Abstract

Abstract: Soil aggregate is the basic unit of soil structure. Its formation is a natural process but influenced severely by human activities,including land utilization,tillage disturbance, manure application, and cropping system. The improvement of soil structure is decided not only by total amount of organic Cinputted into soil, but also by the composition and characteristic of organic matter. Owing to the different composition and characteristic of organic matter, there are different mechanisms for the stability of micro and macro aggregates.

Key words: evergreen broad-leaved forest, recalcitrant organic carbon, Pearl River Delta, urbanization, active organic carbon

CLC Number:

S152.4

SHI Yi, CHEN Xin, SHEN Shanmin . [J]. Chinese Journal of Applied Ecology, 2002, (11): 1491-1494.

References

[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, Samson N, Legeged A.1993.Early change in water-stable aggregation induced by rotation and tillage in a soil under barley production. Can J Soil Sci,73:51～59
[3] Aoyama M,Angers DA,N'Dayegamiye A,et al.2000.Metabolism of13C-labeled glucose in aggregates from soils with manure application. Soil Biol Biochem,32(3):295～300
[4] Aoyama M, Angers DA, N'Dayegamiye A. 1999a. Particulate and mineral associated organic matter in stable aggregates as affected by fertilizer and manure applications.Can J Soil Sci,79:295～302
[5] 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
[6] Beare MH, Hendrix PF, Coleman DC.1994.Water-stable aggregates and organic matter fractions in conventional and no-tillage soils.Soil Sci Soc Am J,58:777～786
[7] Berae MH, Hendrix PF, Coleman DC.1994. Aggregate-protected and unprotected organic matter pools in conventional and no-tillage soils.Soil Sci Soc Am J,58:787～795
[8] Cambardella CA, Elliott ET.1992.Particulate soil organic matter across a grassland cultivation sequence.Soil Sci Sco Am J,56:776～783
[9] Chan KY.1997.Consequences of changes in particulate organic carbon in verticals under pasture and cropping.Soil Sci Soc Am J,61:1376～1382
[10] Changey K,et al.1986a. Studies on aggregate stability I.Re-formation of soil aggregates.J Soil Sci,37(2):329～335
[11] 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 Sci,37:337～343
[12] Changey K, Swift RS.1990.Stability of soil aggregates in relation organic consituents and soil water content.J Soil Sci,41:73～83
[13] 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
[14] Ding R-X(丁瑞兴), Liu S-T(刘树桐).1980.A study on the fertility of black soil after reclamation. Acta Pedol Sin(土壤学报),17(1):20～32 (in Chinese)
[15] Elliott ET.1986.Aggregate structure and carbon, nitrogen,and phosphorus in native and cultivated soils.Soil Sci Soc Am J,50:627～633
[16] Franzluebbers AJ,et al.1996. Determination of microbial biomass and nitrogen mineralization following rewetting of dried soil.Soil Sci Sco Am J,60:1130～1139
[17] Franzluebbers AJ, Arshad MA.1997. Particulate organic carbon content and potental mineralization as affected by tillage and texture.Soil Sci Soc Am J,61:1382～1386
[18] Greorich FG, Ellert BH.1995.Turnover of soil organic matter and storage of corn residue carbon estimated from natural13C abundance.Can J Soil Sci,75:161～167
[19] Guan L-Z(关连珠),Zhang B-Q(张伯泉),Yan L(颜丽).1991.Composition of microaggregate and cementing substances in black soil brown forest soils with different fertility levels.Acta Pedol Sin(土壤学报), 28(3):260～267 (in Chinese)
[20] Haynes RJ, Beare MH.1997.Influence of six crop species on aggregate stability and some labile organic matter fractions.Soil Biol Biochem,29(11～12):1647～1653
[21] Haynes RJ. 1999. Labile organic matter fractions and aggregate stability under short-term, grass-based leys.Soil Biol Biochem,31(13):1821～1830
[22] Haynes RJ, Tregurha R. 1999. Effects of increasing periods intensive arable vegetable production on biological, chemical and physical indices of soil quality.Biol Fertil Soil,28:259～266
