导师简介
程晓莉,beat365官方网站,研究员,博士生导师。2003年6月获南京大学生态学博士学位,2003–2005年,复旦大学生态学博士后,2005–2006年,美国University of Toledo生态学博士后, 2007–2009年,美国University of Oklahoma生态学博士后。2011年,新西兰新西兰皇家科学院农业研究(AgResearch, New Zealand),访问教授。2014–2015年,意大利Bari University,访问教授。2006-2019年,中国科学院武汉植物园,副研究员/研究员,2019年10至今,beat365官方网站,研究员。
主要从事土壤生态学和生态系统生态学研究,运用稳定同位素技术、土壤分馏方法、分子生物学技术和空间统计学等方法,研究生态系统碳氮磷等物质元素的循环以及土壤微生物驱动过程对气候变化、土地利用变化和生物入侵等全球变化的响应。先后主持和参加了多项由国家自然科学基金委员会、中国科学院和国家科技部资助的研究项目。目前(至2024年3月)发表相关SCI论文110余篇。第一作者/通讯作者SCI论文106篇,分别在国际生态学杂志Global Change Biology、Soil Biology & Biochemistry、Functional Ecology和Agricultural and Forest Meteorology等期刊上发表了相关的研究成果。
研究领域
生态系统生态学,土壤生态学,全球变化生态学和生物地球化学循环
社会任职
担任Global Change Biology,Journal of Plant Ecology,Wetlands Ecology and Management,《植物生态学报》编委
获奖及荣誉
beat365官方网站十大科技进展(2023):解析了山地生态系统氮磷过程及其驱动机制。程晓莉
云南省享受政府特殊津贴专家(2022)
上海市自然科学一等奖(2019):外来植物护花米草入侵的生态环境影响与机制。李博,廖成章,马志军,程晓莉,李慧
湖北省自然科学二等奖(2019):秦巴山地典型脆弱区植被恢复对生态系统功能的影响机制。张全发,程晓莉,张克荣,党海山,叶琛。
代表论著
第一作者或者通信作者论文:
2024年
Bai J, Long C, Quan X, Liao C, Zhai D, Bao Y, Men X, Zhang D, Cheng X*, 2024. Reverse diversity–biomass patterns in grasslands are constrained by climates and stoichiometry along an elevational gradient. Science of The Total Environment 917:170416
Wang Y, Zhai D, Cheng X*, 2024. Soil nitrogen and phosphorus dynamics respond divergently to afforestation. Forest Ecology and Management 555: 121705
Liao C, Chang K, Wu B, Zhang D, Cheng X*, 2024. Divergence in soil particulate and mineral-associated organic carbon reshapes carbon stabilization along an elevational gradient. Catena 235: 107682
Long C, Yang F, Chen Q, Zhang Q, Cheng X*, 2024. Different dynamics and controls of enzyme activities of leaf and root litter during decomposition. Functional Ecology 00:1-14
Chen Q, Liao C, Bao Y, Men X, Zhang Y, Cheng X*, 2024. The dominant genera of nitrogenase (nifH) affects soil biological nitrogen fxation along an elevational gradient in the Hengduan mountains. Chemosphere 347: 140722
2023年
Chen Q, Long C, Chang K, Cheng X*, 2023. Various seasonal patterns and potential mechanisms of soil nitrogen transformation along an elevational gradient in the Hengduan Mountains. Functional Ecology 37: 1962-1973
Feyissa A, Raza S, Cheng X*, 2023. Soil carbon stabilization and potential stabilizing mechanisms along elevational gradients in alpine forest and grassland ecosystems of Southwest China. Catena 229: 107210
Li J, Wu B, Zhang D, Cheng X*, 2023. Elevational variation in soil phosphorus pools and controlling factors in alpine areas of Southwest China. Geoderma 431: 116361
Liao C, Long C, Zhang Q, Cheng X*, 2023. Different regulation processes of litter phosphorus loss for leaf and root under subtropical afforestation. Plant and Soil 486: 455-468
Long C, Zhang Q, Chen Q, Cheng X*, 2023. Divergent controls on leaf and root litter decay linking to soil C, N, and P pools under a subtropical land-use change. Ecosystems 26: 1209-1223
Men X, Bao Y, Wu M, Liao C, Cheng X*, 2023. Soil enzyme activities responded differently to short-term litter input manipulation under coniferous and broad-leaved forests in the subalpine area of Southwest China. Forest Ecology and Management 546: 121360
Zhai D, Chen R, Chen Q, Cheng X*, 2023. The effect of afforestation type on soil nitrogen dynamics in the riparian zone of the upper Yangtze River of China. Chemosphere 341: 140067
