张卫信
性 别:男
出生年月:1979.12
籍 贯:江西上饶
政治面貌:中共党员
系室:教育部重点实验室
职称:教授
办公地点:303
电子邮箱:weixinzhang@vip.henu.edu.cn
主要研究方向
土壤动物生态功能,土壤生物与生态系统服务;土壤生物对全球变化的响应与反馈;蚯蚓分布格局及其生态位的形成机制,蚯蚓对碳循环和养分循环的影响等。
教育经历
2005-3至2008-6, 中国科学院华南植物园, 生态及环境科学研究中心, 博士研究生,博士, 导师: 傅声雷
2007-2至2008-2, 美国佐治亚大学, 奥德姆生态学院, CSC公派联合培养博士生, 导师: Paul Hendrix
2002-9至2005-3, 中国科学院华南植物园与广东省科学院动物研究所, 生态及环境科学研究中心, 联合培养硕士研究生(转博), 导师: 郭明昉,李健雄
1998-9至2002-6, 西南师范大学, 生命科学学院, 本科,学士
科研与学术工作经历
2020-6至今, 伟德betvlctor1946, 伟德betvlctor1946, 教授
2016-8至今, 伟德betvlctor1946, 伟德betvlctor1946, 黄河学者特聘教授
2016-3至2020-5, 伟德betvlctor1946, 伟德betvlctor1946, 副研究员
2013-8至2016-2, 中国科学院华南植物园, 生态及环境科学研究中心, 副研究员
2008-8至2013-7, 中国科学院华南植物园, 生态及环境科学研究中心, 助理研究员
主讲课程
创新研修课《蚯蚓与全球变化》
主要科研成果
科研项目
(1) 科技部国家科技基础资源调查专项课题,2018FY100306,东部农区土壤动物群落特征及生存现状基础数据调查,2019-01至2023-12,198万元,在研,主持;
(2) 国家自然科学基金委员会面上项目,41877054,典型森林生态系统蚯蚓生态位的时空演变规律,2019-01至2022-12,61万元,在研,主持;
(3) 国家自然科学基金委员会面上项目,31570516,蚯蚓入侵对南亚热带森林根系碳转化过程的影响及机制,2016-01至2019-12,63万元,结题,主持;
(4) 国家自然科学基金委员会-广东省人民政府联合基金重点项目子课题,U1131001,华南退化红壤坡地不同恢复模式构建及养分持留和调控机理(负责土壤动物方向),2012-01至2015-12,80万元,结题,主持;
(5) 国家自然科学基金委员会青年科学基金项目,31000255,广东森林蚯蚓本土种与外来种分布格局及相互作用机制,2011-01至2013-12,19万元,结题,主持。
代表性论文、论著
1,He XX, Li XB, Liu T, Yang XJ, Cao JB, Tao LB, Wang XL, Liu ZF, Yao Q, Li YT, Zou XM, Shao YH, Li JX, Zhang WX*, Fu SL*. Earthworms negate the adverse effect of arbuscular mycorrhizae on living bacterial biomass and bacterial necromass accumulation in a subtropical soil. Soil Biology and Biochemistry, 2020, 151: 108052.
2,Zhang WX, Yu CD, Shen ZF, Liu S, Li SL, Shao YH, Fu SL*. An ignored key link in greenhouse effect: Soil and soil CO2 slow heat loss. Soil Ecology Letters, 2020, 2(4): 308-316.
3,Chen YP, Cao JB, He XX, Liu T, Shao YH, Zhang CL, Zhou QQ, Li F, Mao P, Tao LB, Liu ZF, Lin YB, Zhou LX, Zhang WX*, Fu SL*. Plant leaf litter plays a more important role than roots in maintaining earthworm communities in subtropical plantations. Soil Biology and Biochemistry, 2020, 144, 107777.
4,Lv MR, Fu SL, Shao YH, Lin YB, Wu JP, Zhang WX*. Earthworm Pontoscolex corethrurus stimulated soil CO2 emission by enhancing substrate availability rather than changing microbiota community structure. Science of the Total Environment, 2020, 717, 137227.
5,Zhang WX, Li JX*, Guo MF, Liao CH, He XX, Lin YB, Fu SL. The presence of earthworm Pontoscolex corethrurus rather than organic matter sources indirectly controls N2O flux in tropical plantation soils. European Journal of Soil Biology, 2020, 96, 103150.
6,Chen YQ, Cao JB, Zhao J, Wu JP, Zou XM, Fu SL, Zhang WX* . Labile C dynamics reflect soil organic carbon sequestration capacity: understory plants drive topsoil c process in subtropical forests. Ecosphere, 2019, 10(6): e02784.
7,Phillips HRP, Guerra CA, Bartz MLC, Briones MJI, Brown G, …, Zhang WX, Cameron EK, Eisenhauer N. Global distribution of earthworm diversity. Science. 2019, 366(6464): 480-485.
8,He XX, Chen Y, Liu S, Gunina A, Wang X, Chen W, Shao YH, Shi LL, Yao Q, Li JX, Zou XM, Schimel JP, Zhang WX*, Fu SL*. Cooperation of earthworm and arbuscular mycorrhizae enhanced plant n uptake by balancing absorption and supply of ammonia. Soil Biology & Biochemistry, 2018, 116: 351-359.
