农业生态系统可溶性有机氮研究进展

杨庆; 钟珍梅; 翁伯琦

doi:10.19303/j.issn.1008-0384.2015.12.017

农业生态系统可溶性有机氮研究进展

doi: 10.19303/j.issn.1008-0384.2015.12.017

1. 福建农林大学资源与环境学院,福建福州,350002;
2. 福建省农业科学院农业生态研究所,福建福州,350003

基金项目:

2011BAD17B02)

福建省科技计划项目——省属公益类科研院所基本科研专项(2014R1017-7)

福建省水土保持重大专项(2012NZ0002)

国家科技支撑计划项目(2012BAD14B15

详细信息

作者简介:
杨庆(1989-),男,硕士,研究方向:土壤学(E-mail:780306299@qq.com);翁伯琦(1957-),男,博士,研究员,研究方向:生态农业技术与生态经济理论(E-mail:wengboqi@163.com)

中图分类号: S181;S153.6
计量
- 文章访问数: 94
- HTML全文浏览量: 23
- PDF下载量: 0
- 被引次数: 0
出版历程
- 收稿日期: 2015-09-10
- 刊出日期: 2015-12-18

Research Progress on Soluble Organic Nitrogen in Agricultural Ecosystem

1. College of Resource and Enviromental Science, Fujian Agiculture and Forestry University, Fuzhou, Fujian 350002, China;
2. Agricultural Ecology Institute, Fujian Academy of Agricultural Sciences, Fuzhou, Fujian 350002, China

摘要

摘要: 农业生态系统中,氮素是作物所需的三大营养元素之一。可溶性有机氮(SON)作为土壤氮素的组成部分与其他氮素形式一样,在农业生态系统氮素循环中起着重要作用。本文总结近年来国内外农业生态系统SON的研究成果,综述了农业生态系统土壤中SON的来源、组分、提取方式、含量及其影响因素、季节性动态变化和生态功能等,并对农业生态系统SON日后研究重点进行阐述,为进一步研究提供理论指导。
- 农田生态系统 /
- 可溶性有机氮 /
- 土壤 /
- 氮素
Abstract: In an agricultural ecosystem,nitrogen is one of three essential nutrients required by crops.Soluble organic nitrogen(SON),as a form of soil nitrogen,plays an important role in the nitrogen cycle in an agri-ecosystem.This paper summarizes the recent research results on SON worldwide,as well as the sources,components,extraction methods,contents, factors, seasonal variations, and ecological functions of SON in the ecosystems.Recommendations for future studies and theoretical considerations relating to SON are presented.
- Agricultural ecosystem /
- soluble organic nitrogen /
- soil /
- nitrogen

HTML全文

参考文献(89)