Zhang D, Wu B, Li J, Cheng X*, 2023. Soil microbial relative resource limitation exhibited contrasting seasonal patterns along an elevational gradient in Yulong Snow Mountain. Functional Ecology 37:1328-1338
Zhang Y, Cheng X*, van Groenigen KJ, García-Palacios P, Cao J, Zheng X, Luo Y, Hungate BA, Terrer C, Butterbach-Bahl K, Olesen JE, Chen J*, 2023. Shifts in soil ammonia-oxidizing community maintain the nitrogen stimulation of nitrification across climatic conditions. Global Change Biology 30: e16989
Zhang Y, Chen J, Cheng X*, 2023. Revisiting the relationships between soil nitrous oxide emissions and microbial functional gene abundances. Global Change Biology 29: 4697-4699
Feyissa A, Chen R, Cheng X*, 2023. Afforestation inhibited soil microbial activities along the riparian zone of the upper Yangtze River of China. Forest Ecology and Management 538: 120998
Bai, J., Chen, R., Men, X., Cheng, X*., 2023. Divergent linkages of soil phosphorus fractions to edaphic properties following afforestation in the riparian zone of the upper Yangtze river, China. Chemosphere 313:137452
Chen, Q., Yang, F., Chen, J., Long, C., Cheng, X*., 2023. Stronger effects of environmental factors than denitrifying genes on soil denitrification under a subtropical land use change. Catena 222:106876
Yang, W*., Zhang, D., Cai, X., Yang, X., Zhang, H., Wang, Y., Diao, L., Luo, Y., Cheng, X*., 2023. Natural revegetation over ~ 160 years alters carbon and nitrogen sequestration and stabilization in soil organic matter on the Loess Plateau of China. Catena 220:106647
2022年
Chen, Q., Chen, J., Andersen, M., Cheng, X*., 2022. Elevational shifts in foliar-soil δ15N in the Hengduan Mountains and different potential mechanisms. Global Change Biology 28(18):5480-5491.
Liao, C., Men, X., Wang, C., Chen, R., Cheng, X*., 2022. Nitrogen availability and mineral particles contributed fungal necromass to the newly formed stable carbon pool in the alpine areas of Southwest China. Soil Biology and Biochemistry 173:108788.
Feyissa, A., Gurmesa, G., Yang, F., Long, C., Zhang, Q., Cheng, X*., 2022. Soil enzyme activity and stoichiometry in secondary grasslands along a climatic gradient of subtropical China. Science of the Total Environment 825:154019
Li, J., Zhang, Q., Zhang, D., Cheng, X*., 2022. Divergent temporal variations in soil microbial attributes under a subtropic afforestation. Ecological Indicators 142:109170
Chen, Q.,Yang, F., Cheng, XL Cheng, X*., 2022. Effects of land use change type on soil microbial attributes and their controls: Data synthesis. Ecological Indicators 138:108852
Liao, C., Long, C.,Zhang, Q., Cheng, X*., 2022. Stronger effect of litter quality than micro-organisms on leaf and root litter C and N loss at different decomposition stages following a subtropical land use change. Functional Ecology 36(4):896-907
Zhang, D., Li, J., Wu, J., Cheng, X*., 2022. Soil CO2 and CH4 emissions and their carbon isotopic signatures linked to saturated and drained states of the Three Gorges Reservoir of China.Environmental Pollution 293:11859.
Wu, J., Cheng, X*., Luo, Y., Liu, W., Liu, G*., 2022. Identifying Carbon-Degrading Enzyme Activities in Association with Soil Organic Carbon Accumulation Under Land-Use Changes. Ecosystems 25:1219–1233
Wu, J., Zhang, Q., Zhang, D., Jia, W., Chen, J., Liu, G*., Cheng, X*., 2022. The ratio of ligninase to cellulase increased with the reduction of plant detritus input in a coniferous forest in subtropical China. Applied Soil Ecology 170:104269.
