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贺金生的代表论著

发布网友 发布时间:2022-04-22 09:35

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热心网友 时间:2023-10-07 06:00

Jing X, Sanders NJ, Shi Y, Chu HY, Classen AT, Zhao K, Chen LT, Jiang YX, He J-S* 2015.The links between ecosystem multifunctionality and above- and belowground biodiversity are mediated by climate.Nature Communications6: 8159.
Song WM, Wang H, Wang GS, Chen LT, Jin ZN, Zhuang QL, He J-S*. 2015.Methane emissions from an alpine wetland on the Tibetan Plateau: Neglected but vital contribution of non-growing season.Journal of Geophysical Research-Biogeosciences: doi:10.1002/2015JG003043.
Jin ZN, Zhuang QL, He J-S, Zhu XD, Song WM 2015.Net exchanges of methane and carbon dioxide on the Qinghai-Tibetan Plateau from 1979 to 2100.Environmental Research Letters: doi:10.1088/1748-9326/10/8/085007.
Niu KC, He J-S, Zhang ST, Lechowicz MJ 2015.Grazing increases functional richness but not functional divergence in Tibetan alpine meadow plant communities.Biodiversity and Conservation: doi: 10.1007/s10531-015-0960-2.
Chen LT, Flynn DFB, Zhang XW, Gao XL, Lin L, Luo J, Zhao CM* 2015.Divergent patterns of foliar δ13C and δ15N in Quercus aquifolioides with an altitudinal transect on the Tibetan Plateau: an integrated study based on multiple key leaf functional traits.Journal of Plant Ecology8: 303-312.
Chen LT, Flynn DFB, Jing X, Kühn P, Scholten T, He J-S 2015.A comparison of two methods for quantifying soil organic carbon of alpine grasslands on the Tibetan Plateau.PLoS ONE10: e0126372.
Mi ZR, Huang YY, Gan HJ,Zhou WJ, Flynn DFB, He J-S* 2015.Leaf P increase outpaces leaf N in an Inner Mongolia grassland over 27 years. Biology Letters 11: 20140981.
Ding S, Xu Y, Wang Y, He Y,Hou J, Chen L,He J-S 2015.Distributions of glycerol dialkyl glycerol tetraethers in surface soils ofQinghai–Tibetan Plateau: implications of GDGT-based proxies in cold and dryregions. Biogeosciences Discussion 12: 481-513.
Zhang ZJ,Yan YJ,Tian Y, LiJS, He J-S, Tang ZY* 2015.Distribution and conservation of orchid species richness in China. Biological Conservation 181: 64-72.
Eichenberg D, Trogisch S,Huang YY, He J-S, Bruelheide H 2014.Shifts in community leaf functional traits are related to litter decompositionalong a secondary forest succession series in subtropical China. Journal of Plant Ecology DOI:10.1093/jpe/rtu021: .
Wang YH, Liu HY, Chung H,Yu LF, Mi ZR, Geng Y, Jing X, Wang SP, Zeng H, Cao GM, Zhao XQ, He J-S* 2014. Non-growing-season soilrespiration is controlled by freezing and thawing processes in the summermonsoon-dominated Tibetan alpine grassland. Global Biogeochemical Cycles28: 1081-1095.
Yang XX, Yang Y, Ji CJ,Feng T, Shi Y, Lin L, Ma JJ, He J-S*2014. Large-scale patterns of stomatal traits in Tibetan and Mongoliangrassland species. Basic and Applied Ecology 15: 122-132.
Shi Y, Wang YH, Ma YL, MaWH, Liang CZ, Flynn DFB, Schmid B, Fang JY, He J-S* 2014. Field-based observations of regional-scale, temporalvariation in net primary proction in Tibetan alpine grasslands. Biogeosciences11: 2003-2016.
Baumann F*, Schmidt K,Dörfer C, He J-S, Scholten T, Kühn P2014. Pedogenesis, permafrost, substrate and topography: Plot and landscapescale interrelations of weathering processes on the central-eastern TibetanPlateau. Geoderma 226-227: 300-316.
Geng Y, Wang L, Jin DM, LiuHY, He J-S* 2014. Alpine climatealters the relationships between leaf and root morphological traits but notchemical traits. Oecologia 175: 445-455.