[23] Huang B-F(黄不凡).1984. Study of effect of turnover of green-manure and wheat straw into soil on soil fertility I. Effect of green-manure and wheat straw on characteristics of aggregates and organic matter in soil.Acta Pedol Sin(土壤学报),21(2):113～122 (in Chinese)
[24] Jastrow JD, Miller RM, Lussenhop J.1998.Contributions of interacting biological mechanisms to soil aggregate stabilization in restored prairie.Soil Biol Biochem,30(7):905～916
[25] Jastrow JD.1996. Soil aggregate formation and the accrual of particulate and mineral-associated organic matter.Soil Biol Biochem,28(4～5): 665～676
[26] Jiang Y(姜岩), Dou S (窦森).1987. Effect of application on organic materials on the properties of humic substances in organ-mineral complexes of soils.Acta Pedol Sin(土壤学报), 24(2):97～103 (in Chinese)
[27] Li Q-M(李庆民), Yin D-L(尹达龙). 1982. The charateristics of variation of black soil fertility in relation to the properties of soil colloidal complex.Acta Pedol Sin(土壤学报), 19(4):351～359 (in Chinese)
[28] Li Y-Q(李映强),Ceng J-T(曾觉廷). 1991. Change in organic matter and its role in aggregation of paddy soils under different cropping systems.Acta Pedol Sin(土壤学报),28(4):404～409(in Chinese)
[29] Liang Y-H(梁玉衡).1983. Relationship between soil structure and soil fertility.Chin Soil J Sci(土壤通报),(1):30～32(in Chinese)
[30] Martens DA. 2000. Plant residue biochemistry regulates soil carbon cycling and carbon sequestration. Soil Biol Biochem,32(3):361～369
[31] Mbagwu JSC,et al. 1989. Effect of tillage measure on soil aggregate properties.Soil Use Man,5(4):180～187
[32] Ni J-Z(倪进治),Xu J-M(徐建民), Xie Z-M(谢正苗). 2001.Soil light fraction organic matter.Techn Equip Environ Poll Contr,1(2):58～64(in Chinese)
[33] Pardo MT, Giampaolo S, Almendros G. 1997. Effect of cultivation on physical speciation of humic substances and plant nutrients in aggregate fractions of crusting soil from Zimbabwe.Biol Fertil Soil,25:95～102
[34] Puget P, Angers DA, Chenu C. 1999. Nature of carbohydrates associated with water-stable aggregates of two cultivated soils.Soil Biol Biochem,31(1):55～63
[35] Puget P, Chenu C, Balesdent J. 1995. Total young organic matter distributions in aggregate of silly cultivated soils.Eur Soil Sci,46:449～459
[36] Shen H(沈宏), Cao Z-H(曹志洪), Hu Z-Y(胡正义). 1999. Characteristics and e cological effects of the active organic carbon in soil.Chin J Ecol(生态学杂志),18(3):32～38(in Chinese)
[37] Shen S-M(沈善敏).1981. Relationship between stability of soil aggregates and soil nutrients after black soil reclamation.Chin J Soil Sci(土壤通报),2:32～34(in Chinese)
[38] Singh S,Singh JS.1996.Water-stable aggregates and associated organic matter in forest, savanna, and cropland soils of seasonally dry tropical region, India.Biol Fertil Soil,22:76～82
[39] Singh S,Singh JS. 1995. Microbial biomass associated with water-stable aggregates in forest, savanna, and cropland soils of seasonally dry tropical region, India.Biol Fertil Soil,27(8):1027～1033
[40] 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
[41] Six J, Elliott ET, Paustian K, Doran JW. 1998. Aggregation and soil organic matter accumulation in cultivated and native grassland soils.Soil Sci Soc Am J,62:1367～1377
[42] Tisdall JM, Oades JM.1982.Organic matter and water-stable aggregate in soil.J Soil Sci,33(2):141～163
[43] Wander MM, Yang XM. 2000. Influence of tillage on the dynamics of loose-and occluded particulate and humidified organic matter fraction.Soil Biol Biochem,32:1151～1160
[44] 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)
[45] Yao X-L(姚贤良), Yu D-F(于德芬),et al.1985.On the soil structure under intensive farming system I. Effect of organic material and methods of their application on soil structure.Acta Pedol Sin(土壤学报), 22(3):241～249(in Chinese)
[46] Zeng Z-S(曾昭顺), Shen S-M(沈善敏), Qiao Q(乔憔),et al.1980. Actuality of black soil agroecosystem in our country and control approach.Chin J Soil Sci(土壤通报),2:15～20 (in Chinese)
[47] Zhang M-K(章明奎), He Z-L(何振立), Chen G-C(陈国潮),et al.1997. Fromation of water-stable aggregates in red soil as affected by land use.Acta Pedol Sin(土壤学报),34(4):359～366 (in Chinese)

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