Li, Q., Jia, W., Zhang, Q., Cheng, X*., 2022. Localized plant-soil-microbe interactions regulate spatial variations of soil oxidase activities within afforested systems in a subtropical area. Geoderma 406:115499.
Yang, W*., Diao, L., Wang, Y., Yang, X., Zhang, H., Wang, J., Luo, Y., An, S., Cheng, X*., 2022. Responses of soil fungal communities and functional guilds to ~160 years of natural revegetation in the Loess Plateau of China. Frontiers in Microbiology DOI 10.3389/fmicb.2022.967565
2021年
Chen, Q., Long, C., Chen, J., Cheng, X*., 2021. Differential response of soil CO2, CH4, and N2O emissions to edaphic properties and microbial attributes following afforestation in central China. Global Change Biology 00:1-13.
Yang, F., Chen, Q., Zhang, Q., Long, C., Jia, W., Cheng, X*., 2021. Keystone species affect the relationship between soil microbial diversity and ecosystem function under land use change in subtropical China. Functional Ecology 35:1159-1170.
Wu, J., Cheng, X*., Luo, Y., Liu, W., Liu, G*.,2021. Identifying Carbon-Degrading Enzyme Activities in Association with Soil Organic Carbon Accumulation Under Land-Use Changes. Ecosystems 10.1007/s10021-021-00711-y.
Zhang, Q., Zhang, D., Wu, J., Li, J., Feng, J., Cheng, X*., 2021. Soil nitrogen-hydrolyzing enzyme activity and stoichiometry following a subtropical land use change. Land Degradation & Development 32:4277-4287.
Feyissa, A., Yang, F., Wu, J., Chen, Q., Zhang, D., Cheng, X*., 2021. Soil nitrogen dynamics at a regional scale along a precipitation gradient in secondary grassland of China. Science of the Total Environment 781:146736.
Wu, J., Jia, W., Zhang, D., Liu, G., Cheng, X*., 2021. Case study on a coniferous plantation site about inter-annual shifts in microbial communities under short-term detritus input manipulations. Ecological Indicators 130:108053.
Wang, D., Chen, J*., Felton, A., Xia, L., Zhang, Y., Luo, Y., Cheng, X*., Cao. J*., 2021. Post-fire co-stimulation of gross primary production and ecosystem respiration in a meadow grassland on the Tibetan Plateau. Agricultural and Forest Meteorology 303:108388.
Li, Q., Dong, Q., Zhang, Q., Jia, W., Cheng, X*., 2021. Determinants of soil carbon- and nitrogenhydrolyzing enzymes within different afforested lands in central China. Environmental Science and Pollution Research DOI:10.1007/s11356-021-16817-8.
2020年
Wu, J., Chen, Q.,Jia, W., Long, C., Liu, W., Liu, G., Cheng, X*., 2020. Asymmetric response of soil methane uptake rate to landdegradation and restoration: Data synthesis. Global Change Biology 26:6581–6593.
Li Q, Chen J, Feng J, Zhang Q, Jia W, Lin Q , Cheng X*., 2020. How do Biotic and Abiotic Factors Regulate Soil Enzyme Activities at Plot and Microplot Scales Under Afforestation? Ecosystems 23: 1408–1422.
Feng J, Yang F, Wu J, Chen Q, Zhang Q, Cheng X*., 2020. Contrasting soil C and N dynamics inferred from δ13C and δ15N values along a climatic gradient in southern China.Plant and Soil 452:217–231
Zhang, D., Feng, J., Yang, F., Wu, J., Wei, J., Cheng, X*. 2020. Shift in functional plant groups under flooding impacted ecosystem C and N dynamics across riparian zones in the Three Gorges of China. Science of the Total Environment 724, 138302
Yang W, Cai A, Wang J, Luo Y, Cheng X*, An S. 2020. Exotic Spartina alterniflora Loisel. Invasion significantlyshifts soil bacterial communities with the successional gradient of saltmarsh in eastern China. Plant and Soil 449:97–115.
