Chinese Journal of Applied Ecology ›› 2002, Vol. ›› Issue (11): 1495-1498.
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SHI Yi, CHEN Xin, SHEN Shanmin
Received:
2001-05-08
Revised:
2002-01-11
CLC Number:
SHI Yi, CHEN Xin, SHEN Shanmin . [J]. Chinese Journal of Applied Ecology, 2002, (11): 1495-1498.
[1] Angers DA, Giroux M.1996.Recently deposited organic matter in soil water-stable aggregates. Soil Sic Soc Am J,60:1547~1551 [2] Angers DA, Recous S, Aita C. 1997. Fate of carbon and nitrogen in water-stable aggregates during decomposition of13C,15N-labelled wheat straw in situ.Eur J Soil Sci,48:295~300 [3] Beare MM,et al.1997.Influences of mycelial fungi on soil aggregation and organic matter storge in convetional and no-tillage soils.Appl Soil Ecol,5(3):211~219 [4] Bethlenfalvay GJ,et al.1997.Plant and soil responses to mycorrhizal fungi and rhizobacteria in nodulated or nitrate-fertilized peas.Biol Fertil Soil,24(2):164~168 [5] Bethlenfalvay GJ,et al.1999. Relationship between soil aggregation and mycorrhizae as influenced by soil biota and nutrition.Biol Fertil Soil,28:356~363 [6] Changey K,et al.1986a.Studies on aggregate stability I.Re-formation of soil aggregates. J Soil Sci,37(2):329~335 [7] Changey K, Swift RS. 1986b. Studies on aggregate stability II.The effect of humic substances on the stability of re-formed soil aggregate.J Soil Sic,37:337~343 [8] Changey K, Swift RS.1990.Stability of soil aggregates in relation organic consituents and soil water content.J Soil Sci,41:73~83 [9] Changey K, Swift RS.1984.The influence of organic matter on aggregate stability in some British soil.J Soil Sci,35:223~230 [10] Chantigny MH,et al.1997.Soil aggregation and fungal bacterial biomass under annual and perennial cropping system.Soil Sci Soc Am J,61:262~267 [11] Chen E-F(陈恩凤).1990.Substances Basic and Control of Soil Fertility.Beijing:Science Press.122~124(in Chinese) [12] Chen E-F(陈恩凤),Guan L-Z(关连珠),Wang J-K(汪景宽),et al. 2001.Compositional proportion of soil characteristic microaggregates and soil fertility evauation.Acta Pedol Sin(土壤学报),38(1):49~53(in Chinese) [13] Degens B,et al.1996.Increasing the lenghth of hyphae in a sandy soil increases the amount of water-stable aggregates.Appl Soil Ecol,3(2):149~159 [14] Degens B, Sparling G. 1996. Changes in aggregation do not correspond with changes in labile organic C fractions in soil amended with14C-glucose,Soil Biol Biochem,28(4-5):453~462 [15] Dinel H,et al.1993.Microbial activity and long-chain aliphatics in the formation of stable soil aggregates.Soil Sci Soc Am J,56:1455~1463 [16] Elliott ET, Coleman DC. 1988. Let the soil work for us.Ecol Bull,39:23~32 [17] Elliott ET.1986.Aggregate structure and carbon, nitrogen, and phosphorus in native and cultivated soils.Soil Sci Soc Am J,50:627~633 [18] Gale VJ,Cambardella CA,Bailey TB.2000.Root-derived carbon and the formation and stabilization of aggregates.Soil Sci Soc Am J,64:202~207 [19] Golchin A, Oades JM, Skjemstad JO,et al.1994. Study of free and occurred particulate organic matter in soils by solid state13C CP/MAS NMR spectroscopy and scanning electron microscopy.Aust J Soil Res,32:285~309 [20] Guggenberger G,et al.1999.Microbial contributions to the aggregation of a cultivated grassland soil amended with starch.Soil Biol Biochem,31:407~419 [21] Gupta VVSR, Germida