Jing X, Wang YH, Chung H,Mi ZR, Wang SP, Zeng H, He J-S*2014. No temperature acclimation of soil extracellular enzymes to experimentalwarming in an alpine grassland ecosystem on the Tibetan Plateau. Biogeochemistry117: 39-54.
Chen LT, Niu KC, Wu Y, GengY, Mi ZR, Flynn DFB, He J-S* 2013.UV radiation is the primary factor driving the variation in leaf phenolicsacross Chinese grasslands. Ecology and Evolution 3: 4696-4710.
Jin DM, Ma JJ, Ma WH, LiangCZ, Shi Y andHe J-S* 2013. Legumesin Chinese natural grasslands: Species, biomass, and distribution. Rangeland Ecology & Management 66: 648-656.
Du EZ, Zhou Z, Li P, Hu XY,Ma YC, Wang W, Zheng CY, Zhu JX, He J-S,Fang JY* 2013. NEECF: a project of nutrient enrichment experiments in China’sforests. Journal of Plant Ecology 6: 428-435.
HeJ-S*,Muraoka H, Son Y, Fang JY 2013. Carbon patterns and processes in East Asianecosystems: multi-scale approaches (Editorial). Journal of Plant Ecology6: 323-324.
Ma YL, Geng Y, Huang YY,Shi Y, Niklaus P, Schmid B, He J-S*2013. Effect of clear-cutting silviculture on soil respiration in a subtropicalforest of China. Journal of Plant Ecology 6: 335-348.
Yu LF, Wang H, Wang GS,Song WM, Huang Y, Li S-G, Liang NS, Tang YH, He J-S* 2013. A comparison of methane emission measurements usingeddy covariance and manual and automated chamber-based techniques in TibetanPlateau alpine wetland. Environmental Pollution 181: 81-90.
Liu C, Wang XP, Wu X, DaiS, He J-S, Yin WL* 2013. Relativeeffects of phylogeny, biological characters and environments on leaf traits inshrub biomes across central Inner Mongolia, China. Journal of Plant Ecology 6: 220-231.
Jin ZN*, Zhuang QL, He J-S, Luo TX, Shi Y 2013. Phenologyshift from 1989 to 2008 on the Tibetan Plateau: an analysis with aprocess-based soil physical model and remote sensing data. Climatic Change 119: 435-449.
Shi Y, Ma YL, Ma WH, LiangCZ, Zhao XQ, Fang JY, He J-S* 2013.Large scale patterns of forage yield and quality across Chinese grasslands. Chinese Science Bulletin 58: 1187-1199.
Dorfer C*,Kuhn P,Baumann F,He J-S,Scholten T 2013. Soil organiccarbon pools and stocks in permafrost-affected soils on the Tibetan Plateau. PLoS ONE 8: e57024.
Huang N*,He J-S, Niu Z 2013. Estimating thespatial pattern of soil respiration in Tibetan alpine grasslands using LandsatTM images and MODIS data. Ecological Indicators 26: 117-125.
HeJ-S 2012.Carbon cycling of Chinese forests: From carbon storage, dynamics to models. Science China Life Science 55: 188-190.
Geng Y, Wang ZH, Liang CZ,Fang JY, Frank B, Kühn P, Scholten T, HeJ-S* 2012. Effect of geographical range size on plant functional traits andthe relationships between plant, soil and climate in Chinese grasslands. Global Ecology and Biogeography 21: 416–427.
Shi Y, Baumann F, Ma YL,Song C, Kuehn P, Scholten T, He J-S*.2012. Organic and inorganic carbon in the topsoil of the Mongolian and Tibetangrasslands: pattern, control and implications. Biogeosciences 9:2287–2299.
Geng Y,Wang YH,Yang K,WangSP,Zeng H,Baumann F, Kuehn P, Scholten T, HeJ-S* 2012. Soil Respiration in Tibetan Alpine Grasslands: BelowgroundBiomass and Soil Moisture, but Not Soil Temperature, Best Explain theLarge-Scale Patterns. PLoS ONE 7: e34968.
Ma JJ, Ji CJ, Han M, ZhangTF, Yan XD, Hu D, Zeng H, He J-S*2012. Comparative analyses of leaf anatomical characteristics of dicotyledonousspecies in Tibetan and Inner Mongolian grasslands. Science China Life Sciences 42: 158-172.
