果园土壤有机碳及其影响因素的研究进展

摘要/Abstract

摘要： 土壤有机碳库是全球碳循环的重要组成部分,其积累和分解的变化直接影响全球的碳平衡。果园是我国重要的土地利用类型之一,果园面积占我国土地总面积的1.15％。因此,研究果园土壤有机碳的固定过程,对于准确评估我国陆地生态系统的固碳潜力具有重要的科学意义。综述了果园土壤活性有机碳和稳定性有机碳及其不同组分的分离、含量和分配比例的变化,并从气候因子、土壤理化性质、施肥、耕作、地表覆盖、踩踏干扰等因素以及人类干扰活动等方面具体阐述这些因素变化对果园土壤有机碳组分产生的影响,提出果园生态系统土壤有机碳研究存在的问题和今后重点发展方向,并对未来果园生态系统土壤有机碳库研究工作做了进一步的展望。

关键词: 果园, 土壤, 有机碳, 影响因素

Abstract: Soil organic carbon is an important component of the global carbon cycle,and it has direct effects on the global carbon balance.Orchard is an important part of the land use pattern, the area of which accounted for 1.15% of the total land area in China.The research on soil organic carbon sequestration in orchards is an important scientific basis to accurately evaluate carbon sequestration potential of terrestrial ecosystems.This paper reviews the research results on the soil labile and stabile organic carbon, with the focus on the dynamics of their fractions in separation, content and allocation proportion under different land use type.Effects of climatic factors, soil texture, fertilizer, farming, surface cover and human trampling on soil organic carbon pool are analyzed, respectively.Finally, this summary highlights existing problems of soil organic carbon stock on orchard ecosystem and suggests future directions for progress together with some future topics for research.

Key words: orchard, soil, organic carbon, impact factors

中图分类号:

S 153.6

王义祥, 翁伯琦, 邢世和, 黄毅斌. 果园土壤有机碳及其影响因素的研究进展[J]. 福建农业学报, 2011, 26(6): 1113-1122.

WANG Yi-xiang, WENG Bo-qi, XING Shi-he, HUANG Yi-bin. Advance in Soil Organic Carbon Stock and the Impact factors on Orchard Ecosystem Research[J]. Fujian Journal of Agricultural Sciences, 2011, 26(6): 1113-1122.

参考文献

[1] SOFO A, NUZZO V, PALESE A M, et al. Net CO₂ storage in mediterranean olive and peach orchards[J]. Scientia Horticulturae, 2005, 107: 17-24.

[2] 甘卓亭, 张掌权, 陈静, 等. 黄土塬区苹果园土壤有机碳分布特征[J]. 生态学报, 2010, 30(8):2135-2140.

[3] 王义祥, 吴志丹, 翁伯琦, 等. 翻耕和生草对果园土壤碳排放的影响[J]. 中国农业气象, 2010, 31(S): 20-22.

[4] SIELE M P, MUBYANA T, BONYONGO M C. The effects of soil cover on soil respiration and microbial population in the Mopane woodland of North Western Botswana[J]. Dynamic Soil, Dynamic Plant, 2002, 2(2): 61-68.

[5] 王义祥, 吴志丹, 翁伯琦, 等. 福州郊区7年生柑橘果园植被的碳吸存研究[J]. 亚热带资源与环境学报, 2010, 5(3): 43-48.

[6] MAO Z J. Summary of estimation methods and research advances of the carbon balance of forest ecosystems[J]. Acta Phytoecologica Sinica, 2002, 26:731-738.

[7] GROSSMAN, Y L, DEJONG T M. Training and pruning system effects on vegetative growth potential, light interception and cropping efficiency in peach trees[J]. Journal of the American Society for Horticultural Science, 1998, 123 (6):1058-1064.

[8] ROBERTSON G P, PAUL E A, HARWOOD R R. Greenhouse gases in intensive agriculture, contributions of individual gases to the radiative forcing of the atmosphere[J]. Science, 2000, 289 (5486):1922-1925.

[9] JANSSENS I A, FREIEBAUER A, CIAIS P, et al. Europe's terrestrial biosphere absorbs 7% to 12% of European anthropogenic CO₂ emissions[J]. Science, 2003, 300:1538-1542.

[10] ANWAR G, ALEC M, BRENT C, et al. A literature review of soil carbon under pasture, horticulture and arable land uses[M]. The Agricultural and Marketing Research and Development Trust, 2009: 45.

[11] JONES R J A, HEIDERER R, RUSCO E, et al. Estimating organic carbon in soils for policy support[J]. European Journal of Soil Science, 2005, 56:655-671.