JJ.1988. Distribution of microbial size classes as affected by cultivation.Soil Biol Biochem,20:77~786 [22] Jastrow JD, Miller RM, Lussenhop J. 1998. Contributions of interacting biological mechanisms to soil aggregate stabilization in restored prairie.Soil Bio Biochem,30(7):905~916 [23] Jastrow JD. 1996. Soil aggregate formation and the accrual of particulate and mineral-associated organic matter.Soil Biol Biochem,28(4-5): 665~676 [24] Jastrow JD, Boutton TW, Miller RM.1996.Carbon dynamics of aggregate associated organic matter estimated by carbon-13 natural abundance.Soil Sci Soc Am J,60:801~807 [25] Kabir Z, Koide RT.2000. The effect of dandelion or a cover crop on mycorrhiza inoculum potential, soil aggregation and yield of maize.Agric Ecosyst Environ,78:167~174 [26] Marinissen JCY. 1994. Earthworm and stability of soil structure-A study in a slit loam soil in a young Dutch polder.Agric Ecosyst Environ,51:75~87 [27] Marinissen JCY, Dexter AR.1990.Mechanisms of stabilization of earthworm casts and artificial casts.Biol Fertil Soil,9:163~167 [28] Marinissen JCY, Didden WAM.1997.Influence of the enchytraeid worm Buchholzia appendiculata on aggregate formation and organic matter decomposition.Soil Biol Biochem,29(3-4):387~390 [29] Marinissen JCY,et al.1996. Dispersion of clay in wet earthworm casts of different soils.Appl Soil Ecol,4:83~92 [30] Marinissen JCY, Hillenaar SI.1997.Earthworm-induced distribution of organic matter in macro-aggregates from differently managed arable fields.Soil Biol Biochem,29(3~4):391~395 [31] Oades JM. 1984. Soil organic matter and structural stability:Mechanisms and implications for management.Plant Soil,76:319~337 [32] Oades JM, Waters AG.1991.Aggregate hierarchy in soil.Aust J Soil Res,29:815~828 [33] Puget P, Chenu C, Balesdent J.1995.Total young organic matter distributions in aggregate of silly cultivated soils.Eur J Soil Sci,46:449~459 [34] Six J.2000.Soil macroaggregate turnover and microaggregate formation:A mechanism for C sequestration under no-tillage agriculture.Soil Biol Biochem,32:2099~2103 [35] Six J, Elliott ET, Paustian K.1999a. Aggregate and soil organic matter dynamics under conventional and no-tillage systems. Soil Soc Sci Am J,63:1350~1358 [36] Six J, Elliott ET, Paustian K,et al.1998.Aggregation and soil organic matter accumulation in cultivated and native grassland soils.Soil Sci Soc Am J,62:1367~1377 [37] Tisdall JM.1994.Possible role of soil micro-organisms in a aggregation in soils.Plant Soil,117:145~153 [38] Tisdall JM,Oades JM.1982.Organic matter and water-stable aggregate in soil.J Soil Sci,33(2):141~163 [39] Wang J-R(王俊儒), Wei Q-F(尉庆丰), Qu D(曲东),et al.1995.Significance of soil polysaccharide in fertility (two).Chin J Soil Sci(土壤通报),26(6):274~275 (in Chinese) [40] Winsome T, McColl JG.1998.Changes in chemistry and aggregation of a California forest soil worked by the earthworm Argilophilus papillifer eisen(megascolecidae).Soil Biol Biochem,30(13):1677~1687 [41] Xuong Y(熊毅).1983.Soil Colloid (Volume one) Matter Basic of Soil Colloid. Beijing:Science Press.290~291(in Chinese) [42] Yan C-S(严昶生). 1988.Soil Fertility Study Method.Beijing:Agricultural Press.29~41(in Chinese) [43] Yin R-L(尹瑞玲).1985.Microorganism and soil aggregate.Adv Pedol(土壤学进展),13(4):24~29 (in Chinese) |
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