[1]	ZHONG Z K,MAKESCHIN F.Soluble organic nitrogen in temperate forest soils[J].Soil Biology and Biochemistry,2003,35(2):333-338.
[2]	CHEN C R,XU Z H,ZHANG S L,et al.Soluble organic nitrogen pools in forest soils of subtropical Australia[J].Plant and Soil,2005,277:285-297.
[3]	QUALLS R G,HAINES B L.Geochemistry of dissolved organic nutrients in water percolating through a forest ecosystem[J].Soil Sci Soc Am J,1991,52:1112-1123.
[4]	CURRIE W S,ABER J D,MCDOWELL W H,et al.Vertical transport of dissolved organic C and N under long-term N amendments in pine and hardwood forests[J].Biogeochemistry,1996,35(3):471-505.
[5]	MURPHY D V,MACDONALD A J,STOCKDALE E A,et al.Soluble organic nitrogen in agricultural soils[J].Biology and Fertility of Soils,2000,30:374-387.
[6]	HAGEDORN F,BUCHER J B,SCHLEPPI P.Contrasting dynamics of dissolved inorganic and organic nitrogen in soil and surface waters of forested catchments with Gleysols[J].Geoderma,2001,100(1&2):173-192.
[7]	周晓光.有机和常规蔬菜生产系统土壤可溶性氮素的分析比较[D].上海:上海交通大学,2010.
[8]	CHAPMAN P J,WILLIAMS B L,HAEKINS.Influence of temperature and vegetation cover on soluble inorganic and organic nitrogen in a spodosol[J].Soil Biology&Biochemistry,2001,33(7):1113-1121.
[9]	ZSOLNAY A.Dissolved humus in waters.In:Pieeolo A,eds.Humie Substanees in Terrestrial Eeosytems[M].Amsterdam:Elsevier.1996:117-223.
[10]	CASALS P,ROMANYA J,CORTINA J F,et al.Nitrogen supply rate in seots Pine(Pinus sylvestris L.)forests of contrasting slope aspect[J].Plant soil,1995,62(1):167-173.
[11]	JONES D L,KEMMITT S,WRIGHT D,et al.Rapid intrinsic rates of amino acid biodegradation in soils are unaffected by agricultural management strategy[J].Soil Biology and Biochemistry,2005,37(7):1267-1275.
[12]	RABERBK,GEL-KNABNERL,STEINC,et al.Partitioning of paycyclic aromatic hydrocarbons to dissolved organic matter from different soils[J].Chemospher,1999,36:79-97.
[13]	JONES D L,SHANNON D,MURPHY D V,et al.Role of dissolved organic nitrogen(DON)in soil N cycling in grassland soils[J].Soil Biology&Biochemistry,2004,36:749-756.
[14]	李世清,李生秀,杨正亮.不同生态系统土壤氨基酸氮的组成及含量[J].生态学报,2002,22(3):379-386.
[15]	陈水挟,钟月明,王将克.一些土壤样品的氨基酸初步分析[J].中山大学学报:自然科学版,1996,35(6):106-109.
[16]	周克瑜,施书莲.我国几种主要土壤中氮素形态分布及其氨基酸组成[J].土壤,1992,24(6):285-288.
[17]	MURPHY D V,SPARLING Q,FILLERY I.Stratification of microbial biomass C and N and gross N mineralisation with soil depth in two contrasting Western Australian agricultural soils[J].Australian Journal of Soil Research,1998,36(1):45-55.
[18]	BURTON J,CHEN C R,XU Z H,et al.Soluble organic nitrogen pools in adjacent native and plantation forests of subtropical Australia[J].Soil Biology and Biochemistry,2007,39(11):2723-2734.
[19]	JONES D L,WILLETT V B.Experimental evaluation of methods to quantify dissolved organic nitrogen(DON)and dissolved organic carbon(DOC)in soil Soil[J].Biology&Biochemistry,2006,(38):991-999.