[12] RAHMAN M H, ALLISTER W, HOLMES A W, et al. Carbon sequestration in kiwifruit soils of New Zealand // 2010 19th World Congress of Soil Science, Soil Solutions for a Changing World, 2010:66-69.

[13] 姜远茂,彭福田,张宏彦, 等. 山东省苹果园土壤有机质及养分状况研究[J]. 土壤通报, 2001, 32(4): 167-169.

[14] 杨世琦,张爱平,杨正礼, 等. 黄土高原果园土壤有机质变化趋势分析-以陕西省为例[J]. 水土保持研究, 2009, 16(1): 27-31.

[15] 杨长明, 欧阳竹. 华北平原农业土地利用方式对土壤水稳性团聚体分布特征及其有机碳含量的影响[J].土壤, 2008,40(1): 100-105.

[16] 王小利, 郭胜利, 马玉, 等. 黄土丘陵区小流域土地利用对土壤有机碳和全氮的影响[J].应用生态学报, 2007,18(6): 1281-1285.

[17] Dalai R C,Chan K Y.Soil organic matter in rainfed cropping systems of the Australian cereal belt[J]. Australian Journal of Soil Research, 2001, 39: 435-464.

[18] 杨丽霞, 潘剑君. 土壤活性有机碳库测定方法研究进展[J]. 土壤通报, 2004, 35 (4): 502-506.

[19] PARTON W J, SCHIMEL D S, COLE C V, et a1. Analysis of factors controlling soil organic matter level in Great Plains Grasslands[J]. Soil Science Society of America Journal, 1987, 51: 1173-1179.

[20] QUALLS RG, HAINES RL. Geochemistry of dissolved organic nutrients in water percolating through a forest ecosystem[J]. Soil Science Society of America Journal, 1991, 55: 1112-1123.

[21] 柳敏, 宇万太, 姜子绍, 等. 土壤活性有机碳[J]. 生态学杂志, 2006, 25(11): 1412-1417.

[22] SKJEMSTAD JO,LEFEUVRE RP,PREBBLE RE.Turnover of soil organic matter under pasture as determined by ¹³C natural abundance[J].Australian Journal of Soil Research,1990,28:267-276.

[23] CAMBARDELLA CA,ELLIOT ET.Carbon and nitrogen distribution in aggregates from cultivated and native grassland soils[J]. Soil Science Society of America Journal,1992,57:1071-1076.

[24] ANDERSON TH, DOMSCH KH. Application of eco-phusiological quotients on microbial biomassses from soils of different cropping histories[J]. Soil Biology & Biochemistry, 1990, 22: 251-255.

[25] WALKER B,WILL S. A synthesis of GCTE and related research[M].IGBP Science No 1, Stockholm, Sweden, 1997, 1-32.

[26] POWLSON D S. Why evaluate soil organic matter models?//In:Powlson D S,Smith J U, eds. Evaluation of Soil Organic mater Models. Berlin, Heidelberg: Springer-Verlag, 1996:3-11.

[27] 王岩,沈其荣,史瑞和, 等. 土壤微生物量及其生态效应[J]. 南京农业大学学报, 1996,19(4): 45-51.

[28] MOORE TR, SOUZA WD, KOPRIVNJAK JF. Controls on the sorption of dissolved organic carbon by soils[J]. Soil Science, 1992, 2: 120-129.

[29] BLAIR GJ, LEFROY RDB, LISLE L. Labile soil carbon fractions based on the degree of oxidaton and the development of a carbon management index for agricultural systems[J]. Australian Journal of Agricultural Research, 1995, 46: 1459-1466.

[30] MCDOWELL WH, LIKENS GE. Origin, composition and flux of disssolved organic carbon in the Hubbard Brook Vaklley[J]. Ecology, 1988, 58: 177-195.

[31] 杨长明, 欧阳竹, 杨林章, 等. 农业土地利用方式对华北平原土壤有机碳组分和团聚体稳定性的影响[J]. 生态学报, 2006, 26(12): 4148-4155.

[32] WANG Y, HSIEH Y P. Uncertainties and novel prospects in the study of the soil carbon dynamics[J]. Chemosphere, 2002, 49: 791-804.

[33] TRUMBORE S E. Potential responses of soil organic carbon to global environmental Change[J]. Proceedings of the National Academy of Sciences of the United States, 1997, 94: 8284-8291.

[34] 衡利沙,王代长,蒋新, 等. 黄棕壤铁铝氧化物与土壤稳定性有机碳和氮的关系[J]. 环境科学, 2010, 31(11): 2748-2755.

