PDF Download

[1]SHANG Yingni,ZHAO Shiwei,WANG Zilong,et al.Relationship of Soil Structures and Functions Under Vegetation Restoration[J].Research of Soil and Water Conservation,2016,23(05):370-375.

Copy

Relationship of Soil Structures and Functions Under Vegetation Restoration

Research of Soil and Water Conservation[ISSN 1005-3409/CN 61-1272/P] Volume: 23 Number of periods: 2016 05 Page number: 370-375 Column: Public date: 2016-10-28

Title:: Relationship of Soil Structures and Functions Under Vegetation Restoration

Author(s):: SHANG Yingni¹, ZHAO Shiwei^1,2, WANG Zilong², HUANG Jinghua², HUO Na¹, CHANG Wenqian¹; 1. College of Natural Resources and Environment, Northwest A & F University, Yangling, Shaanxi 712100, China;
2. Institute of Soil and Water Conservation, CAS & MWR, Yangling, Shaanxi 712100, China

Keywords:: soil structure; pore characteristics; soil function; soil reservoir; soil carbon pool

CLC:: S152.4

DOI:: -

Abstract:: Through consulting literature about soil structures and functions, we reviewed the research progress in soil structures and functions, soil structure stability indicators and research methods of soil structure, discussed the relationships between soil structure and the soil functions of crop production, soil reservoir, soil carbon pool and soil gene pool, and presented the prospects of developing confocal laser scanning technology in the analysis of the soil structure and pore characteristics, applying digital image processing techniques to reflect the real situation of the soil porosity and strengthening the research about the quantitative relationship between soil structure and function in the future.