[20]	XING S H,CHEN C R,ZHOU B Q,et al.Soil soluble organic nitrogen and active microbial characteristics under adjacent coniferous and broadleaf plantation forests[J].Soils and Sediments,2010,10(4):748-757.
[21]	HUANG C Y,HAO S H,JIEN,et al.Soluble organic C and N and their relationships with soil organic C and N and microbial characteristics in moso bamboo(Phyllostachys edulis)plantations along an elevation gradient in Central Taiwan[J].Soils and Sediments,2014,14(6):1061-1070.
[22]	JIANG Y M,CHEN C R,LIU Y Q,et al.Soil soluble organic carbon and nitrogen pools under mono-and mixed species forest ecosystems in subtropical China[J].Soils and Sediments,2010,10(6):1071-1081.
[23]	VICTORIA B WILLETT,JAMES J GREEN,ANDREW J MACDONALD,et al.Impact of land use on soluble organic nitrogen in soil[J].Water,Air&Soil Pollution,2004,4(6):53-60.
[24]	周碧青,张黎明,毛艳玲,等.不同提取方法下茶园土壤可溶性有机氮含量差异[J].福建农林大学学报:自然科学版,2013,(3):317-322.
[25]	邹玉亮.茶园土壤可溶性有机氮含量及其影响因素的研究[D].杭州:中国农业科学院,2012.
[26]	SONG L C,HAO J M,CUI X Y.Soluble organic nitrogen in forest soils of northeast China[J].Forestry Research,2008,19(1):53-57.
[27]	SMITH S J.Soluble organic nitrogen losses associated with the recovery of mineralized nitrogen[J].Soil Sci Soc Amer J,1987,51:1191-1194.
[28]	MCNEILL A M,SPARLING G P,MURPHY D V,et al.Changes in extractable and icrobial C,N,and P in a western Australian wheatbelt soil following simulated summer rainfall[J].Australian Journal of Soil Research,1998,36:841-854.
[29]	SHEPHERD M,BHOGAL A,BARRETT G,et al.Dissolved organic nitrogen in agricultural soils:effects of sample preparation on measured values[J].Commun Soil Plant Anal,2001,32(9/10):1523-1542.
[30]	张宏威,康凌云,梁斌,等.长期大量施肥增加设施菜田土壤可溶性有机氮淋溶风险[J].农业工程学报,2013,(21):99-107.
[31]	郝晓晖.长期施肥对亚热带稻田土壤有机碳氮及微生物学特性的影响[D].武汉:华中农业大学,2008.
[32]	GERARD H R,ELLIS H,CHRIS V K,et al.Extractable and dissolved soil organic nitrogen-A quantitative assessment[J].Soil Biology&Biochemistry,2009,41:1029-1039.
[33]	杨绒.土壤中可溶性有机氮含量及影响因素研究[D].杨凌:西北农林科技大学,2006.
[34]	SUN L,CHANG S X,FENG Y S,et al.Nitrogen fertilization and tillage reversal affected water-extractable organic carbon and nitrogen differentially in a Black Chernozem and a Gray Luvisol[J].Soil and Tillage Research,2015,146(B):253-260.
[35]	GE T D,NIE S A,HONG Y,et al.Soluble organic nitrogen pools in greenhouse and open field horticultural soils under organic and conventional management:A case study[J].European Journal of Soil Biology,2010,46(6):371-374.
[36]	丁婷婷,王百群,何瑞清,等.施用秸秆对土壤可溶性有机氮及矿质氮的影响[J].水土保持研究,2014,(6):72-77.
[37]	薛菁芳,陈书强,汪景宽.玉米秸秆对棕壤中可溶性无机氮和有机氮的影响[J].黑龙江农业科学,2011,(4):41-45.
[38]	GONET S S,DEBSKA B.Dissolved organic carbon and dissolved nitrogen in soil under different fertilization treatments[J].Plant Soil Environ,2006,52(2):55-63.
[39]	梁斌,周建斌,杨学云,等.栽培和施肥模式对黄土区旱地土壤微生物量及可溶性有碳、氮的影响[J].水土保持学报,2009,(2):132-137,142.
[40]	仇少君,彭佩钦,荣湘民,等.淹水培养条件下土壤微生物生物量碳、氮和可溶性有机碳、氮的动态[J].应用生态学报,2006,(11):2052-2058.
[41]	宋震震,李絮花,李娟,等.有机肥和化肥长期施用对土壤活性有机氮组分及酶活性的影响[J].植物营养与肥料学报,2014,(3):525-533.