[35] TAN Z X,LAL R,LZAURALDE R C,et a1.Biochemically protected soil organic carbon at the north Appalachian experimental watershed[J]. Soil Science,2004,169:423-433.

[36] KRNLL E S,BALDOCK J A,SKJEMSTAD J O.Importance of mechanisms and pmcesses of the stabilization of soil organic matter for modelling carbon turnover[J].Functional Plant Biology,2003,30:207-222.

[37] 张文菊, 彭佩钦, 童成立. 洞庭湖湿地有机碳垂直分布与组成特征[J]. 环境科学, 2005, 26(3): 56-60.

[38] CHRISTENSEN B T. Physical fractionation of soil and structural and functional complexity in organic matter turnover[J]. European Journal of Soil Science, 2001, 52: 345-353.

[39] SIX J, CONANT R T, PUAL E A, et al. Stabilization mechanisms of soil organic matter: Implications for C-saturation of soils[J]. Plant Soil, 2002, 241: 155-176.

[40] FELER C,BEARE M H.Physical control of soil organic matter dynamics in the tropics[J].Geoderma,1997,79:69-116.

[41] DE-GRYZE S,SIX J,MERCKX R.Quantifying water-stable soil aggregate turnover and its implication for soil organic matter dynamics in a model study[J].European Journal of Soil Science,2006,57:693-707.

[42] BECKER H P, SCHARPENSEEL H W. Studies of soil organic matter dynamics using natural carbon isotopes[J]. Science of the Total Environment, 1992, 117: 305-312.

[43] TATE K R., PARSHOTAIN A, ROSS D J. Soil carbon storage and turnover in temperate forests and grasslands - a New Zealand perspective[J]. Journal of Biogeography, 1995, 22: 695-700.

[44] THENG B K G, TATE K R, BECKER H P. Towards establishing the age, location, and identity of the inert soil organic matter of a spodosol[J]. ZPflanzenernaehr Bodenkd, 1991, 155: 181-184.

[45] TRUMBORE S E. Comparison of carbon dynamics in tropical and temperate soils using radiocarbon measurements[J]. Global Biogeochem. Cycles, 1993, 7: 275-290.

[46] PARFITT P R, THENG B K G , WHITTON J S, et al. Effects of clay minerals and land use on organic matter pools[J]. Geoderma, 1997, 75: 1-12.

[47] FALLOON P D, SMITH P. Modeling refractory soil organic matter[J]. Biology and Fertility of Soils, 2000, 30: 388-398.

[48] DAVIDSON E A, TRUMBORE S E, AMUNDSON R. Soil wanning and organic carbon content[J]. Nature, 2000, 408(14): 789-790.

[49] 李甜甜, 季宏兵, 孙媛媛, 等. 我国土壤有机碳储量及影响因素研究进展[J]. 首都师范大学学报:自然科学版, 2007, 28(1): 93-97.

[50] DATAL R C, PROBERT M E.Soil nutrient depletion//In:Clarke A.L.,Wylie P.B.eds.Sustainable crop production in the subtropics:an Australian perspective.Department of Primary Industries: Brisbane, Qld, 1997:42-63.

[51] HOMANN P S, KAPCHINSKE J, BOYCE A. Relations of mineral-soil C and N to climate and texture:regional differences within the conterminous USA[J]. Biogeochemistry, 2007,85(3); 303-3l6.

[52] DAI W H, HUANG Y. Relation of soil organic matter concentration to climate and altitude in zonal soils of China[J]. Catena, 2006, 65: 87-95.

[53] 黄耀, 刘世良, 沈其荣, 等. 环境因子对农业土壤有机碳分解的影响[J]. 应用生态学报, 2002, 13(6): 709-714.

[54] 高鲁鹏, 梁文举. 气候变化对黑土有机碳库影响模拟研究[J].辽宁工程技术大学学报, 2005, 2(24): 288-291.

[55] DALAI R C.Soil microbial biomass what do the numbers really mean?[J]. Australian Journal of Soil Research, 1998, 38: 649-665.

[56] 黄昌勇. 土壤学[M]. 北京: 中国农业出版社,2000.

[57] JOBBAGY E G,JACKSON R B.The vertical distribution of soil organic carbon and its relation to climate and vegetation[J].Ecological Applications,2000,10: 423-436.

[58] AYANABA A,JENKINSON D S.Decomposition of carbon-14 labeled ryegrass and maize under tropical conditions[J].Soil Science Society of America Journal,1990,54:112-115.

[59] NICHOLS J D.Relation of organic carbon to soil properties and climate in the southern great plain[J].Soil Science Society of America Journal,1984,48:1382-1384.

