不同施氮水平下杜鹃灌丛土壤呼吸通量与季节动态的响应(5)
来源:植物生态学报 作者:张蔷;李家湘;谢宗强
发布于:2017-06-28 共14899字
Cusack DF, Silver WL, Torn MS, McDowell WH (2011)。 Ef-fects of nitrogen additions on above- and below-groundcarbon dynamics in two tropical forests. Biogeochemistry,104, 203–225.
Davidson EA, Janssens IA (2006)。 Temperature sensitivity ofsoil carbon decomposition and feedbacks to climatechange. Nature, 440, 165–173.
Denman KL, Brasseur G, Chidthaisong A, Ciais P, Cox PM,Dickinson RE, Hauglustaine D, Heinze C, Holland E,Jacob D, Lohmann U, Ramachandran S, da Silva Dias PL,Wofsy SC, Zhang X (2007)。 Couplings between changesin the climate system and biogeochemistry. In: Solomon S,Qin D, Manning M, Marquis M, Averyt K, Tignor MMB,Miller HLR, Chen Z eds. Climate Change 2007, ThePhysical Science Basis. Contribution of Working Group Ito the Fourth Assessment Report of the IntergovernmentalPanel on Climate Change. Cambridge University Press,Cambridge, UK.
Deng Q, Zhou G, Liu J, Liu S, Duan H, Zhang D (2010)。 Re-sponses of soil respiration to elevated carbon dioxide andnitrogen addition in young subtropical forest ecosystems inChina. Biogeosciences, 7, 315–328.
Dilustro JJ, Collins B, Duncan L, Crawford C (2005)。 Moistureand soil texture effects on soil CO2efflux components insoutheastern mixed pine forests. Forest Ecology andManagement, 204, 85–95.
Duan HL, Liu JX, Deng Q, Chen XM, Zhang DQ (2009)。 Ef-fects of elevated CO2and N deposition on plant biomassaccumulation and allocation in subtropical forest ecosys-tems: A mesocosm study. Journal of Plant Ecology (Chi-nese Version), 33, 570–579. (in Chinese with English ab-stract) [段洪浪, 刘菊秀, 邓琦, 陈小梅, 张德强 (2009)。CO2浓度升高与氮沉降对南亚热带森林生态系统植物生物量积累及分配格局的影响。 植物生态学报, 33,570–579.]
Egerton-Warburton L, Allen E (2000)。 Shifts in the diversity ofarbuscular mycorrhizal fungi along an anthropogenic ni-trogen gradient. Ecological Applications, 10, 484–496.
Elser JJ, Andersen T, Baron JS, Bergstroem A-K, Jansson M,Kyle M, Nydick KR, Steger L, Hessen DO (2009)。 Shiftsin lake N:P stoichiometry and nutrient limitation driven byatmospheric nitrogen deposition. Science, 326, 835–837.
Fang H, Mo JM, Peng SL, Li ZA, Wang H (2007)。 Cumulativeeffects of nitrogen additions on litter decomposition inthree tropical forests in southern China. Plant and Soil,297, 233–242.
Forster P, Ramaswamy V, Artaxo P, Berntsen T, Betts R, FaheyDW, Haywood J, Lean J, Lowe DC, Myhre G, Nganga J,Prinn R, Raga G, Schulz M, van Dorland R (2007)。
Changes in atmospheric constituents and in radiative forc-ing. In: Solomon S, Qin D, Manning M, Marquis M, Ave-ryt K, Tignor MMB, Miller HLR, Chen Z eds. ClimateChange 2007, The Physical Science Basis. Contribution ofWorking Group I to the Fourth Assessment Report of theIntergovernmental Panel on Climate Change. CambridgeUniversity Press, Cambridge, UK.
Frey SD, Knorr M, Parrent JL, Simpson RT (2004)。 Chronicnitrogen enrichment affects the structure and function ofthe soil microbial community in temperate hardwood andpine forests. Forest Ecology and Management, 196,159–171.
Gallo M, Amonette R, Lauber C, Sinsabaugh RL, Zak DR(2004)。 Microbial community structure and oxidative en-zyme activity in nitrogen-amended north temperate forestsoils. Microbial Ecology, 48, 218–229.
Han GX, Zhou GS (2009)。 Review of spatial and temporalvariations of soil respiration and driving mechanisms.Chinese Journal of Plant Ecology, 33, 197–205. (in Chi-nese with English abstract) [韩广轩, 周广胜 (2009)。 土壤呼吸作用时空动态变化及其影响机制研究与展望。植物生态学报, 33, 197–205.]
Hanson PJ, Edwards NT, Garten CT, Andrews JA (2000)。Separating root and soil microbial contributions to soilrespiration: A review of methods and observations. Bio-geochemistry, 48, 115–146.
Hygberg P (2007)。 Environmental science: Nitrogen impacts onforest carbon. Nature, 447, 781–782.
Hygberg P, Fan HB, Quist M, Binkley D, Tamm CO (2006)。Tree growth and soil acidification in response to 30 yearsof experimental nitrogen loading on boreal forest. GlobalChange Biology, 12, 489–499.
Hu HF, Wang ZH, Liu GH, Fu BJ (2006)。 Vegetation carbonstorage of major shrublands in China. Journal of Plant Eco-logy (Chinese Version), 30, 539–544. (in Chinese withEnglish abstract) [胡会峰, 王志恒, 刘国华, 傅伯杰(2006)。 中国主要灌丛植被碳储量。 植物生态学报, 30,539–544.]
Hyvonen R, Agren GI, Linder S, Persson T, Cotrufo MF, Ek-blad A, Freeman M, Grelle A, Janssens IA, Jarvis PG,Kellomaki S, Lindroth A, Loustau D, Lundmark T, NorbyRJ, Oren R, Pilegaard K, Ryan MG, Sigurdsson BD,Stromgren M, van Oijen M, Wallin G (2007)。 The likelyimpact of elevated CO2, nitrogen deposition, increasedtemperature and management on carbon sequestration intemperate and boreal forest ecosystems: A literature re-view. New Phytologist, 173, 463–480.
Hyvonen R, Persson T, Andersson S, Olsson B, Agren GI,Linder S (2008)。 Impact of long-term nitrogen addition oncarbon stocks in trees and soils in northern Europe. Bio-geochemistry, 89, 121–137.
IPCC (Intergovernmental Panel on Climate Change) (2013)。Contribution of working group 1 to the fifth assessmentreport of the intergovernmental panel on climate change.In: Stocker TF, Qin DH, Plattner GK, Tignor MMB, AllenSK, Boschung J, Nauels A, Xia Y, Bex V, Midgley PMeds. Climate Change 2013: The Physical Science Basis.Cambridge University Press, Cambridge, UK.
Janssens IA, Dieleman W, Luyssaert S, Subke JA, ReichsteinM, Ceulemans R, Ciais P, Dolman AJ, Grace J, MatteucciG, Papale D, Piao SL, Schulze ED, Tang J, Law BE(2010)。 Reduction of forest soil respiration in response tonitrogen deposition. Nature Geoscience, 3, 315–322.
Knorr M, Frey SD, Curtis PS (2005)。 Nitrogen additions andlitter decomposition: A meta-analysis. Ecology, 86, 3252–3257.
LeBauer DS, Treseder KK (2008)。 Nitrogen limitation of netprimary productivity in terrestrial ecosystems is globallydistributed. Ecology, 89, 371–379.
相关标签: