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一、个人简介
蒋胜竞,男,1988年4月生,山东平邑人,博士,9001jcc金沙以诚为本 青年研究员
研究方向:全球变化下的植物与微生物相互作用研究。
二、学习经历
2011年9月-2018年6月, 9001jcc金沙以诚为本, 生命科学学院, 植物学, 理学博士
2015年4月-2015年8月, 爱沙尼亚, 塔尔图大学, 短期交流
2007年9月-2011年6月, 9001jcc金沙以诚为本, 生命科学学院, 生物科学基地班, 理学学士
三、工作经历
2018年10月-至今, 9001jcc金沙以诚为本, 9001jcc金沙以诚为本, 师资博士后、青年研究员
(*代表通讯作者,#代表共同第一作者)
[1] Shi HJ, Jiang SJ*, Bian JH, He J-S*. Livestock exclusion enhances shrub encroachment in an alpine meadow on the eastern Qinghai-Tibetan Plateau. Land Degradation & Development, 2022, doi: 0.1002/ldr.4541.
[2] Du J, Tian TY, Jiang SJ*. Divergent responses of plant and soil microbial community to short-term nutrient addition in alpine grassland on the Qinghai-Tibetan Plateau. Frontiers in Ecology and Evolution, 2022, 10:1056111.
[3] Jiang SJ*, Xiao BW, Fan XM, Li Y, Ma XL, Wang JB, Yue B, Zi HB. Roles of plants in controlling the response of soil bacterial community to climate warming on the Qinghai-Tibetan Plateau. European Journal of Soil Biology, 2022, 110: 103401.
[4] Jiang SJ, Ling N, Ma ZY, He XJ*, He J-S*. Short-term warming increases root-associated fungal community dissimilarities among host plant species on the Qinghai-Tibetan Plateau. Plant and Soil, 2021,466: 597-611.
[5] Jiang SJ, Liu YJ*, Luo JJ, Qin MS, Johnson NC, ?pik M, Vasar M, Chai YX, Zhou XL, Mao L, Du GZ, An LZ, Feng HY*. Dynamics of arbuscular mycorrhizal fungal community structure and functioning along a nitrogen enrichment gradient in an alpine meadow ecosystem. New Phytologist, 2018, 220: 1222-1235.
[6] Jiang SJ, Pan JB, Shi GX, Dorji T, Hopping KA, Klein JA, Liu YJ*, Feng HY*. Identification of root-colonizing AM fungal communities and their responses to short-term climate change and grazing on Tibetan plateau. Symbiosis, 2018, 74: 159-166.
[7] Ma WB#, Jiang SJ#, Féline A, Qin MS, Ma BB, Xie Z, Liu YJ, Feng HY, Du GZ, Ma XJ*, Xavier L R. Response of microbial functional groups involved in soil N cycle to N, P and NP fertilization in Tibetan alpine meadows. Soil Biology & Biochemistry, 2016, 101: 195?206.
[8] Ma XL, Jiang SJ, Zhang ZQ, Wang H, Song C, He J-S*. Long-term collar deployment leads to bias in soil respiration measurements. Methods in Ecology and Evolution, 2023, doi: 10.1111/2041-210X.14056
[9] Yang, Y, Shi, GX, Liu YJ, Ma L, Zhang ZH, Jiang SJ, Pan JB, Zhang Q, Yao BQ, Zhou HK*, Feng HY*. Experimental warming has not affected the changes in soil organic carbon during the growing season in an alpine meadow ecosystem on the Qinghai-Tibet Plateau. Frontiers in Plant Science, 2022, 13: 847680.
[10] Shi, GX, Yao BQ, Liu YJ, Pan JB, Jiang SJ, Wang YB, Wang ZB, Feng HY*, Zhou HK*. The effects of long-term warming on arbuscular mycorrhizal fungal communities depend on habitat type on the Qinghai-Tibet Plateau. Applied Soil Ecology, 2021, 167: 104030.
[11] Qin MS, Zhang Q*, Pan JB, Jiang SJ, Liu YJ, Bahadur Ali, Peng ZL, Yang Y, Feng HY*. Effect of arbuscular mycorrhizal fungi on soil enzyme activity is coupled with increased plant biomass. European Journal of Soil Science, 2020, 71: 84-92.
[12] Mao L, Pan JB, Jiang SJ, Shi GX, Qin MS, Zhao ZG, Zhang Q, An LZ, Feng HY, Liu YJ*. Arbuscular mycorrhizal fungal community recovers faster than plant community in historically disturbed Tibetan grasslands. Soil Biology and Biochemistry, 2019, 134: 131-141.
[13] Bahadur Ali, Jin ZC, Long XL, Jiang SJ, Zhang Q, Pan JB, Liu YJ, Feng HY*. Arbuscular mycorrhizal fungi alter plant interspecific interaction under the addition of nitrogen. European Journal of Soil Biology, 2019, 93: 103094.
[14] Bahadur A, Jin ZC, Jiang SJ, Chai YX, Zhang Q, Pan JB, Liu YJ, Feng HY*. Arbuscular mycorrhizal spores distribution across different ecosystems of Qinghai Tibetan plateau. Pakistan Journal of Botany, 2019, 51: 1481-1492.