9,Shao Y, Zhang WX, Eisenhauer N, Liu T, Xiong Y, Liang C, Fu SL*. Nitrogen deposition cancels out exotic earthworm effects on plant-feeding nematode communities. Journal of Animal Ecology, 2017, 86: 708-717. (Editor highlighted paper, http://www.journalofanimalecology.org/view/0/infocus.html)
10,Wang M, Zhang WX, Xia H, Huang J, Wu, Z, Xu G. Effect of Collembola on mineralization of litter and soil organic matter. Biology & Fertility of Soils, 2017, 53(5):563-571.
11,Chen Y, Yu S, Liu S, Wang X, Zhang Y, Liu T, Zhou L, Zhang WX*, Fu SL*. Reforestation makes a minor contribution to soil carbon accumulation in the short term: Evidence from four subtropical plantations. Forest Ecology and Management, 2017, 384: 400-405.
12,Wu JP, Zhang WX, Shao YH, Wang XL, Zhang CL, Liang CF, Chen YQ, Fu SL*. Plant-facilitated effects of exotic earthworm Pontoscolex corethrurus on the soil carbon and nitrogen dynamics and soil microbial community in a subtropical field ecosystem. Ecology and Evolution, 2017, 7(21): 8709-8718.
13,Wu J, Li H, Zhang WX, Li F, Huang J, Mo Q, Xia H*. Contrasting impacts of two subtropical earthworm species on leaf litter carbon sequestration into soil aggregates. Journal of Soils and Sediments, 2017, 17(6): 1672-1681.
14,Shao Y, Wang X, Zhao J, Wu J, Zhang WX, Neher DA, Li Y, Lou Y, Fu SL*. Subordinate plants sustain the complexity and stability of soil micro-food webs in natural bamboo forest ecosystems. Journal of Applied Ecology, 2016, 53(1): 130-139. (Editor highlighted paper)
15,Lv M, Shao Y, Lin Y, Liang C, Dai J, Liu Y, Fan P, Zhang WX*, Fu SL*. Plants modify the effects of earthworms on the soil microbial community and its activity in a subtropical ecosystem. Soil Biology and Biochemistry, 2016, 103: 446-451.
16,Wang X, Wang XL, Zhang WX, Shao Y, Zou X, Liu T, Zhou L, Wan S, Rao X, Li Z, Fu SL*. Invariant community structure of soil bacteria in subtropical coniferous and broadleaved forests. Scientific Reports, 2016, 6: 19071.
17,Shi L, Zhang H, Liu T, Zhang WX, Shao Y, Ha D, Li Y, Zhang C, Cai X, Rao X, Lin Y, Zhou L, Zhao P, Ye Q, Zou X, Fu SL*. Consistent effects of canopy vs. understory nitrogen addition on the soil exchangeable cations and microbial community in two contrasting forests. Science of The Total Environment, 2016, 553: 349-357.
18,Zhang W, Shen W, Zhu S, Wan S, Luo Y, Yan J, Wang K, Liu L, Dai H, Li P, Dai K, Zhang WX, Liu Z, Wang F, Kuang Y, Li Z, Lin Y, Rao X, Li J, Zou B, Cai X, Mo J, Zhao P, Ye Q, Huang J, Fu SL*. CAN canopy addition of nitrogen better illustrate the effect of atmospheric nitrogen deposition on forest ecosystem? Scientific Reports, 2015, 5: 11245.
19,Mo Q, Zou B, Li Y, Chen Y, Zhang WX, Mao R, Ding Y, Wang J, Lu X, Li X, Tang J, Li Z*, Wang F*. Response of plant nutrient stoichiometry to fertilization varied with plant tissues in a tropical forest. Scientific Reports, 2015, 5: 14605.
20,Shao Y, Bao W, Chen D, Eisenhauer N, Zhang WX, Pang X, Xu G, Fu SL*. Using structural equation modeling to test established theory and develop novel hypotheses for the structuring forces in soil food webs. Pedobiologia, 2015, 58(4): 137-145.
21,Huang J, Zhang WX*, Liu M, Briones MJI, Eisenhauer N, Shao Y, Cai X, Fu SL, Xia H*. Different impacts of native and exotic earthworms on rhizodeposit carbon sequestration in a subtropical soil. Soil Biology and Biochemistry, 2015, 90: 152-160.
22,Wu J, Liu Z, Huang G, Chen D, Zhang WX, Shao Y, Wan S, Fu SL*. Response of soil respiration and ecosystem carbon budget to vegetation removal in Eucalyptus plantations with contrasting ages. Scientific Reports, 2014, 4: 6262.
23,Zhang WX, Hendrix PF, Dame LE, Burke RA, Wu J, Neher DA, Li J, Shao Y, Fu SL*. Earthworms facilitate carbon sequestration through unequal amplification of carbon stabilization compared with mineralization. Nature Communications, 2013, 4: 2576. (Editor highlighted paper)
24,Shao Y, Zhang WX, Liu Z, Sun Y, Chen D, Wu J, Zhou L, Xia H, Neher DA, Fu SL*. Responses of soil microbial and nematode communities to aluminum toxicity in vegetated oil-shale-waste lands. Ecotoxicology, 2012, 21(8): 2132-2142.
