (Lumbricidae) in laboratory and field experiments[J]. Soil Biology and Biochemistry , 2001,33(15): 2023-2035.
[24] Jongmans A G, Pulleman M M, Marinissen J C Y. Soil structure and earthworm activity in a marine silt loam under pasture versus arable land[J]. Biology and Fertility of Soils, 2001,33(4):279-285.
[25] Wilcox C, Domnguez J, Parmelee R, McCartney D. Soil carbon and nitrogen dynamics in Lumbricus terrestris. Lmiddens in four arable,a pasture and a forest ecosystems[J]. Biology and Fertility of Soils, 2002,33(1)26-34.
[26] Neher D A. Role of nematodes in soil health and their use as indicators[J]. Ne matolo, 2001,33:161-168.
[27] Michael McInerney, Declan J. Effect of earthworm cast formation on the stabilization of organic matter in fine soil fractions[J]. European Journal of Soil Biology, 2001,37(4):251-254.
[28] Esteban R, Derek M ,Timothy J, Peter M, Patrick J, Melany C. Effects of Exotic Earthworms on Soil Phosphorus Cycling in Two Broadleaf Temperate Forests[J]. Ecosystems, 2004,7(1): 28 -44.
[29] 王宗英.九华山土壤螨类的生态分布[J].生态学报, 1996,16(1):58-64.
[30] 张晓玟.北京西郊农田土壤螨类的群落结构及施用农药的影响[J].蛛形学报,1993,2(2):120-125.
[31] 陈国定.应用甲螨监测土壤汞、镉、铜污染[J].南京铁道医学院学报,1991,10(3):138-140.
[32] Freckman D W,Ettema C H. Assessing nematode in agro ecosystems of varying human intervention[J]. Agric Ecosyst Environ, 1993,45:239-261.
[33] Bott T L, Kaplan L A. Potential for protozoan grazing of bacteria in stream beds dements[J]. J N A m Benthos Soc, 1990,9:336-345.
[34] Edwards C A, Coulson J M. Choice of earthworm species for laboratory tests[J]. Interceptpubl: Andover,Hants, U. K, 1992:36-43.
[35] E. V. Mikheeva, O.A. Zhigal'skii, V. P. Mamina. Heavy Metals in the Soil–Plant–Animal System in the Area of Natural Geochemical Anomaly[J]. Russian Journal of Ecology 2003,34(4):281-283
[36] Peter W. Abrahams, J?rg Steigmajer. Soil Ingestion By Sheep Grazing the Metal Enriched Floodplain Soils of Mid-Wales[J] .Environmental Geochemistry and Health .2003,25(1):17-24.
[37] Cornelis A. M. van Gestel, Maaike Kruidenier, Matty P. Berg. Suitability of wheat straw decomposition, cotton strip degradation and bait-lamina feeding tests to determine soil invertebrate activity[J]. Biology and Fertility of Soils.2003 37(2):115-123.