Zhang, D., Wu, J., Yang, F., Chen, Q, Feng, J., Li, Q., Zhang, Q., Cheng, X*.,2020. Linkages between soil organic carbon fractions and carbon-hydrolyzing enzyme activities across riparian zones in the Three Gorges of China. Scientific Reports 10:8433
Feyissa A, Yang F, Feng J, Wu J, Chen Q, Cheng X., 2020. Soil labile and recalcitrant carbon and nitrogen dynamics in relation to functional vegetation groups along precipitation gradients in secondary grasslands of South China. Environmental Science and Pollution Research: 27: 10528-10540.
2019年
Wu, J., Lu, M*., Feng, J., Zhang, D., Chen, Q., Li, Q., Long, C., Zhang, Q., Cheng, X*., 2019. Soil net methane uptake rates in response to short-term litter input change in a coniferous forest ecosystem of central China. Agricultural and Forest Meteorology 271, 307-315.
Li, Q., Feng, J., Wu, J., Jia, W., Zhang, Q., Chen, Q., Zhang, D., Cheng, X*., 2019. Spatial variation in soil microbial community structure and its relation to plant distribution and local environments following afforestation in central China. Soil and Tillage Research 193, 8-16.
Yang, F., Zhang, D., Wu, J., Chen, Q., Long, C., Li, Y., Cheng, X*., 2019. Anti-seasonal submergence dominates the structure and composition of prokaryotic communities in the riparian zone of the Three Gorges Reservoir, China. Science of the Total Environment 663, 662-672.
Zhang, Q., Feng, J., Wu, J., Zhang, D., Chen, Q., Li, Q., Long, C., Feyissa, A., Cheng, X*., 2019b. Variations in carbon-decomposition enzyme activities respond differently to land use change in central China. Land Degradation & Development 30, 459-469.
Yang, W*., Jeelani, N., Xia, L., Zhu, Z., Luo, Y., Cheng, X*., An, S., 2019. Soil fungal communities vary with invasion by the exotic Spartina alternifolia Loisel. in coastal salt marshes of eastern China. Plant and Soil 442, 215-232.
Yang, W*., Zhang, D., Cai, X., Xia, L., Luo, Y., Cheng, X*., An, S., 2019. Significant alterations in soil fungal communities along a chronosequence of Spartina alterniflora invasion in a Chinese Yellow Sea coastal wetland. Science of the Total Environment 693, 133548.
Yang, W*., Jeelani, N., Zhu, Z., Luo, Y., Cheng, X*., An, S., 2019. Alterations in soil bacterial community in relation to Spartina alterniflora Loisel. invasion chronosequence in the eastern Chinese coastal wetlands. Applied Soil Ecology 135, 38-43.
Yang, W*., Xia, L., Zhu, Z., Jiang, L., Cheng, X*., An, S., 2019. Shift in soil organic carbon and nitrogen pools in different reclaimed lands following intensive coastal reclamation on the coasts of eastern China. Scientific Reports 9, 5921.
2018年
Feng J, Wu J, Zhang Q, Zhang D, Li Q, Long C, Yang F, Chen Q, Cheng X*. 2018. Stimulation of nitrogen-hydrolyzing enzymes in soil aggregates mitigates nitrogen constraint for carbon sequestration following afforestation in subtropical China. Soil Biology & Biochemistry123,136-144.
Wu, J., Zhang, D., Chen, Q., Feng, J., Li, Q., Yang, F., Zhang, Q., Cheng, X*., 2018. Shifts in soil organic carbon dynamics under detritus input manipulations in a coniferous forest ecosystem in subtropical China. Soil Biology and Biochemistry 126, 1-10
Feng J, Xia X, W J, Zhang Q, Zhang D, Li Q, Long C, Chen Q, Chen J, Cheng X*. 2018. Inhibited enzyme activities in soil macroaggregates contribute to enhanced soil carbon sequestration under afforestation in central China. Science of the Total Environment.640-641, 653-661.
Yang F, Wu J, Zhang D, Chen Q, Zhang Q, Cheng X*. 2018. Soil bacterial community composition and diversity in relation to edaphic properties and plant traits in grasslands of southern China. Applied Soil Ecology.128,43-53.