25,Zhang WX, Hendrix PF, Snyder BA, Molina M, Li J, Rao X, Siemann E, Fu SL*. Dietary flexibility aids Asian earthworm invasion in North American forests. Ecology, 2010, 91(7): 2070-2079.
26,Li J, Zhang WX, Liao C, Yang Y, Fu SL*. Responses of earthworms to organic matter at different stages of decomposition. Pedosphere, 2009, 19(3): 382-388.
27,Hendrix PF, Callaham Jr MA, Drake JM, Huang C-Y, James SW, Snyder BA, Zhang WX. Pandora's box contained bait: The global problem of introduced earthworms. Annual Review of Ecology Evolution and Systematics, 2008, 39: 593-613.
28,Shao Y, Zhang WX, Shen J, Zhou L, Xia H, Shu W, Ferris H, Fu SL*, Nematodes as indicators of soil recovery in tailings of a lead/zinc mine. Soil Biology and Biochemistry, 2008, 40(8): 2040-2046.
29,Fu SL, Zhou L, Shen J, Ding M, Zhang F, Huang H, Rao X, Lin Y, Shao Y, Zhang WX, A simplified system for measuring rhizosphere respiration of fine roots in situ. Forest Ecology and Management, 2008, 255(8-9): 3360-3364.
30,Zhang WX, Li J, Fu SL, Qiu J*, Four new earthworm species belonging to Amynthas Kinberg and Metaphire Sims et Easton (Megascolecidae: Oligochaeta) from Guangdong, China. Annales Zoologici, 2006, 56(2): 249-254.
31,Zhang WX, Li J, Qiu J*, New earthworms belonging to the genus of Amynthas Kinberg (Megascolecidae: Oligochaeta) and Drawida Michaelsen (Moniligastridae: Oligochaeta) from Guangdong, China. Journal of Natural History, 2006, 40(7-8): 395-401.
32,张卫信, 申智锋, 宋博, 马子鹤, 邵元虎, 傅声雷. 土壤食物网调控及其生态功能研究的困境与思考. 科技导报, 2022, 40(03): 52-63.
33,张卫信, 申智锋, 邵元虎, 时雷雷, 刘胜杰, 史楠楠, 傅声雷. 土壤生物与可持续农业研究进展. 生态学报, 2020, 40(10): 3183-3206.
34,张卫信, 陈迪马, 赵灿灿, 蚯蚓在生态系统中的作用, 生物多样性, 2007, 15(02): 142-153.
35,邵元虎, 张卫信, 刘胜杰, 王晓丽, 傅声雷*. 土壤动物多样性及其生态功能, 生态学报, 2015, 35(20): 6614-6625.
36,张卫信, 李健雄*, 郭明昉, 廖崇惠, 广东鹤山人工林蚯蚓群落结构季节变化及其与环境的关系, 生态学报, 2005, 25(06): 1362-1370.
专著
1,傅声雷, 张卫信, 邵元虎, 时雷雷, 刘占锋. 土壤生态学---土壤食物网及其生态功能, 科学出版社, 2019.
2,傅声雷, 张卫信, 邵元虎, 徐国良. 2011. 土壤食物网. 一万个科学难题-农业科学卷. 北京: 中国科学出版社, pp303-306.
3,Coleman DC, Zhang WX, Fu S. 2014. Toward a holistic approach to soils and plant growth. In: Interactions in Soil: Promoting Plant Growth (Eds: John Dighton and Jennifer Krumins), pp 211-223, Springer Science+Business Media Dordrecht.
主要荣誉和奖励
中国科学院青年创新促进会会员;河南省杰出青年科学基金获得者;获河南省科技进步二等奖1项(第2完成人);获得中国生态系统研究网络(CERN)青年优秀论文奖和第四届南粤科技创新优秀学术论文二等奖各1项。
主要社会兼职
中国生态学会青年工作委员会委员,中国地理学会生物地理专业委员会委员,Soil Ecology Letters、《应用生态学报》和《热带亚热带植物学报》编委,The Innovation青年编委(见习)。
学术期刊的审稿人
如生态学期刊:Journal of Ecology,Land degradation & development,Journal of Plant Ecology,Acta Oecologica,Ecological Engineering,Chemistry and Ecology;土壤学期刊:Soil Biology & Biochemistry,Journal of Soils and Sediments;农林类期刊:Forest Ecology and Management,Organic Farming;综合类期刊:Scientific Reports;国内期刊:《生态学报》、《生物多样性》、《生态环境学报》、《热带亚热带植物学报》等国内外期刊的审稿人;曾任《植物生态学报》稿件的特邀编委。
项目评审人
国家自然科学基金委项目通讯评审专家,江西省自然科技基金委项目通讯评审专家,江西省科技奖励业务专家库专家,Xi‘an Jiaotong-Liverpool University (XJTLU) 自然科学项目通讯评审专家。