[42]	KALBITZ K,GLASER B,BOL R.Clear-cutting of a Norway spruce stand implications for controls on the dy-namics of dissolved organic matter in the forest floor[J].Eur J Soil Sci,2004,55:401-413.
[43]	MCELL W H,CURRIEW S,AHER J D.Effects of chronic nitrogen amendments on production of dissolved organic carbon and nitrogen in forest soils[J].Water air and soil pollution,1998,105:175-182.
[44]	杨绒,周建斌,赵满兴.土壤中可溶性有机氮含量及其影响因素研究[J].土壤通报,2007,(1):15-18.
[45]	游娟.不同果园土壤可溶性有机氮及其季节动态变化研究[D].福州:福建农林大学,2011.
[46]	HUANG W Z,SCHOENAU J J.Fluxes of water-soluble nitrogen and phosphorus in the forest floor and surface mineral soil of a boreal aspen stand[J].Geoderma,1998,81:251-264.
[47]	卢红玲,李世清.SON在评价土壤供氮能力中的作用与效果[J].中国农业科学,2008,41(4):1073-1082.
[48]	阿拉腾希胡日,曾希柏,白玲玉.不同土地利用方式对农田土壤养分含量的影响[J].农业现代化研究,2010,31(4):492-495.
[49]	ZHANG M C,ZHAO A Q,HE Z Q.Distribution and Biodegradability of Water Soluble Organic Carbon and Nitrogen in Subarctic Alaskan Soils Under Three Different Land Uses[M].Applied Manure and Nutrient Chemistry for Sustainable Agriculture and Environment,2014,313-332.
[50]	郗敏,孔范龙,吕宪国.三江平原不同土地利用方式下沟渠沉积物可溶性有机碳含量和分布[J].水土保持学报,2008,22(3):132-135.
[51]	SIEMENS J,KAUPENJOHANN M.Contribution of dissolved organic nitrogen to N leaching from four German agricultural soils[J].Plant Nutr Soil Sci,2002,165:675-681.
[52]	CHRISTOU M,AVRAMIDES E J,ROBERTS J P,et al.Dissolved organic nitrogen in contrasting agricultural ecosystems[J].Soil Biology and Biochemistry,2005,37:1560-1563.
[53]	汪文霞,周建斌,严德翼,等.黄土区不同类型土壤微生物量碳、氮和可溶性有机碳、氮的含量及其关系[J].水土保持学报,2006,(6):103-106,132.
[54]	吕学军,刘庆,陈印平,等.黄河三角洲土地利用方式对土壤可溶性有机碳、氮的影响[J].农业现代化研究,2011,(4):505-508.
[55]	黄靖宇,宋长春,廖玉静.湿地垦殖对土壤微生物量及土壤溶解有机碳、氮的影响[J].环境科学,2008,29(5):1380-1387.
[56]	KHALID M,SOLEMAN N,JONES D L.Grassland plants affect dissolved organic carbon and nitrogen dynamics in soil[J].Soil Biology and Bio chemistry,2007,39(1):378-381.
[57]	梁斌.黄土区不同培肥措施对土壤微生物量和可溶性有机碳氮的影响[D].杨凌:西北农林科技大学,2008.
[58]	WANG X L,YE J,PEREZ P G,et al.The impact oforganic farming on the soluble organic nitrogen pool in horticultural soil under open field and greenhouse conditions:a case study[J].Soil Science and Plant Nutrition,2013,59(2):237-248.
[59]	BHOGAL A,MURPHY D V,FORTUNE S,et al.Distribution of nitrogen pools in the soil profile of undisturbed and reseeded grasslands[J].Biology and Fertility of Soils,2000,30(4),356-362.
[60]	HOLST,JIRKO,BRACKIN,et al.Soluble inorganic and organic nitrogen in two Australian soils under sugarcane cultivation[J].Agriculture,Ecosystems and Environment2012,(155):16-26.
[61]	李晓月,郑险峰,周建斌.不同质地小麦根际土壤有机碳、氮含量及特性研究[J].土壤通报,2012,43(3):610-613.
[62]	赵满兴,KALBITA K,周建斌.黄土区几种土壤培养过程中可溶性有机碳、氮含量及特性的变化[J].土壤学报,2008,(3):476-484.
[63]	葛体达.番茄对有机氮的吸收及土壤可溶性有机氮行为特性研究[D].上海:上海交通大学,2008.
[64]	汤宏,沈健林,张杨珠,等.秸秆还田与水分管理对稻田土壤微生物量碳、氮及溶解性有机碳、氮的影响[J].水土保持学报,2013,(1):240-246.
[65]	KALBITZ K,SOLINGER S,PARK J H,et al.Controls on the dynamics of dissolved organic matter in soils:a review[J].Soil Sci,2000,165:277-304.