Zhang K*, Song C, Zhang Y, Dang H, Cheng X*, Zhang Q*. 2018. Global-scale patterns of nutrient density and partitioning inforests in relation to climate. Global Change Biology.24, 536-551.
Wu J, Li Q, Chen J, Lei Y, Zhang Q, Yang F, Zhang D, Zhang Q, Cheng X*. 2018. Afforestation enhanced soil CH4 uptake rate in subtropical China: Evidencefrom carbon stable isotope experiments. Soil Biology & Biochemistry. 118, 199-204.
Zhang Q#, Wu J#, Lei Y, Yang F, Zhang D, Zhang K*, Zhang Q, Cheng X*. 2018.Agricultural land use change impacts soil CO2 emission and its 13C-isotopicsignature in central China.Soil & Tillage Research.177, 105-112.
2017年
Wu, J., Zhang, Q., Yang, F., lei, Y., Zhang, Q., Cheng, X*. 2017. Does short-term litter input manipulation affect soil respiration and its carbon-isotopic signature in a coniferous forest ecosystem of central China. Applied Soil Ecology.113, 45-53.
Yang, W., Qiao, Y., Li, N., Zhao, H., Yang, R., Leng, X*.,Cheng, X*., An, S., 2017. Seawall construction alters soil carbon and nitrogen dynamics and soil microbial biomass in an invasive Spartina alterniflora salt marsh in eastern China. Applied Soil Ecology. 110, 1-11.
Yang, W., Zhao, H., Leng, X*.,Cheng, X*., An, S., 2017. Soil organic carbon and nitrogen dynamics following Spartinaalterniflora invasion in a coastal wetland of eastern China. Catena. 156, 281-289.
2016年
Zhang Q,We J,Yang F,Lei Y,Zhang Q, Cheng X*,2016. Alterations in soil microbial community composition and biomass following agricultural land use change. Scientific Reports. 6:36587.
Deng Q,Cheng X*, Bowatte S, Newton P, Zhang Q. 2016.Rhizospheric carbon-nitrogen interactions in a mixed-species pasture after 13 years of elevated CO2. Agriculture, Ecosystems and Environment. 235: 134–141.
Yang W, Li N, Leng X*, Qiao Y, Cheng X*, An Q. 2016 The impact of sea embankment reclamation on soil organic carbonand nitrogen pools in invasive Spartina alterniflora and native Suaedasalsa salt marshes in eastern China . Ecological Engineering. 97 : 582–592.
Yang W, Jeelani N, Leng X*, Cheng X*,An Q. 2016. Spartina alterniflora invasion alters soil microbial community composition and microbial respiration following invasion chronosequence in a coastal wetland of China .Scientific Reports. 6 : 26880
Wu J, Zhang Q, Yang F, Lei Y, Zhang Q, Cheng X*. 2016. Afforestation impacts microbial biomass and its natural 13C and 15N abundance in soil aggregates in central China. Science of the Total Environment. 568:52-56.
Yang W, Jeelani N, Leng X, Cheng X*, An S. 2016. S. Spartinaalterniflora invasion alters soil microbial community composition and microbial respiration following invasion chronosequence in a coastal wetland of China. Scientific Reports. 6 : 26880.
Yang W, Yan Y, Jiang F, Leng X,, Cheng X*, An S. 2016. Response of the soil microbial community composition and biomass to a short-term Spartina alterniflora invasion in a coastal wetland of eastern China. Plant and Soil.408:443-456.
Deng Q., Cheng X*., Hui D., Zhang Q., Li M., Zhang Q., 2016. Soil microbial community and its interaction with soil carbon and nitrogen dynamics following afforestation in central China. Science of the Total Environment 541: 230-237.
Dou X., Xu X., Shu X., Zhang Q., Cheng X*.,2016. Shifts in soil organic carbon and nitrogen dynamics for afforestation in central China. Ecological Engineering 87: 263-270.
Dou X., Zhou W., Zhang Q., Cheng X*. 2016. Greenhouse gas (CO2, CH4, N2O) emissions from soils following afforestation in central China. Atmospheric Environment 126: 98-106.
Yang W., An S., Zhao H., Xu L., Qiao Y., Cheng X*., 2016. Impacts of Spartina alterniflora invasion on soil organic carbon and nitrogen pools sizes, stability, and turnover in a coastal salt marsh of eastern China. Ecological Engineering 86: 174-182.