[60] JEFFRERY SK,DAVID PT,DODSON R F.Spatial patternsin soil organic carbon pool size in the Noi-hwestem United States//Soil Processes and the Carbon Cycle.Boca Raton:CRC Press,1997:29-44.

[61] LIANG B C,GREGORICH E G,MACKENZIE A F,et a1.Retention and turnover of corn residue carbon in some Eastern Canadian soils[J].Soil Science Society of Americd Journal,1998,62(5):1361-1366.

[62] SKJEMSTAD J O,DALAI R C,JANIK L J,et a1.Changes in chemical nature of soil organic carbon in Vertisols under cereal cropping in southern Queensland.Australian[J].Journal of Soil Research, 2001, 39: 343-359.

[63] BAYER C,MARTIN N L,MIELNICZUK J,et a1.Changes in Soil Organic Matter Fractions under Subtropical No-Till Cropping Systems[J]. Soil Science Society of America Journal,2001,65:1473-1478.

[64] WISEMAN C L S.PUTTMARM W.Soil organic carbon and its sorptive preservation in central Germany[J].European Journal of Soil Science,2005,56:65-76.

[65] MIKUTTA R,KLEBER M,TORN M S,et a1.Stabilization of soil organic matter:association with minerals or chemical recalcitrance?[J]. Biogeochemistry,2006,77: 25-56.

[66] STUART G A,PORTER G A,ERICH M S.Organic amendment and rotation crop effects on the recovery of soil organic matter and aggregation in potato cropping systems[J].Soil Science Society of America Journal, 2002, 66: 1311-1319.

[67] GOVI M, FRANCIOSO O, CIAVATTA C, et al. Influence of long-term residue and fertilizer applications on soil humic substances: A study by electrofocusing[J]. Soil Science, 1992, 154(1): 8-13.

[68] JENKINSON D S, FOX R H, RAYNER J H. Interctions between fertilizer nitrogen and soil nitrogen-the so-called 'priming' effect[J]. Journal of Soil Science, 1985, 36: 425-444.

[69] 王峰.不同施肥模式对柑橘果园土壤有机碳稳定性的影响. 福州:福建农林大学硕士论文, 2010.

[70] SARA G. D, RAUL Z, áNGEL F. Carbon dynamics in an almond orchard soil amended with raw and treated pig slurry. Geophysical Research Abstracts, 2010, 12: 1199.

[71] ALTIERI R, ESPOSITO A. Olive orchard amended with two experimental olive mill wastes mixtures: Effects on soil organic carbon, plant growth and yield[J]. Bioresource Technology, 2008, 99(17): 8390-8393.

[72] 徐培智, 解开治, 陈建生, 等. 南方酸性旱坡地桔园有机无机肥料配合施用效应研究[J]. 植物营养与肥料学报, 2010,16(3): 650-655.

[73] 王义祥. 不同经营措施下果园土壤有机碳库特性及固碳潜力研究.福州: 福建农林大学博士论文, 2011.

[74] 王艳萍, 高吉喜, 冯朝阳, 等. 北京京郊果园施用不同农肥的土壤呼吸特征研究[J]. 浙江大学学报:农业与生命科学版, 2009, 35 (1): 77-83.

[75] 安婷婷, 汪景宽, 李双异, 等. 施用有机肥对黑土团聚体有机碳的影响[J].应用生态学报, 2008, 19(2): 369-373.

[76] HADRIAN FC, GERARDO SBV, HOWARD CL. Mulch effects on rainfall interception, soil physical characteristics and temperature under Zea mays L[J]. Soil and Tillage Research, 2006, 91: 227-235.

[77] 张义, 谢永生, 郝明德, 等. 不同地表覆盖方式对苹果园土壤性状及果树生长和产量的影响[J]. 应用生态学报, 2010, 21(2): 279-286.

[78] SANCHEZ JE, WILLSON TC, HARWOOD RR, et al. Orchard floor and nitrogen management influences soil and water quality and tart cherry yields[J]. Journal of the American Society for Horticultural Science, 2003, 128(2): 277-284.

[79] 焦蕊, 赵同生, 贺丽敏, 等. 自然生草和有机物覆盖对苹果园土壤微生物和有机质含量的影响[J]. 河北农业科学, 2008, 12 (12): 29-30, 48.

[80] 钟羡芳, 张有利, 陈光水, 等. 稻草覆盖对荔枝果园土壤易变碳含量的影响//福建省水土保持学会2006年学术年会论文集, 2006.

