- 魏存争
- 研 究 组 : 草地生物地球化学研究组
- 民 族: 汉
- 研究领域: 生态系统生态学
- 籍 贯: 山东巨野
- 导师资格: 硕士生导师
- 出生年月: 1983.01
- 职 称: 副研究员
- 毕业院校: 中国科学院植物研究所
- 入职时间: 2016.02
- 毕业时间: 2013.06
- 办公电话: 010-62836974
- 电子邮件: weicunzheng@ibcas.ac.cn
国家自然科学基金面上项目,基因组大小调控草原植物群落对水分和养分变化的响应,32371620,2024-2027,主持
中国华能集团有限公司总部科技项目,光伏电站适用抗逆植物筛选与生态修复技术研发,2023-2025,共同主持
科技部国家重点研发计划项目子课题,北方农牧交错带退化草地生态系统物种多样性、生产力与稳定性之间的关系,2016YFC0500703,2016-2021,主持
国家自然科学基金青年项目,内蒙古草原土壤线虫群落对植物功能群剔除的响应,31400390,2015-2017,主持
代表性论文专著:
2024
[1] Smith MD#, Wilkins KD#, Holdrege MC, Wilfahrt P, Collins SL, Knapp A K, Sala O E, Dukes J S, Phillips R P, Yahdjian L, Gherardi LA, Ohlert T, Beier C, Fraser LH, Jentsch A, Loik ME, Maestre FT, Power SA, Yu Q, Felton AJ, Munson SM, Luo YQ, Abdoli H, Abedi M, Alados CL, Alberti J, Alon M, An H, Anacker B, Anderson M, Auge H, Bachle S, Bahalkeh K, Bahn M, Batbaatar A, Bauerle T, Beard KH, Behn K, Beil I, Biancari L, Blindow I, Bondaruk VF, Borer ET, Bork EW, Bruschetti CM, Byrne KM, Cahill JF, Calvo DA, Carbognani M, Cardoni A, Carlyle CN, Castillo-Garcia M, Chang SX, Chieppa J, Cianciaruso MV, Cohen O, Cordeiro AL, Cusack DF, Dahlke S, Daleo P, D'Antonio CM, Dietterich LH, Doherty TS, Dubbert M, Ebeling A, Eisenhauer N, Fischer FM, Forte TGW, Gebauer T, Gozalo B, Greenville AC, Guidoni-Martins KG, Hannusch HJ, Vatso Haugum S, Hautier Y, Hefting M, Henry HAL, Hoss D, Ingrisch J, Iribarne O, Isbell F, Johnson Y, Jordan S, Kelly EF, Kimmel K, Kreyling J, Kroel-Dulay G, Kropfl A, Kubert A, Kulmatiski A, Lamb EG, Larsen KS, Larson J, Lawson J, Leder CV, Linstadter A, Liu J, Liu S, Lodge AG, Longo G, Loydi A, Luan J, Lubbe FC, Macfarlane C, Mackie-Haas K, Malyshev AV, Maturano-Ruiz A, Merchant T, Metcalfe DB, Mori AS, Mudongo E, Newman GS, Nielsen UN, Nimmo D, Niu YJ, Nobre P, O'Connor RC, Ogaya R, Onatibia GR, Orban I, Osborne B, Otfinowski R, Partel M, Penuelas J, Peri PL, Peter G, Petraglia A, Picon-Cochard C, Pillar VD, Pineiro-Guerra JM, Ploughe LW, Plowes RM, Portales-Reyes C, Prober SM, Pueyo Y, Reed SC, Ritchie EG, Rodriguez DA, Rogers WE, Roscher C, Sanchez AM, Santos BA, Scarfo MC, Seabloom EW, Shi BK, Souza L, Stampfli A, Standish RJ, Sternberg M, Sun W, Sunnemann M, Tedder M, Thorvaldsen P, Tian D, Tielborger K, Valdecantos A, Brink LVD, Vandvik V, Vankoughnett MR, Guri Velle L, Wang CH, Wang Y, Wardle G M, Werner C, Wei CZ, Wiehl G, Williams JL, Wolf AA, Zeiter M, Zhang FW, Zhu JT, Zong N, Zuo XA. 2024. Extreme drought impacts have been underestimated in grasslands and shrublands globally. Proceedings of the National Academy of Sciences of the United States of America, 121 (4), e2309881120.
2023
[2] Su J, Zhang HY, Han XG, Lü RF, Liu L, Jiang Y, Li H, Kuzyakov Y, Wei CZ*. 2023. 5300-Year-old soil carbon is less primed than young soil organic matter. Global Change Biology, 29: 260-275.
[3] Zhang HY#*, Lü XT#, Wei CZ#, Powell JR, Wang XB, Xing DL, Xu ZW, Li HL, Han XG. 2023. β-diversity in temperate grasslands is driven by stronger environmental filtering of plant species with large genomes. Ecology, 104(3): e3941.
[4] Guo XX*, Zuo XA*, Medina-Roldán E, Guo AX, Yue P*, Zhao XY*, Qiao JJ, Li XY*, Chen M, Wei CZ*, Yang T, Ke YG, Yu Q*. 2023. Effects of multi-resource addition on grassland plant productivity and biodiversity along a resource gradient. Science of the Total Environment, 857: 159367.