2015年
Zhang K*, Dang H, Zhang Q*, Cheng X*. 2015. Soil carbon dynamics following land-use change varied with temperature and precipitation gradients: Evidence from stable isotopes. Global Change Biology, 21: 2762-2772.
Ye C, Cheng X*, Liu W, Zhang Q. 2015. Revegetation impacts soil nitrogen dynamics in the water level fluctuation zone of the Three Gorges Reservoir, China. Science of the Total Environment. 517: 76-85.
Yang W, An S, Zhao H, Fang S, Xia L, Xiao Y, Qiao Y, Cheng X*. 2015. Labile and Recalcitrant Soil Carbon and Nitrogen Pools in Tidal Salt Marshes of the Eastern Chinese Coast as Affected by Short-Term C4 Plant Spartina alterniflora Invasion. CLEAN - Soil Air Water, 43, 872-880
Yin S, An S, Deng Q, Zhang J, Ji H, Cheng X*. 2015. Spartina alterniflora invasions impact CH4 and N2O fluxes from a salt marsh in eastern China. Ecological Engineering. 81: 192-199.
Zhou L, Yin S, Yang W, Deng Q, Xie D, Ji H, Ouyang Y, Cheng X*. 2015. Spartina alterniflora Invasion Alters Carbon Exchange and Soil Organic Carbon in Eastern Salt Marsh of China. CLEAN - Soil Air Water. 43: 569-576.
2014年
Li M, Zhou X, Zhang Q, Cheng X*. 2014. Consequences of afforestation for soil nitrogen dynamics in central China. Agriculture, Ecosystems and Environment, 183, 40-46.
Deng Q, Cheng X*, Yang Y, Zhang Q, Luo Y. 2014. Carbon-nitrogen interactions during afforestation in central China. Soil Biology and Biochemistry, 69, 119-122.
2013年
Yang W, Zhao H, Chen X, Yin S, Cheng X*, An S. 2013. Consequences of short-term C4 plant Spartina alterniflora invasions invasionsfor soil organic carbon dynamics in a coastal wetland of Eastern China. Ecological Engineering, 61, 50-57.
Dou X, Deng Q, Li M, Wang B, Zhang Q, Cheng, X.* 2013. Reforestation of Pinus massoniana alters soil organic carbon and nitrogen dynamics in eroded soil in south China. Ecological Engineering, 52, 154-160.
An S, Tian Z, Cai Y, Wen T, Xu D, Jiang H, Yao Z, Guan B, Sheng S, Ouyang Y, Cheng, X.* 2013. Wetlands of Northeast Asia and High Asia: an overview. Aquatic Sciences, 75, 63-71.
Cheng, X., Yang Y, Li M, Dou X, Zhang Q. 2013. The impact of agricultural land use changes on soil organic carbon dynamics in the Danjiangkou Reservoir area of China. Plant and Soil 366, 415-424.
2012年
Chen Y, Cheng, X.*, Zhang Y., Wang Z., Zhang Q. 2012. Soil nitrogen dynamics following short-term revegetation in the water level fluctuation zone of the Three Gorges Reservoir, China. Ecological Engineering 38, 37-44.
2011年
Cheng, X., Luo Y. Xu X, Zhang Q. 2011. Soil organic matter dynamics in a North America tallgrass prairie after 9 years of experimental warming. Biogeosciences 8, 1487-1498.
Cheng, X., Luo Y, Su, B., Zhang Q. 2011. Experimental clipping and shading regulate soil nitrogen dynamics in a tallgrass prairie. Journal of Plant Ecology 4, 228-235.
2010年
Cheng, X., Luo, Y., Su, B.,Zhou, X., Niu, S., Sherry, B., Weng, E., Zhang, Q. 2010. Experimental warming and clipping altered litter carbon and nitrogen dynamics in a tallgrass prairie. Agriculture, Ecosystems and Environment 138, 206-213.
Cheng, X., Luo, Y., Xu, Q., Lin, G., Zhang, Q., Li, B. 2010. Seasonal variation in CH4 emission and its 13C-isotopic signature from Spartina alterniflora and Scirpus mariqueter soils on a growing estuarine island. Plant and Soil 327: 85-94.