Tao S*, Wang WT, Liu WX,Zuo Q, Wang XL, Wang R, Wang B, Shen GF, Yang YH, He J-S 2011. Polycyclic aromatic hydrocarbons and organochlorinepesticides in surface soils from the Qinghai-Tibetan plateau. Journal of Environmental Monitoring 13: 175–181.
Chu ZY, Lu YJ, Chang J*,Wang M, Jiang H, He J-S, Peng CH*,Ge Y 2011. Leaf respiration/photosynthesis relationship and variation: aninvestigation of 39 woody and herbaceous species in east subtropical China. Trees-Structureand Function 25: 301-310.
Ma WH, He J-S*, Yang YH, Wang XP, Liang CZ, Anwar M, Zeng H, Fang JY,Schmid B 2010. Environmental factors co-vary with plant diversity-proctivityrelationships among Chinese grassland sites. Global Ecology and Biogeography 19: 233–243.
HeJ-S*, WangX, Schmid B, Flynn DFB, Li XF, Reich PB, Fang JY 2010. Taxonomic identity,phylogeny, climate and soil fertility as drivers of leaf traits across Chinesegrassland biomes. Journal of Plant Research 123: 551-561.
Ma WH, Liu ZL, Wang ZH,Wang W, Liang CZ, Tang YH,He J-S,Fang JY* 2010. Climate change alters interannual variation of grasslandaboveground proctivity: evidence from a 22-year measurement series in theInner Mongolian grassland. Journal of Plant Research 123:509-517.
Baumann F, He J-S,Schmidt K, Kühn P, Scholten T. 2009. Pedogenesis, permafrost, and soil moistureas controlling factors for soil nitrogen and carbon contents across the TibetanPlateau. Global Change Biology 15: 3001–3017
Yang YH, Fang JY, Smith P,Tang YH, Chen AP, Ji CJ, Hu HF, Rao S, Tan K, He J-S. 2009. Changes intopsoil carbon stock in the Tibetan grasslands between the 1980s and 2004. Global Change Biology 15: 2723–2729
He J-S, Wang XP, Flynn DF, WangL, Schmid B, Fang JY. 2009. Taxonomic, phylogenetic and environmental tradeoffsbetween leaf proctivity and persistence.Ecology 90: 2779-2791
He J-S, Wang L, Flynn DFB, WangX, Ma W, Fang J. 2008. Leaf nitrogen: phosphorus stoichiometry across Chinesegrassland biomes. Oecologia155, 301-310
He J-S, Fang JY, Wang ZH, Guo DL,Flynn DFB, Geng Z. 2006. Stoichiometry and large-scale patterns of leaf carbonand nitrogen in the grassland biomes of China. Oecologia, 149:115-122
He J-S, Wang ZH, Wang XP, SchmidB, Zuo W, Zhou M, Zheng CY, Wang MF, Fang JY, 2006. A test of the generality ofleaf trait relationships on the Tibetan Plateau. New Phytologist, 170: 835-848
Balvanera P, Pfisterer AB,Buchmann N, He J-S, Nakashizuka T, Raffaelli D, Schmid B. 2006.Quantifying the evidence for biodiversity effects on ecosystem functioning andservices. Ecology Letters, 99:1146–1156
He J-S, Flynn DFB, Wolfe-BellinK, Fang J, Bazzaz FA. 2005. CO2 and nitrogen, but not populationdensity, alter the size and C/N ratio ofPhytolacca americana seeds. Functional Ecology, 19: 437-444
He J-S, Wolfe-Bellin KS, SchmidB, Bazzaz FA. 2005. Density may alter diversity-proctivity relationships inexperimental plant communities. Basicand Applied Ecology, 6: 505-517
He J-S, Wolfe-Bellin KS, BazzazFA. 2005. Leaf-level physiology, biomass, and reproction of Phytolaccaamericana under conditions of elevated CO2 and alteredtemperature regimes. International Journal of Plant Sciences, 166: 615-622
He J-S, Bazzaz FA. 2003.Density-dependent responses of reproctive allocation to elevated atmosphericCO2 in Phytolacca americana. New Phytologist, 157: 229-239
He J-S, Bazzaz FA, Schmid B.2002. Interactive effects of diversity, nutrients and elevated CO2on experimental plant communities. Oikos,97: 337-348

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