[5] Shao LY, Peng Y, Liu HY, Zhao RN, Jiang LC, Li Y, Han P, Jiang Y, Wei CZ, Han XG, Huang JH*. 2023. Applied phosphorus is maintained in labile and moderately occluded fractions in a typical meadow steppe with the addition of multiple nutrients. Journal of Environmental Management, 345: 118807.
[6] He P, Ling N*, Lü XT, Zhang HY, Wang C, Wang RZ, Wei CZ, Yao J, Wang XB*, Han XG, Nan ZB. 2023. Contributions of abundant and rare bacteria to soil multifunctionality depend on aridity and elevation. Applied Soil Ecology, 188: 104881.
2022
[1] Peng Y#, Yang JX#, Leitch I J, Guignard MS, Seabloom EW, Cao D, Zhao FY, Li HL, Han XG, Jiang Y, Leith AR*, Wei CZ*. 2022. Plant genome size modulates grassland community responses to multi-nutrient additions. New Phytologist, 236: 2091-2102.
[2] Zhao M, Zhang HX, Baskin CC, Wei CZ, Yang JJ, Zhang YH, Jiang Y, Jiang L, Han XG*. 2022. Intra‐annual species gain overrides species loss in determining species richness in a typical steppe ecosystem after a decade of nitrogen enrichment. Journal of Ecology, 110 (8): 1942-1956.
[3] Su J, Zhang HY, Han XG, Penuelas J, Filimonenko E, Jiang Y, Kuzyakov Y, Wei CZ*. 2022. Low carbon availability in paleosols nonlinearly attenuates temperature sensitivity of soil organic matter decomposition. Global Change Biology, 28: 4180-4193.
[4] Wang RZ#, Yang JJ#, Liu HY#, Sardans J, Zhang YH, Wang XB, Wei CZ, Lü XT, Dijkstra FA, Jiang Y, Han XG*, J Peñuelas. 2022. Nitrogen enrichment buffers phosphorus limitation by mobilizing mineral-bound soil phosphorus in grasslands. Ecology, 103: e3616.
2021
[1] Ning QS, Hättenschwiler S, Lü XT, Kardol P, Zhang YH, Wei CZ, Xu CY, Huang JH, Li A, Yang JJ, Wang J, Peng Y, Peñuelas J, Sardans J, He JZ, Xu ZH, Gao YZ*, Han XG*. 2021. Carbon limitation overrides acidification in mediating soil microbial activity to nitrogen enrichment in a temperate grassland. Global Change Biology, 27(22): 5976-5988.
[2] Ren TT, He NP*, Liu ZG, Li MX, Zhang JH, Li A, Wei CZ, Lü XT, Han XG*. 2021. Environmental filtering rather than phylogeny determines plant leaf size in three floristically distinctive plateaus. Ecological Indicators, 130: 108049.
[3] Sun QQ#, Yang JJ#, Wang S, Yang FY, Zhang GM, Wei CZ, Han XG*, Li JS *. 2021. Nitrogen enrichment affects the competition network of aboveground species on the Inner Mongolia steppe. Global Ecology and Conservation, 31: e01826.
[4] Xiong D#, Wei CZ#, Wang XG, Lü XT, Fang S, Li YB*, Wang XB, Liang WJ, Han XG, Bezemer TM, Li Q*. 2021. Spatial patterns and ecological drivers of soil nematode β‐diversity in natural grasslands vary among vegetation types and trophic position. Journal of Animal Ecology, 90(5): 1367-1378.
2020
[1] Xiong D#, Wei CZ#, Wubs ERJ, Veen GJ, Liang WJ, Wang XB, Li Qi*, Van der P, Wim H, Han XG. 2020. Nonlinear responses of soil nematode community composition to increasing aridity. Global Ecology and Biogeography, 29(1): 117-126.
2019及以前
[1] 赵芳媛, 吕晓涛, 魏存争*, 韩兴国. 2019. 内蒙古草原不同基因组大小植物对氮水添加的响应. 应用生态学报, 30(8): 2675-2681.
[2] 李昂, 王扬, 薛建国, 任婷婷, 魏存争, 田秋英, 白文明, 白永飞, 黄建辉, 姜勇, 程玉臣, 孙海莲, 徐柱文, 赵玉金, 韩兴国*. 2019. 北方风沙区生态修复的科学原理、工程实践和恢复效果. 生态学报, 39(20): 7452-7462.
[3] Wei CZ#, Yu Q#, Bai E, Lü XT, Li Q, Xia JY, Kardol P, Liang WJ, Wang ZW, Han XG*. 2013. Nitrogen deposition weakens plant-microbe interactions in grassland ecosystems. Global Change Biology, 19(12): 3688-3697.
[4] Zhang HY, Wu HH, Yu Q*, Wang ZW, Wei CZ, Long M, Kattge J, Smith M, Han XG*. 2013. Sampling date, leaf age and root size: implications for the study of plant C:N:P stoichiometry. PloS One, 8(4): e60360.
[5] Wei CZ*, Zheng HF, Li Q, Lv XT, Yu Q, Zhang HY, Chen QS, He NP, Kardol P, Liang WJ, Han XG*. 2012. Nitrogen addition regulates soil nematode community composition through ammonium suppresssion. PloS One, 7: e43384.
[6] Lü XT, Wei CZ, Cui Q, Zhang YH, Han XG*. 2010. Interactive effects of soil nitrogen and water availability on leaf mass loss in a temperate steppe. Plant and Soil, 331:497-504.