2004年至2009年
Cheng, X., Luo Y, Su B, Verburg P, Obrist D, Arnone III J, Johnson D, Evans R. 2009. Responses of net ecosystem CO2 exchange to nitrogen fertilization in experimentally manipulated grassland ecosystems. Agricultural and Forest Meteorology 149: 1956-1963.
Cheng, X., Chen, J., Luo, Y., Li, Bo. 2008. Assessing the effects of short-term Spartina alterniflora invasion on labile and recalcitrant C and N pools by means of soil fractionation and stable C and N isotopes. Geoderma 145: 177-184.
Cheng, X., Peng R., Chen J., Luo Y., Zhang Q., An S., Chen J., Li B. 2007. CH4 and N2O emissions from Spartina alterniflora and Phragmites australis in experimental mesocosms. Chemosphere 68:420-427.
Cheng, X., An S., Chen J., Li B., Liu Y., Liu S. 2007. Spatial relationships among species, aboveground biomass, N, and P in disturbed prairie communities in Ordos Plateau, northwestern China. Journal of Arid Environments 68: 652-667.
Cheng, X., Luo Y., Chen J., Lin G., Chen J., Li B. 2006. Short-term C4 plant Spartina alterniflora invasions change the soil carbon in C3 plant-dominated tidal wetlands on a growing estuarine island. Soil Biology & Biochemistry 38: 3380-3386.
Cheng, X., An S., Li B., Chen J., Lin G., Luo Y., Liu Y., Liu S. 2006. Summer rain pulse size and rainwater uptake by three dominant desert plants in a desertified grassland ecosystem in northwestern China. Plant Ecology, 184:1-12.
Cheng, X., An S., Liu S., Li G. 2004. Micro-scale spatial heterogeneity and the loss of carbon, nitrogen and phosphorus in degraded grassland in Ordos Plateau, northwestern China. Plant and Soil. 259:29-37.
获得专利:
一种淮河河道生态恢复植被的构建方法 发明专利ZL 201110404037.7 程晓莉,田自强,窦晓琳等。
红壤侵蚀退化立地的植被恢复的方法 发明专利ZL 201110250963.3 程晓莉,王伟波,窦晓琳,张全发。
新筑海堤绿化护坡的植被重建方法。发明专利(ZL 010037368.7)。安树青,程晓莉,李远等。
合作作者论文:
Cai, X., Zhang, D., Wang, Y., Diao, L., Cheng, X., Luo, Y., An, S., Yang, W., 2022. Shift in soil microbial communities along ~160 years of natural vegetation restoration on the Loess Plateau of China. Applied Soil Ecology 173:104394
Zhang, D., Cai, X., Diao, L., Wang, Y., Wang, J., An, S., Cheng, X., Yang, W., 2022.Changes in soil organic carbon and nitrogen pool sizes, dynamics, and biochemical stability during ~160 years natural vegetation restoration on the Loess Plateau, China. Catena 211:106014
Wu, J., Cheng, X., Xing, W., Liu, G., 2022. Soil-atmosphere exchange of CH4 in response to nitrogen addition in diverse upland and wetland ecosystems: A meta-analysis. Soil Biology and Biochemistry 164:108467.
Li H, Huo D, Wang W, Chen Y, Cheng X, Yu G, LI R. 2020. Multifunctionality of biocrusts is positively predicted by network topologies consistent with interspecies facilitation. Molecular Ecology. 2020;00:1–14.
Zhang K., Cheng X., Dang H., Zhang Q., 2020. Biomass:N:K:Ca:Mg:P ratios in forest stands world-wide:Biogeographical variations and environmental controls. Global Ecology and Biogeography. DOI: 10.1111/geb.13187
Zhang, M., Cheng, X., Geng, Q., Shi, Z., Luo, Y., Xu, X., Morellato, P., 2019. Leaf litter traits predominantly control litter decomposition in streams worldwide. Global Ecology and Biogeography 28, 1469-1486.
Zhang K., Li X., Cheng X., Zhang Z., Zhang Q., 2019. Changes in soil properties rather than functional gene abundance control carbon and nitrogen mineralization rates during long-term natural revegetation. Plant and Soil DOI: 10.1007/s11104-019-04212-9.