[81] HEMANDEZ RM, LOPEZ D. Microbial biomass, mineral nitrogen and carbon content in savanna soil aggregates under conventional and no-tillage[J]. Soil Biology and Biochemistry, 2002, 34:1563-1570.

[82] FERAUGE M T H. Phosphate nutrition of fruit trees-Effect of cover crop on orchard soil[J].Soil Fertilizer AGRI Digest,1969,16:3-11.

[83] HAYNES R J, GOB K M.Some effects of orchard soil management on sward composition.levels of available nutrients in the soil and leaf nutrient content of nature Golden Delicious apple trees[J]. Scientia Horticulturae, 1980, 13:15-25.

[84] 谢瑾岚,龙桂芝.丘陵红壤橘园绿肥覆盖改土效应研究[J].湖南农业科学,1990,(5): 38-40.

[85] MIKULAS J. Controlled natural green cover in vineyard on sandy soil[J]. Obstbau-Weinbau, 1996, 33: 7-8,205-206.

[86] 王燕飞. 不同生草物料对果园土壤有机质数量和质量的影响.福州:福建农林大学硕士论文, 2009.

[87] WANG Y X, WENG B Q,WU Z D,et al.Effects of orchard green covering on accumulation and emission of soil organic carbon.2008 Joint Meeting of the International Grassland Congress and the International Rangeland Congress.A8.

[88] 王义祥, 王峰, 翁伯琦, 等. 果园生草模式土壤固碳潜力研究——以福建省为例[J]. 亚热带农业研究, 2010, 6(3): 189-192.

[89] 张金波,宋长春.土壤利用方式对土壤碳库影响的敏感性评价指标[J].生态环境,2003,12(4):500-504.

[90] AGUILAR R E,KELLY F,HEI R D.Effects of cultivation on soils in northern great plains range land[J].Soil Science Society of America Journal, 1988, 52: 1081-1085.

[91] GOAMEZA J A, GIRAALDEZB J V, PASTORC M, et al. Effects of tillage method on soil physical properties, infiltration and yield in an olive orchard[J]. Soil & Tillage Research, 1999, 52: 167-175.

[92] 高茂盛, 薛少平, 廖允成, 等. 手扶拖拉机专用深松机果园试验[J]. 农业机械学报, 2010,41(10):35-39,62.

[93] YANG Y S, WANG H, TANG J J, et al. Effects of weed management practices on orchard soil biological and fertility properties in southeastern China[J]. Soil and Tillage Research, 2007, 93(1): 179-185.

[94] LAL R. Carbon emission from farm operations[J]. Environment International, 2004, 30: 981-990.

[95] FOLLETT R F. Soil management concepts and carbon sequestration in cropland soils[J]. Soil Tillage Res, 2001, 61: 77-92.

[96] REICOSKY D C, REEVES D W, PRIOR H H, et al. Effects of residue management and controlled traffic on carbon dioxide and water loss[J]. Soil& Tillage Research, 1999, 52: 153-165.

[97] 黄承才, 葛滢, 常杰. 人为扰动对森林生态系统土壤呼吸的影响[J]. 浙江林业科技, 1999, 19(4): 18-21.

[98] 谭周进, 戴素明, 谢桂先, 等.旅游踩踏对土壤微生物生物量碳、氮、磷的影响[J].环境科学学报, 2006, 26(11): 1921-1926.

[99] SANTRUCKOVA H, HEINEMEYER O, KAISER EA. The influence of soil compaction Oon microbial biomass and organic-carbon turnover in microaggregates and macroaggregates[J]. Geoderma, 1993, 56: 587-598.

[100] DEURER M, GRINEV D, YOUNG I, et al. The impact of orchard management on macro-pore topology and function// 2010 19th World Congress of Soil Science, Soil Solutions for a Changing World, 2010:102-105.

[101] CAKIR M, MAKINECI E, KUMBASLI M. Comparative study on soil properties in a picnic and undisturbed area of Belgrad Forest, Istanbul[J]. Journal of Environmental Biology, 2010, 31(1-2):125-128.

[102] LUCAS-BORJA M E, BASTIDA F, MORENO J L, et al. The effects of human trampling on the microbiological properties of soil and vegetation in mediterranean mountain areas[J]. Land Degradation & Development, 2011, 22(4): 383-394.

[103] 庞学勇, 丁建林, 吴福忠, 等. 避灾露营对城市公共绿地土壤呼吸的短期影响[J]. 生态学报, 2008, 28(12): 5884-5891.

[104] 何娜,王立海, 孟春. 压实对落叶松人工林夏季土壤呼吸日变化的影响[J]. 应用生态学报, 2010,21(12): 3070-3076.