[15] Qin MS, Shi GX, Zhang Q*, Meng YM, Liu YJ, Pan JB, Jiang SJ, Zhou GY, Feng HY. Arbuscular mycorrhizal fungi serve as keystone taxa for revegetation on the Tibetan Plateau. Journal of Basic Microbiology, 2019, 59: 609-620.
[16] Qin MS, Shi GX, Miranda J-P, Liu YJ, Meng YM, Pan JB, Chai YX, Jiang SJ, Zhou GY, Feng HY, Zhang Q*. Revegetation differentially influences microbial trophic groups in a Qinghai-Tibetan alpine steppe ecosystem. Journal of Basic Microbiology, 2019, 59: 992-1003.
[17] Chai YX, Jiang SJ, Guo WJ, Qin MS, Pan JB, Bahadur Ali, Shi GX, Luo JJ, Jin ZC, Liu YJ, Zhang Q*, An LZ, Feng HY*. The effect of slope aspect on the phylogenetic structure of arbuscular mycorrhizal fungal communities in an alpine ecosystem. Soil Biology and Biochemistry, 2018, 126: 103-113.
[18] Shi GX*, Yao BQ*, Liu YJ, Jiang SJ, Wang WY, Pan JB, Zhao XQ, Feng HY*, Zhou HK*. The phylogenetic structure of AMF communities shifts in response to gradient warming with and without winter grazing on the Qinghai?Tibet Plateau. Applied Soil Ecology, 2018, 121: 31-40.
[19] Liu YJ, Mao L, Li JY, Shi GX, Jiang SJ, Ma XJ, An LZ, Du GZ, Feng HY*. Resource availability differentially drives community assemblages of plants and their root-associated arbuscular mycorrhizal fungi. Plant and Soil, 2015, 386: 341-355.
[20] Liu YJ, Johnson NC, Mao L, Shi GX, Jiang SJ, Ma XJ, Du GZ, An LZ, Feng HY*. Phylogenetic structure of arbuscular mycorrhizal community shifts in response to increasing soil fertility. Soil Biology & Biochemistry, 2015, 89: 196-205.
[21] Shi GX, Liu YJ, Mao L, Jiang SJ, Zhang Q, Cheng G, An LZ, Du GZ, Feng HY*. Relative importance of deterministic and stochastic processes in driving arbuscular mycorrhizal fungal assemblage during the spreading of a toxic plant. PLoS ONE, 2014, 9: e95672.
[22] Mao L, Liu YJ, Shi GX, Jiang SJ, Li XM, An LZ, Feng HY*. Wheat cultivars form distictive communities of root-associated arbuscular mycorrhiza in a conventional agroecosystem. Plant and Soil, 2014, 374: 949-961.
[23] Shi GX, Liu YJ, Johnson NC, Olsson PA, Mao L, Cheng G, Jiang SJ, An LZ, Du GZ, Feng HY*. Interactive influence of light intensity and soil fertility on root-associated arbuscular mycorrhizal fungi. Plant and Soil, 2014, 378: 173-188.
[24] Liu YJ, Shi GX, Mao L, Cheng G, Jiang SJ, Ma XJ, An LZ, Du GZ, Johnson NC, Feng HY*. Direct and indirect influences of 8 yr of nitrogen and phosphorus fertilization on Glomeromycota in an alpine meadow ecosystem. New Phytologist, 2012, 194: 523-535.
[25] 井新*, 蒋胜竞, 刘慧颖, 李昱, 贺金生. 气候变化与生物多样性之间的复杂关系和反馈机制. 生物多样性, 2022, 30: 22462.
[26] 王谭国艳,马志远,李沛阳,郭俊宏,张嘉懿,蒋胜竞*. 短期增温对青藏高原高寒草甸不同植物根际丛枝菌根真菌的影响. 草地学报, 2021, 29: 1959-1966.
[27] 蒋胜竞,冯天骄,刘国华,贺金生*. 草地生态修复技术应用的文献计量分析. 草业科学, 2020, 37: 685-702.
[28] 蒋胜竞,罗佳佳,金中财,石国玺,柴宇星,刘永俊,冯虎元*. 氮肥处理下高寒草甸土壤水稳性团聚体的季节性变化特征. 土壤通报, 2018, 49: 329- 335.
[29] 蒋胜竞,石国玺,毛琳,潘建斌,安黎哲,刘永俊*,冯虎元*. 不同PCR引物在根系丛枝菌根真菌群落研究中的应用比较(英文版). 微生物学报, 2015, 55: 916-925.
[30] 蒋胜竞,刘永俊,石国玺,潘建斌,冯虎元*. 丛枝菌根真菌物种多样性及其群落构建机制研究进展. 生命科学, 2014, 26: 169-180.
五、主持科研项目
1.国家自然科学基金青年项目:气候变暖背景下高寒草甸土壤微生物对植物生长的影响(24万,31901115,2020.1-2022.12)
2.中国博士后科学基金:模拟增温对高寒草甸不同植物根系AM真菌的影响(8万,2019M653789;2019.01-2020.12)
3.9001jcc金沙以诚为本中央高校基本科研业务费专项:高寒草甸土壤微生物对植物生长的影响研究(8万,lzujbky-2019-pd01;2019.01-2020.12)
4.“双一流”引导专项-队伍建设经费-科研启动费,(100万元, 2022.04-2027.03)
5.甘肃省自然科学基金青年科技基金计划:基于生态化学计量学的高寒草地土壤微生物群落构建机制研究(4万,22JR5RA522)
2023年2月16日更新