生态学杂志 ›› 2002, Vol. ›› Issue (2): 40-46.
苏波1, 韩兴国1, 渠春梅1, 李贵才2
收稿日期:
2000-01-17
修回日期:
2001-03-07
出版日期:
2002-04-10
基金资助:
Su Bo1, Han Xingguo1, Qu Chunmei1, Li Guicai2
Received:
2000-01-17
Revised:
2001-03-07
Online:
2002-04-10
中图分类号:
苏波, 韩兴国, 渠春梅, 李贵才. 森林土壤氮素可利用性的影响因素研究综述[J]. 生态学杂志, 2002, (2): 40-46.
Su Bo, Han Xingguo, Qu Chunmei, Li Guicai. Factors Affecting Soil N Availability in Forest Ecosystems:A Literature Review[J]. cje, 2002, (2): 40-46.
[1] Adams,M.A.and Attill,P.M.Patterns of nitrogen mineralization in 23-year old pine forest following nitrogen fertilizing[J].For.Ecol.Manage.,1984,7(3):241~248. [2] Boerner,R.E.J.Fire and nutrient cycling in temperate ecosystems[J].Bio.Science,1982,32(3):187~192. [3] Blair,J.M.and Fire,N.Availbility and plant response in grasslands:a test of the transient maxima hypothesis[J].Ecology,1997,78(8):2359~2368. [4] Bell,R.L.and Binkley,D.Soil nitrogen mineralization and immobilization in response to periodic prescribed fire in a loblolly pine plantation[J].Can.J.For.Res.,1989,19:816~820. [5] Binkley,D.and Hart,S.The component of nitrogen availability assessments in forest soils[J].Adv.Soil Sci.,1989,10(1):57~115. [6] Binkley,D.Ion exchange resin bags:Factors affecting estimates of nitrogen availability[J].Soil Sci.Soc.Am.J.,1984,48(5):1181~1184. [7] Burger,J.and Prichett,W.Effects of clearfelling and site preparation on nitrogen mineralization in a Southern pine stand[J].Soil Sci.Soc.Am.J.,1984,48(6):1423~1437. [8] Babbar,L.I.and Zak,D.Nitrogen cycling in coffee agrecosystems:net N mineralization and nitrification in the presence and absence of shaded tress[J].Agri.Ecosys.and Environ.,1994,48:107~113. [9] Binkley,D.and Matston,P.Ion exchange resin bag method for assessing forest soil nitrogen availability[J].Soil Sci.Soc.Am.J.,1983,47(5):1050~1052. [10] Binkley,D.The influence of tree species on forest soils:processes and patterns[A].In:Mead,D.J.(eds).Proceedings of the Trees and Soil Workshop.Canterbury.Agronomy Society of New Zealand Special Publication No.10[C].Loncoln:Lincoln University Press,1995. [11] Binkley,D.and Sollins,P.Factors determining differences in soil pH in adjacent conifer and alder-conifer stands[J].Soil Sci.Soc.Am.J.,1990,54(5):1427~1433. [12] Binkley,D.and Valentine,D.Fifty-year biogeochemical effects of green ash,white pine,and norway spruce in a replicated experiment[J].For.Ecol.Manage.,1991,40(1):13~25. [13] Binkley,D.Mixtures of nitrogen-fixing and non-nitrogen-fixing tree species[A].In:MGR Cannell,D.C.(eds).The Ecology of Mixed-Species Stands of Tress[C].Oxford:Blackwell Scientific,1992,99~123. [14] Clark,J.S.Landscape interactions among nitrogen mineraliazation,species composition and long-term fire frequency[J].Biogeochem.,1990,11(1):1~22. [15] Clay,D.E.and Clapp,C.E.Mineralization of low C-to-N ratio corn residue in soils fertilized with NH+4 fertilizer[J].Soil Biol.Biochem.,1990,22(3):355~360. [16] Donaldson,J.M.and Henderson,G.S.Nitrification potential of secondary-succession upland oak