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中国科学院水利部水土保持研究所导师教师师资介绍简介-张超

本站小编 Free考研考试/2021-07-13

姓名:张超
性别:
职称:研究员
职务:
学历:博士
电话:
传真:**
电子邮件:zhangchao1985@nwafu.edu.cn
通讯地址:陕西 杨凌 西农路26号水土保持研究所



简  历: 教育(访问)经历:
2002年-2007年,西南林业大学,林学,学士
2007年-2010年,西北农林科技大学,生态学,硕士
2010年-2013年,中国科学院教育部水土保持与生态环境研究中心,生态学,博士
工作经历:
2013年-2016年中国科学院水利部/西北农林科技大学水土保持研究所助理研究员
2017年-2019年中国科学院水利部/西北农林科技大学水土保持研究所副研究员
2020至今中国科学院水利部/西北农林科技大学水土保持研究所研究员

社会任职: 《水土保持通报》编委
研究方向: 生态恢复及其环境效应
承担科研项目情况: 氮肥施用对黄土丘陵区白羊草群落根-土界面碳流过程的影响机制国家自然科学基金面上项目2018-2021,60万
黄土丘陵区植被演替中典型草本群落根系分泌物化感作用国家自然科学基金青年项目2015-2018,27万
水土保持-经济协调发展型的生态设计十三五国家重点研发项目专题2017-2020,80万
模拟氮沉降对黄土丘陵区白羊草群落根际碳流过程的影响机制陕西省创新人才项目2020-2021,10万
黄土丘陵区典型草本群落自然演替中根际微生物特征研究中科院“西部之光”2013-2015,10万