Bian, H., Geng, Q., Xiao, H., Shen, C., Li, Q., Cheng, X., Luo, Y., Ruan, H., Xu, X*., 2019. Fine Root Biomass Mediates Soil Fauna Community in Response to Nitrogen Addition in Poplar Plantations (Populus deltoids) on the East Coast of China. Forests 10.
Zhang K., Cheng X., Shu X., Liu Y., Zhang Q., 2018. Linking soil bacterial and fungal communities to vegetation succession following agricultural abandonment. Plant and Soil 431: 19-36.
Ye C, Cheng X, Zhang K, Du M, Zhang Q. 2017.Hydrologic pulsing affects denitrification rates and denitrifier communities in a revegetated riparian ecotone. Soil Biology & Biochemistry. 115, 137-147.
Li Q, Cheng X, Luo Q, Xu Z, Xu L, Ruan H, Xu X*. 2017. Consistent temperature sensitivity of labile soil organic carbon mineralization along an elevation gradient in the Wuyi Mountains, China. Applied Soil Ecology.117-118, 32-37.
Pesola L, Cheng X, Sanesi G, Colangelo G, Elia M, Lafortezza R. 2017. Linking above-ground biomass and biodiversity to stand development in urban forest areas: A case study in Northern Italy. Landscape and Urban Planning.157, 90-97.
Dou X, Cheng X.He P, Zhu P, Zhou W, Wang L. 2017.Dynamics of physically- separated soil organic carbon pools assessed fromδ13C changes under 25 years of cropping systems. Soil & Tillage Research.174, 6-13.
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承担科研项目
云南省基础研究专项重大项目子课题(编号:202303AC100009):“林草生态系统碳汇管理的关键技术研发与集成示范”(2023年-2025年)。
国家自然科学基金重点项目(编号:32130069):“植被恢复对生态系统多功能性的影响及其机制”(2022年-2026年)。
中国科学院战略性先导科技专项(A类)专课题(编号:XDA26010102-4):“云南-广西草地资源清查”(2020年-2025年)。
云南省基础研究专项重大项目专课题:“云南草地植被调查”,“《云南植被志》草地植被研编”(2021年-2024年)。
云南省重点研发计划社会发展专项子课题(编号:202103AC100001):“程海面山治理生态修复区生态效应与示范的研究”(2021年-2024年)。
beat365官方网站双一流引进人才科研项目(编号:C176220100143):“云南典型生态系统碳氮磷循环对气候变化和土地利用变化的响应机制”(2019年–2025年)
国家自然科学基金面上项目(编号:31770563):“土地利用变化背景下凋落物分解与微生物群落之间相互作用机制的研究” (2018年–2021年)。
国家自然科学基金面上项目(编号:31470557):“丹江口水库库区土地利用变化背景下土壤碳循环及其关键微生物驱动过程的研究”(2015年–2018年)。
中国科学院战略性先导科技专项(B类)专课题(编号:XDB05010201-1): “南方典型次生草地土壤微生物空间分布格局与形成机理”(2015年–2018年)。
国家自然科学基金面上项目(编号:31470557):“丹江口水库库区土地利用变化背景下土壤碳循环及其关键微生物驱动过程的研究”(2015年–2018年)。
国家自然科学基金面上项目(编号:1131270550022):“丹江口库区土地利用变化对土壤碳库及温室气体释放的影响” (2013 年–2016 年)。
国家自然科学基金面上项目(编号:1131070417):“河岸带湿地植被对氮循环的影响:以清塘河入丹江口水库口湿地生态系统为例”(2010 年–2013 年)。
十一五国家科技支撑计划项目(编号:132009BADC6B00123):“红壤侵蚀退化立地的植物生物工程技术”(2009 年–2011 年)。
国家方向性项目(编号:1ZY11Z131C0113013):“生态河岸带最优植被技术研发”(2010 年–2011 年)。
国家方向性项目(编号:1ZO91Z461L0346):“湖泊生态系统修复-2”(2010 年–2011 年)。
知识创新工程领域前沿项目(54O754091C0112):丹江口湿地物质循环(2007 年–2010 年)。