forests:Ⅰ.Mineralization and nitrification during laboratory incubations[J].Soil Sci.Soc.Am.J.,1990,54(3):892~897. [17] Durka,W.et al.Effects of forest decline on uptake and leaching of deposited nitrate determined from 15N and 18O measurements[J].Nature,1994,372(6508):765~767. [18] Fyles,J.W.et al.Forest floor characteristics and soil nitrogen availability on slash-burned sites in coastal British Columbia[J].Can.J.For.Res.,1991,21:1516~1522. [19] Frazer,D.W.et al.Soil nitrogen mineralization in a clearcutting chronosequence in a Northern California conifer forest[J].Soil Sci.Soc.Am.J.,1990,54(4):1145~1152. [20] Gholsh,S.K.et al.Inorganic and organic N-transformations in limed and unlimed soil as influenced by cropping and N-saturation[J].Soil Biol.Biochem.,1990,22(2):327~330. [21] Gosz,J.R.and White,C.S.Seasonal and annual variation in nitrogen mineralization and nitrification along an elevational gradient in New Mexico[J].Biogeochem.,1986,2:281~297. [22] Gower,S.T.and Son,Y.Differences in soil and leaf litterfall nitrogen dynamics for five forest plantations[J].Soil Sci.Soc.Am.J.,1992,56(6):1959~1966. [23] Hesselman,H.Studier ver barrskogens humustcke,dess egenskaper och beronende av skogsveden (Studies about the humus from coniferous forest,its properties and relation to silviculture.) [J].Medd.Statens Skogsfrsksanst.,1926,22(5):167~552. [24] Hart,S.C.and Firestone,M.K.Evaluation of three in situ soil nitrogen availability assays[J].Can.J.For.Res.,1989,19:185~191. [25] Hill,A.R.and Schackleton,M.Soil N mineralization and nitrification in relation to nitrogen solution chemistry in a small forested watershed[J].Biogeochem.,1989,8:167~184. [26] Huang,J.H.et al.Studies on litter decomposition processes in a temperate forest ecosystem:Ⅰ.Changes of organic matter in oak (Quercus wutaishanica Koidz) twigs[J].Ecol.Res.,1998,13(2):163~170. [27] Homann,P.S.et al.Cation distribution,cycling,and removal from mineral soil in Douglas-fir and red alder forests[J].Biogeochem.,1992,16:121~150. [28] Hooper,D.U.and Vitousek,P.Effects of plant composition and diversity on nutrient cycling[J].Ecol.Monogr.,1998,68(1):121~149. [29] Hodgson,J.G.et al.Does biodiversity determine ecosystem function? The ecotron experiment reconsidered[J].Funct.Ecol.,1998,12:843~856. [30] Holmes,W.E.and Zak,D.R.Soil microbial biomass dynamics and net nitrogen mineralization in northern hardwwod ecosystems[J].Soil Sci.Soc.Am.J.,1994,58(1):238~243. [31] Keeney,D.R.Prediction of soil nitrogen availability in forest ecosystems:a literature review[J].Forest Sci.,1980,26(1):159~171. [32] Kutiel,P.and Naveh,Z.The effect of fire on nutrients in a pine forest soil[J].Plant Soil,1987,104(2):269~274. [33] Klopateck,J.M.et al.Potential variation of nitrogen transformations in pinyon-juniper ecosystems resulting from burning[J].Biol.Fertil.Soils,1990,10(1):35~44. [34] Klemmedson,J.O.et al.Nitrogen mineralization in limed and gypsum-amended substrates from ameliorated acid forest soils[J].Soil Sci.,1989,147(1):55~63. [35] Krause,H.and