代表论著: 发表论文60余篇,以第一作者/通讯作者发表论文论文39篇。
1.Wang J, Liu GB, Zhang C*,Wang GL (2020). Effect of long-term destocking on soil fungal functional groups and interactions with plants Plant and Soil, 448:495-508.
2.Wang J, Wang XT, Liu GB, Wang GL, Wu Y, Zhang C*. (2020). Fencing as an effective approach for restoration of alpine meadows: Evidence from nutrient limitation of soil microbes. Geoderma, 363 (1): 114148
3.Fang LC, Ju WL, Yang CL, Jin XL, Liu DD, Li MD, Yu JL, Zhao W, Zhang C*. (2020). Exogenous application of signaling molecules to enhance the resistance of legume-rhizobium symbiosis in Pb/Cd-contaminated soils. Environmental Pollution, doi: https://doi.org/10.1016/j.envpol.2020.114744.
4.Zhang C*, Song ZL, Zhuang HD, Wang J, Xie SS, Liu GB. (2019). Urea fertilization decreases soil bacterial diversity, but improves microbial biomass, respiration, and N-cycling potential in a semiarid grassland. Biology and Fertility of Soils, 55:229-242
5.Fang LC, Ju WL, Yang CL, Duan CJ, Cui YX, Han Fu, Shen GT, Zhang C*. (2019). Application of signaling molecules in reducing metal accumulation in alfalfa and alleviating metal-induced phytotoxicity in Pb/Cd-contaminated soil. Ecotoxicology and Environmental Safety 182: 109459.
6.Wang J, Liu GB, Zhang C*, Wang GL, Fang LC, Cui YX. (2019). Higher temporal turnover of soil fungi than bacteria during long-term secondary succession in a semiarid abandoned farmland. Soil & Tillage Research 194:104305
7.Zhang C, Li J, Wang J, Liu GB, Wang GL, Guo L, Peng SZ*. (2019). Decreased temporary turnover of bacterial communities along soil depth gradient during a 35-year grazing exclusion period in a semiarid grassland, Geoderma 351: 49-58
8.Zhang C, Wang J, Liu GB, Song ZL, Fang LC*. (2019). Impact of soil leachate on microbial biomass and diversity affected by plant diversity. Plant and Soil 439: 505-523
9.Peng SZ, Yu KL, Li Z, Wen ZM, Zhang C*. (2019). Integrating potential natural vegetation and habitat suitability into revegetation programs for sustainable ecosystems under future climate change. Agricultural and Forest Meteorology, 269-270: 270-284
10.Song ZL, Fang LC, Wang J, Zhang C*. (2019). Use of biogas solid residue from anaerobic digestion as an effective amendment to remediate Cr(VI)-contaminated soils. Environmental Science and Pollution Research, 26:13041–13053.
11.Song ZL, Liu GB, Zhang C*. (2019). Response of rhizosphere microbial communities to plant succession along a grassland chronosequence in a semiarid area. Journal of Soils and Sediments, 19: 2496–2508.
12.Song ZL, Wang J, Liu GB, Zhang C*. (2019). Changes in nitrogen functional genes in soil profiles of grassland under long-term grazing prohibition in a semiarid area. Science of the Total Environment 673: 92–101
13.Zhang C, Liu GB, Song ZL, et al., Interactions of soil bacteria and fungi with plants during long-term grazing exclusion in semiarid grasslands.Soil Biology and Biochemistry, 2018, 124: 47–58.
14.Zhang C, Liu GB, Xue S, et al.,Effects of rhizosphere interactions of grass interspecies on the soil microbial properties during the natural succession in the Loess Plateau. European Journal of Soil Biology, 2018,85: 79–88
15.Zhang C, Liu GB, Song ZL, et al.Natural succession on abandoned cropland effectively decreases the soil erodibility and improves the fungal diversity. EcologicalApplications, 2017, 27(7):2142–2154.
16.Deng L, Shangguan ZP, Zhang C*, et al., Above‐ground and below‐ground ecosystem biomass accumulation and carbon sequestration with Caragana korshinskii Kom plantation development. Land Degradation & Development, 2017, 28: 906–917.
17.Zhang C, Xue S, Liu GB, et al. Soil bacterial community dynamics reflect changes in plant community and soil properties during the secondary succession of abandoned farmland in the Loess Plateau. Soil Biology & Biochemistry, 2016, 97: 40-49.(1%高被引文章)
18.Song ZL, Zhang C*. Anaerobic codigestion of pretreated wheat straw with cattle manure and analysis of the microbial community. Bioresource Technology, 2015,186:128–135.
19.Zhang C, Liu GB, Xue S.2015.Changes in rhizospheric microbial community structure and function during the natural recovery of abandoned cropland on the Loess Plateau China. Ecological Engineering, 75, 161–171.
20.Song Z, Zhang C*, Liu GB, et al. Fractal Feature of Particle-Size Distribution in the Rhizospheres and Bulk Soils during Natural Recovery on the Loess Plateau, China. PLoS ONE, 2015, 10(9): e**.
21.Zhang C, Liu GB, Xue S. et al.Soil organic carbon and nitrogen storage as affected by the land use in a small watershed on the Loess Plateau, China. European Journal of Soil Biology, 2013, 54: 16-24.
22.Zhang C, Xue S, Liu GB, et al.Effect of different vegetation types on the rhizosphere soil microbial community structure in the Loess Plateau of China. Journal of Integrative Agriculture, 2013, 12(11): 2103-2113.
23.Zhang C, Liu GB, Xue S. et al. Rhizosphere soil microbial properties on abandoned croplands in the Loess Plateau, China during vegetation succession. European Journal of Soil Biology, 2012, 50: 127-136.
24.Zhang C, Liu GB, Xue S et al. Rhizosphere characteristic of available trace elements during the succession on abandoned croplands in the Loess Plateau, China. Soil Science, 2012, 177: 619-627.
25.Zhang C, Liu GB, Xue S. et al. A comparison of soil qualities of different revegetation types in the Loess Plateau, China. Plant and Soil, 2011, 347(1-2): 163-178.
26.Zhang C, Liu GB, Xue S.et al.Rhizosphere soil microbial activity under different vegetation types on the Loess Plateau, China.Geoderma, 2011, 161: 115-125.
27.张超,刘国彬,薛萐,等.黄土丘陵区不同植被根际土壤微量元素含量特征.应用生态学报,2012, 23 (3): 645-650
28.张超,董淑琦,刘国彬,薛萐,等.黄土丘陵区植被演替中不同草本植物间的化感效应,草地学报, 2012. 20(5): 848-854.
29.张超,刘国彬,薛萐,等.黄土丘陵区不同植被类型根际土壤微团聚体及颗粒分形特征,中国农业科学,2011, 44 (3): 507-515.
30.张超,刘国彬,薛萐,等.黄土丘陵区不同林龄人工刺槐林土壤酶演变特征.林业科学, 2010, 46(12): 23-29.
31.张超,刘国彬,薛萐,等. 黄土丘陵区不同林龄人工刺槐林土壤抗蚀性演变特征.中国水土保持科学, 2010, 8(2): 1-7.
32.张超,刘国彬,薛萐,等.黄土丘陵区坡改梯田土壤碳库组分演变特征.水土保持研究, 2010, 17(1): 20-24.
33.张超,刘国彬,薛萐,等.黄土丘陵区不同植被类型根际微生物群落功能多样性研究.草地学报, 2015. 23(4): 710-717.
34.张超,刘国彬,薛萐,等.黄土丘陵区撂荒农耕地土壤有效态微量元素演变特征.中国农业科学, 2013,46(18):3809-3817.
35.廖李容,王杰,张超*,刘国彬,宋籽霖.禁牧对半干旱草地土壤氮循环功能基因丰度和氮储量的影响.应用生态学报, 2019, 3(10): 3473-3481.
36.马亚亚,刘国彬,张超*,王杰.陕北安塞县生态与经济系统耦合协调发展研究.生态学报, 2019, 39(18): 6840-6849.
37.马亚亚,王杰,张超*,刘国彬,庞国伟.基于CSLE模型的陕北纸坊沟流域土壤侵蚀评价.水土保持通报, 2018, 38(6): 95-102
38.张超,马亚亚,刘国彬,王杰,李静.黄土高原植被恢复过程中土壤微生物的演变特征.水土保持通报, 2018, 38(6): 240-247.
39.李静,马亚亚,王杰,刘国彬,张超*.固原市原州区生态环境与经济系统的耦合协调发展.水土保持通报, 2020, 40(1): 229-235

获奖及荣誉: 2017年入选西北农林科技大学青年英才培育计划
2017年中国生态系统研究网络(CERN)十佳青年优秀论文奖
2017年陕西省高校首批青年杰出人才
2018年陕西省青年科技新星
2019年陕西省秦岭生态环境保护青年****
2013年中国科学院院长优秀奖
2013年中国科学院水土保持研究所所长奖
2013年黄土高原土壤侵蚀与旱地农业国家重点实验室主任奖
2012年中国科学院-BHPB优秀博士奖
2012年中国科学院“朱李月华”优秀博士奖
2011年虞宏正教授优秀博士奖








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