References:: [1] Amézketa E. Soil aggregate stability:a review[J]. Sustain. Agric.,1999,14(2):83-151.
[2] Dexter A R. Advances in characterization of soil structure[J]. Soil Till. Res.,1988,11(3/4):199-238.
[3] 彭新华,张斌,赵其国.土壤有机碳库与土壤结构稳定性关系的研究进展[J].土壤学报,2004,41(4):618-623.
[4] 赵其国等.中国东部红壤地区土壤退化的时空变化、机理及调控[M].北京:科学出版社,2002.
[5] 蒋端生,曾希柏,张杨珠,等.土壤质量管理:土壤功能和土壤质量[J].湖南农业科学,2008(5):86-89.
[6] FAO. World soil charter[M]. Rome:Food and Agricultural Organization of the United Nations,1982.
[7] 吴贻忠,李保国.土壤学[M].北京:中国农业出版社,2006.
[8] 孙波,解宪丽.全球变化下土壤功能演变的响应与反馈[J].地球科学进展,2005,20(8):903-909.
[9] 赵其国,孙波,张桃林.土壤质量与持续环境I.土壤质量的定义及评价方法[J].土壤,1997,29(3):113-120.
[10] European Commission. Towards a thematic strategy for soil protection[C]//Communication from the Commission to the Council, the European Parliament, the Economic and Social Committee and the Committee of the Regions. Commission of the European Communities, Brussels,2002.
[11] Thompson T R E, Truckell I. Protecting Hampshire’s Soils:Development of a soil function-based methodology[C]. NSRI Project TF1018V, 2005.
[12] Commission of the European Communitties. Directive of the European Parliament and of the Council, establishing a framework for the protection of soil and amending[M]. Directive2004/35/EC, Brussels, 2006.
[13] 姜明,吕宪国,杨青.湿地土壤及其环境功能评价体系[J].湿地科学,2006,4(3):168-173.
[14] 崔巍,李伟,张曼胤,等.湿地土壤生态功能研究概述[J].中国农学通报,2011,27(20):203-207.
[15] 何跃,张甘霖,杨金玲,等.城市化过程中黑碳的土壤记录及其环境指示意义[J].环境科学,2007,28(10):2369-2374.
[16] 梁思源,吴克宁.土壤功能评价指标解译[J].土壤通报,2013,44(5):1035-1040.
[17] 祁迎春,王益权,刘军,等.不同土地利用方式土壤团聚体组成及几种团聚体稳定性指标的比较[J].农业工程学报,2011,27(1):340-347.
[18] Van Bavel C H M. Mean weight-diameter of soil aggregates as a statistical index of aggregation[J]. Soil Science Society of America Journal,1949(14):20-23.
[19] Gardner W R. Representation of soil aggregate-size distribution by a logarithmic-normal distribution[J]. Soil Science Society of America Proceedings,1956(20):151-153.
[20] 赵世伟,苏静,杨永辉.宁南黄土丘陵区植被恢复对土壤团聚体稳定性的影响[J].水土保持研究,2005,12(3):27-28,69.
[21] 孙天聪,李世清,邵明安.半湿润区长期施肥对土壤结构体分形特征的影响[J].植物营养与肥料学报,2007,13(3):417-422.
[22] 周虎,吕贻忠,杨志臣,等.保护性耕作对华北平原土壤团聚体特征的影响[J].中国农业科学,2007,40(9):1973-1979.
[23] Peyton R L, Gantzer C J, Anderson S H, et al. Fractal dimension to describe soil macropore structure using X-ray computed-tomography[J]. Water Resources Res.,1994,30(3):691-700.
[24] Sander T, Gerke H H, Rogasik H. Assessment of Chinese paddy-soil structure using X-ray computed tomography[J]. Geoderma,2008,145(3):303-314.
[25] Udawatta R R, Anderson S H, Gantzer C J, et al. Influence of prairie restoration on CT-measured soil pore characteristics[J]. J. Environ. Qual.,2008,37(1):219-228
[26] Zeng Y, Gantzer C J, Payton R L, et al. Fractal dimension and lacunarity of bulk density determined with X-ray computed tomography[J]. Soil Sci. Soc. Am. J.,1996,60(6):1718-1724.
[27] 吴华山,陈效民,陈粲.利用CT扫描技术对太湖地区主要水稻土中大孔隙的研究[J].水土保持学报,2007,21(2):175-178.
[28] 冯杰,郝振纯.CT扫描确定土壤大孔隙分布[J].水科学进展,2002,13(5):611-617.
[29] Rachman A, Anderson S H, Gantzer C J. Computed-tomographic measurement of soil macroporosity parameters as affected by stiff-stemmed grass hedges[J]. Soil Sci. Soc. Am. J.,2005,69(5):1609-1616.
[30] Zhao S W, Zhao Y G, Wu J S. Quantitative analysis of soil pores under natural vegetation successions on the Loess Plateau[J]. Sci. China Earth Sci.,2010,40(2):223-231.
[31] 朱兆龙,何东健,李敏通.一种土壤团聚体稳定性评估系统[J].中国科学:信息科学,2010(S1):152-159.
[32] Zhu Z L, Minasny B, Field D J. Measurement of aggregate bond energy using ultrasonic dispersion[J]. European Journal of Soil Science,2009,60(4):695-705.
[33] Blum W E H, Santelises A A. A concept of sustainability and resilience based on soil function[C]//Greenland D J, Szabolcs I. Soil Resilience and Sustainable Land Use. Wallingford U K:CAB International,1994.
[34] 林大义.土壤学试验指导[M].北京:中国林业出版社,2004:70-72.
[35] 章明奎,何振立,陈国潮,等.利用方式对红壤水稳性团聚体形成的影响[J].土壤学报,1997,34(4):359-366.
[36] 史弈,陈欣,沈善敏.土壤团聚体的稳定机制及人类活动的影响[J].应用生态学报,2002,13(11):1491-1494.
[37] Puget P, Chenu C, Balesden t J. Dynamics of soil organic matter associated with particle-size fractions of water-stable aggregates[J]. European Journal of Soil Science,2000,51(4):595-605.
[38] 朱显谟.黄土高原土地的国土政治问题[J].水土保持学报1984,4(4):1-4.
[39] 刘春利,邵明安.黄土高原六道沟流域不同土地利用方式下土壤水力特性及其对土壤水分的影响[J].应用生态学报,2008,19(11):2400-2407.
[40] 蒋定生,黄国俊.黄土高原土壤入渗速率的研究[J].土壤学报,1986(4):299-305.
[41] 勃海锋,刘国彬,王国梁.黄土丘陵区退耕地植被恢复过程中土壤入渗特征的变化[J].水土保持通报,2007,27(3):1-5.
[42] 赵世伟,周印东,吴金水.子午岭次生植被下土壤蓄水性能及有效性研究[J].西北植物学报,2003,23(8):1389-1392.
[43] 刘娜娜,赵世伟,王恒俊.黄土丘陵沟壑区人工柠条林土壤水分物理性质变化研究[J].水土保持通报,2006,26(3):15-17.
[44] 刘娜娜,赵世伟,杨永辉,等.云雾山封育草原对表土持水性的影响[J].草地学报,2006,14(4):338-342.
[45] 杨永辉,赵世伟,雷廷武,等.宁南黄土丘陵区不同植被下土壤入渗性能[J].应用生态学报,2008,19(5):1040-1045.
[46] Lal R. World soils and greenhouse effect. IGBP Global Change Newsletter,1999(37):4-5.
[47] 彭少麟,李跃林,任海,等.全球变化条件下的土壤呼吸效应.地球科学进展[J],2002,17(5):705-713.
[48] 王发刚,王启基,王文颖,等.土壤有机碳研究进展[J].草业科学,2008,25(2):48-54.
[49] Six J, Elliott ET, Paustian K. Soil macroaggregate turnover and macroaggregate formation:a mechanism for C sequestration under no-tillage agriculture[J]. Soil Biology&Biochemistry,2000,32(14):2099-2103.
[50] 潘根兴,赵其国.我国农田土壤碳库演变研究:全球变化和国家粮食安全[J].地球科学进展,2005,20(4):384-393.
[51] Johnston M H, Homann P S, Engstrom J K, Grigal D F. Changes in ecosystem carbon storage over40 years on an old-field/forest landscape in east-central Minnesota[J]. Forest Ecology and Management,1996,83(1/2):17-26.
[52] Conant R T, Paustian K, Elliott E T. Grassland management and conversion into grassland:Effects on soil carbon[J]. Ecological Applications,2001,11(2):343-355.
[53] Guo L B, Gifford R M. Soil carbon stocks and land use change:a meta-analysis[J]. Global Change Biology,2002,8(4):345-360.
[54] 华娟.宁南山区植被恢复的土壤碳库特征及固碳机制研究[D].北京:中国科学院研究生院,2009.
[55] 吴庆标,王效科,段晓男,等.中国森林生态系统植被固碳现状和潜力[J].生态学报,2008,28(2):517-524.
[56] 郭然,王效科,逯非,等.中国草地土壤生态系统固碳现状和潜力[J].生态学报,2008,28(2):862-867.
[57] 段晓男,王效科,逯非,等.中国湿地生态系统固碳现状和潜力[J].生态学报,2008,28(2):463-469.
[58] 韩冰,王效科,逯非,等.中国农田土壤生态系统固碳现状和潜力[J].生态学报,2008,28(2):612-619.

Similar References:

Memo

Last Update: 1900-01-01