Ramla,D.In situ nutrient extraction by resin from forested,clearcut and site-prepared soil[J].Can.J.Soil Sci.,1987,67:943~952. [36] Kim,C.et al.Effects of nitrogen availability on nitrogen red oak seedling growth in oak and pine stands in northern Lower Michigan[J].Can.J.For.Res.,1996,26:1103~1111. [37] Klingensmith,K.M.and Van,Cleve,K.Patterns of nitrogen mineralization and nitrification in floodplain successional soils along the Tanana River,Interior Alaska[J].Can. J.For Res.,1993,23:964~969. [38] Kuikman,P.J.and Van,Veen,J.A.The impact of protozoa on the availability of bacterial nitrogen to plants[J].Biol.Fertil.Soils,1989,8(1):13~18. [39] Lawton,J.H.et al.Biodiversity and ecosystem function:getting the ecotron experiment in its correct context[J].Funct.Ecol.,1998,12(5):843~856. [40] Mahendrappa,M.K.et al.Nutrient cycling and availability in forest soils[J].Can.J.Soil Sci.,1986,66(4):547~572. [41] Maston,P.et al.Nitrogen transformations following tropical forest felling and burning on a volcanic soil[J].Ecology,1987,68(3):491~502. [42] Maimone,R.et al.Nitrogen mineralization potential in a lower coastal plain forest soil[J].Agron.Abstr.,1987,261. [43] Mldenoff,D.Dynamics of nitrogen mineralization and nitrification in hemlock and hardwood treefall gaps[J].Ecology,1987,68(5):1171~1180. [44] Mazzarino,M.J.et al.Nitrogen mineralization and siol fertility in the dry Chaco ecosystem (Argentina) [J].Soil Sci.Soc.Am.J.,1991,55(2):515~522. [45] Marrs,R.H.et al.Nitrogen mineralization and nitrification in terra firme forest and savanna soils on Ilha de Maracá,Roraima,Brizil[J].J.Trop.Ecol.,1991,7:123~137. [46] Mardulyn,P.et al.Changes in humus microbiological acivity induced bythe substitution of the natural beech forest by Norway spruce in the Belgian ardennes[J].For.Ecol.Manage.,1993,59(1):15~27. [47] Naeem,S.et al.Empirical evidence that declining biodiversity may alter the performance of terrestrial ecosystems[J].Philosophical Transactions of the Royal Society of London B,1995,347:249~262. [48] Naeem,S.et al.Declining biodiversity can alter the performance of ecosystems[J].Nature,1994,368(6473):734~737. [49] Nadehoffer,K.J.et al.Leaf litter production and soil organic matter dynamics along a nitrogen availability gradient in southern Wisconsin (USA) [J].Can.J.For.Res.,1983,13(1):12~21. [50] Popovic,B.Mineralization of carbon and nitrogen in humus from field acidification studies[J].For.Ecol.Manage.,1984,8(1):81~93. [51] Pérez,C.A.et al.Nitrogen mineralization in two unpolluted old-growth forests of contrasting biodiversity and dynamics[J].Ecosystems,1998,1(4):361~373. [52] Powers,R.F.Nitrogen mineralization along an altitudinal gradient:Interactions of soil temperature,moisture,and substrate quality[J].For.Ecol.Manage.,1990,30(1):19~29. [53] Palm,C.A.and Sanchez,P.A.Nitrogen release from the leaves of some tropical legumes as affected by their lignin and polyhenolic contents[J].Soil Biol.Biochem.,1992,23(1):83~88. [54] Paster,J.et al.Successional