[66]	MOORE T R.Dissolved organic carbon:Sources,sinks,and fluxes and role in the soil carbon cycle.In Soil Processes and the Carbon Cycle[M].LAL R,KIMBLE J M,FOLLETT R F,et al.Adv Soil Sci,CRC press,Boca Raton,F L,281-292.
[67]	李亚娟,杨俞娟,张友润,等.水分状况与供氮水平对土壤可溶性氮素形态变化的影响[J].植物营养与肥料学报,2010,(5):1153-1160.
[68]	GUGGENBERGER G,ZECH W.Dissolved organic carbon control in acid forest soils of the Fichtelgebirge(Germany)as revealed by distribution patterns and structural composition analyses[J].Geoderma,1993,59:109-129.
[69]	GUGGENBERGER G,ZECH W,SCHULTEN H R.Formation and mobilization pathways of dissolved organic matter:Evidence from chemical structural studies of organic matter fractions in acid forest floor solutions[J].Org Geochem,1994,21:51-66.
[70]	DAI K H,DAVID M B,VANCE G F.Characterization of solid and dissolved carbon in a spruce-fir Spodosol[J].Biogeochemistry,1996,35:339-365.
[71]	NEFF J C,CHAPIN F S,VITOUSEK P M.Breaks in the cycle:dissolved organic nitrogen in terrestrial ecosystems[J].Front Ecology Environment,2003,1:205-221.
[72]	穆兰.茶园土壤可溶性有机氮及其主要影响因素研究[D].福州:福建农林大学,2011.
[73]	陈秀梅.不同品种茶园土壤可溶性有机氮组成及其季节动态研究[D].福州:福建农林大学,2012.
[74]	MARK F,PAUL W H,JOHN F,et al.Seasonal variation in soluble soil carbon and nitrogen across a grassland productivity gradient[J].Soil Biology&Biochemistry,2011,(43):835-844.
[75]	XING S H,CHEN C R,ZHANG H,et al.Genotype and slope position control on the availability of soil soluble organic nitrogen in tea plantations[J].Biogeochemistry,2011,103(1-3):245-261.
[76]	崔晓阳.植物对有机氮源的利用及其在自然生态系统中的意义[J].生态学报,2007,08:3500-3512.
[77]	LI S X,WANG Z H,MIAO Y F,et al.Soil Organic Nitrogen and Its Contribution to Crop Production[J].Integrative Agriculture,2014,13(10):2061-2080.
[78]	李辉,高强,张晋京.土壤中有机氮形态及测定方法的研究进展[J].中国农学通报,2014,(21):24-28.
[79]	MERCEDES U,PEDRO V S,JUAN O,et al.Foliar absorption and root translocation of nitrogen from different chemical forms in seedlings of two Mediterranean trees[J].Environmental and Experimental Botany,2014,104:34-43.
[80]	曹小闯.土壤氨基酸态氮对植物的氮营养贡献及其地带性分布规律[D].杭州:浙江大学,2014.
[81]	王小丽.小白菜对甘氨酸态氮的吸收代谢及生理响应[D].上海:上海交通大学,2014.
[82]	NASHOLM T,HUSS-DANELL K,HGBERG P.Uptake of glycine by field grown wheat[J].New Phytologist,2001,150(1):59-63.
[83]	赵满兴,周建斌,陈竹君,等.不同类型农田土壤对可溶性有机氮、碳的吸附特性[J].应用生态学报,2008,(1):76-80.
[84]	赵满兴,周建斌,延志莲.不同土层土壤对可溶性有机氮、碳的吸附特性研究[J].土壤通报,2010,(6):1328-1332.
[85]	赵满兴,王文强,周建斌.温度对土壤吸附有机肥中可溶性有机碳、氮的影响[J].土壤学报,2013,(4):842-846.
[86]	PERAKIS S S,HEDIN L O.Fluxes and fates of nitrogen in soilof an unpolluted old growth temperate forest[J].Ecology,2001,82(8):2245-2260.
[87]	PERAKIS S S,HEDIN L O.Nitrogen loss from unpolluted South American forests mainly via dissolved organic compounds[J].Nature,2002,415:416-419.
[88]	WANG S R,ZHAO Y L,JIAO L X,et al.Characteristics of soluble organic nitrogen composition and sources in sediments from Erhai Lake in China and the effect on the water quality[J].Environmental Earth Sciences,2015:1-8.
[89]	高忠霞.农田土壤中可溶性有机碳、氮的含量及特性研究[D].杨凌:西北农林科技大学,2009.