changes in nitrogen availability as a potential factor contributing to spruce declines in boreal North America[J].Can.J.For.Res.,1987,17:1394~1400. [55] Perala,D.A.and Alban,D.H.Biomass,nutrient distribution and litterfall in populus,Pinus,and Picea stands on two different soils in Minnesota[J].Plant Soil,1982,64(2):177~192. [56] Rashid,G.Effects of fire on siol carbon and nitrogen in a Mediterranean oak forest of Algeria[J].Plant Soil,1987,103(1):89~93. [57] Raison,R.J.et al.Metholology for studying fluxes of soil mineral-N in situ[J].Soil Boil.Biochem.,1987,19(5):521~530. [58] Robertson,G.P.et al.Spatial variability in a successional plant community:patterns of nitrogen availability[J].Ecology,1988,69(5):1517~1524. [59] Rhoades,C.Factors influencing soil pH changes beneath eighty-old eucalyptus and albizia plantations[D].Colorado:MS thesis,Colorado State University,Ft Collins,USA,1991. [60] Rice,E.and Pancholy,S.Inhibition of nitrification by climax ecosystems[J].Am.J.Bot.,1972,59:1033~1040. [61] Robertson,G.P.and Vitousek,P.Nitrification potentials in primary and secondary succession[J].Ecology,1981,62(2):376~386. [62] Schoch,P.and Binkley,D.Prescribed burning increased nitrogen availability in a mature loblolly pine stand[J].For.Ecol.Manage.,1986,14(1):13~22. [63] Salinas-Garcia,J.R.et al.Soil carbon and nitrogen dynamics as affected by long-term tillage and nitrogen fertilization[J].Biol.Fertil.Soils,1997,25:182~188. [64] Strader,R.H.et al.Nitrogen mineralization in high elevation forests of the appalachians.Ⅰ.Regional aatterns in southern spruce-fir forests[J].Biogeochem.,1989,7:131~145. [65] Sprent,J.Biology of Nitrogen-Fixing Organisms[M].Cambridge:Cambridge University Press,1983. [66] Son,Y.and Gower,S.T.Nitrogen and phosphorous distribution for five plantation species in southwestern Wisconsin[J].For.Ecol. Manage.,1992,53(3):175~193. [67] Stump,L.and Binkley,D.Relationships between litter quality and nitrogen availability in Rocky Mountaion forests[J].Can.J.For.Res.,1993,23:492~502. [68] Scott,N.A.and Binkley,D.Foliage litter quality and annual net N mineralization:comparison across North American forest sites[J].Oecologia,1997,111(2):151~159. [69] Schulze,E.D.et al.Biodiversity and ecosystem function of temperate deciduous broad-leaved forests[A].In:Mooney,H.A.(eds).Functional Roles of Biodiversity:A Global Perspective[C].SCOPE:John Wiley & Sons Ltd,1996.71~97. [70] Schulze,E.D.Plant life forms related to plant carbon,water and nutrient relations[A].In:Lange,O.L.(eds).Encyclopedia of plant physiology,physiological plant ecology.Vol.12 B,Water relations and Photosynthetic productivity[C].Berlin,Heidelberg:Springer,1982.615~617. [71] Schulze,E.D.et al.Above ground biomass and nitrogen nutrition in a chronosequence of pristine Dahurian Larix stands in Eastern Siberia[J].Can.J.For.Res.,1995,25:406~412. [72] Schulze,E.D,and Gerstberger,P.Functional aspects of landscape biodiversity:a Bavarian example[J].Ecol.Stud.,1993,99:453~469. [73] Sulkava,P.et al.Impact of soil faunal structure on decomposition and N-mineralization in relation to temperature and moisture in forest soil[J].Pedobiol.,1996,40:505~513. [74] Tietema,A.and Verstraten,J.M.Nitrogen cycling in an acid forest ecosystem in the Netherlands under increased atmospheric nitrogen input[J].Biogeochem.,1991,15(1):21~46. [75] Tilman,D.et al.The influence of functional diversity and composition on ecosystem processes[J].Science,1997,277(9):1300~1302. [76] Tilman,D.et al.Productivity and sustainability influenced by biodiversity in grassland ecosystems[J].Nature,1996,379(6567):718~720. [77] Takeda,H.et al.Decompositiom of leaf litter in relation to litter quality and site conditions[J].Mem.Coll.Agric.Kyoto Univ.,1987,130(1):17~38. [78] Theodorou,C.Microbial properties of five soils under pine,eucalytus woodland and pasture[J].Aust.For.Res.,1984,14:301~310. [79] Vitousek,P.M.and Matson,P.A. Mechanism of Nitrogen retention in forest ecosystems:A field experiment[J].Science,1984,225(4657):51~52. [80] Vitousek,P.Nutrient cycling and nutrient use efficiency[J].Am.Nat.,1982,119(4):553~572. [81] Van Cleve,K.et al.Nitrogen mineralization and nitrification in successional ecosystems on the Tanana Rivrer floodplain,interior Alaska[J].Can. J.For.Res.,1993,23:970~978. [82] Wedin,D.A.and Tilman,D.Species effects on nitrogen cycling:a test with perennial grasses[J].Oecologia,1990,84(4):433~441. [83] Willems,J.J.G.M.et al.Effects of earthworms on nitrogen mineralization[J].Biol.Fertil.Soils,1996,23(1):57~63. [84] Zou,X.Species effects on earthworm density in tropical tree plantations in Hawaii[J].Biol.Fertil.Soils,1993,15(1):35~38. |
[1] | 蔡德峰, 张扬建, 丛楠, 殷国栋, 王荔, 张明勋, 俎佳星, 周全, 陈宁, 刘瑶杰, 蓝健均, 蔡绍荣, 张戈. 藏中联网工程生态系统服务功能重要性评价 [J]. 生态学杂志, 2021, 40(2): 593-603. |
[2] | 刘江, 谢遵博, 王千慧, 王婷婷, 郑晓, 宋立宁, 李秀芬. 北方防沙带东部区生态安全格局构建及优化 [J]. 生态学杂志, 2021, 40(11): 3412-3423. |
[3] | 祁栋灵, 杨小波, 谢贵水, 吴志祥. 以橡胶为主的农林复合生态系统对调控资源利用和生态服务功能的影响 [J]. 生态学杂志, 2020, 39(11): 3844-3852. |
[4] | 张蕾,危小建,周鹏. 基于适宜性评价和最小累积阻力模型的生态安全格局构建——以营口市为例 [J]. 生态学杂志, 2019, 38(1): 229-236. |
[5] | 孙宝娣1,2,崔丽娟1,2*,李伟1,2,康晓明1,2. 基于不同受益者的双台河口湿地生态系统主导服务功能 [J]. 生态学杂志, 2017, 36(1): 164-171. |
[6] | 周朕1,蒙吉军1*,齐杨2,彭福利2. 中国生态用地重要性及其格局优化研究进展 [J]. 生态学杂志, 2016, 35(1): 218-225. |
[7] | 吴强,张合平*. 森林生态补偿研究进展 [J]. 生态学杂志, 2016, 35(1): 226-233. |
[8] | 宋庆丰,牛香,王兵**. 基于大数据的森林生态系统服务功能评估进展 [J]. 生态学杂志, 2015, 34(10): 2914-2921. |
[9] | 叶延琼1,2,3,章家恩1,2,3**,陈丽丽1,2,3,梁开明1,2,3,吴睿珊1,2,3. 广州市水生态系统服务价值 [J]. 生态学杂志, 2013, 32(5): 1303-1310. |
[10] | 黄从红1,杨军2**,张文娟1. 生态系统服务功能评估模型研究进展 [J]. 生态学杂志, 2013, 32(12): 3360-3367. |
[11] | 曾伟1,熊彩云1,肖复明1**,余林1,林小凡1,李光运2. 江西省阔叶林生态系统服务功能价值动态分析 [J]. 生态学杂志, 2012, 31(5): 1296-1301. |
[12] | 曾伟1,熊彩云1,肖复明1**,余林1,刘祥凤2. 江西省针叶林生态系统服务功能价值动态分析 [J]. 生态学杂志, 2012, 31(11): 2907-2913. |
[13] | . 基于能值理论的东祁连山森林生态系统服务功能价值评价 [J]. 生态学杂志, 2012, 31(02): 433-439. |
[14] | . 基于遥感的广州市城市绿地生态服务功能评价 [J]. 生态学杂志, 2012, 31(02): 440-445. |
[15] | 郭微, 陈平,唐洁,俞龙生. 基于景观可达性的城市绿地系统承载力估算 [J]. 生态学杂志, 2012, 31(01): 165-171. |
阅读次数 | ||||||
全文 |
|
|||||
摘要 |
|
|||||