姜勇简介
职务:生命科学学院院长、河北省生物工程技术研究中心主任
招生方向:生态学(博士生)、生态学/资源环境与植物保护(硕士生)
个人简介
姜勇,男,1968年2月生,河南信阳人,博士,河北大学特聘教授(二级教授),博士研究生导师,生命科学学院院长、河北省生物工程技术研究中心主任,河北大学学位评定委员会委员、生命科学学院学位评定委员会主席,生态学一级学科博士学位授权点及修复生态学方向负责人。兼任河北大学科学技术协会常务委员,中国土壤学会第十四届理事会常务理事,中国植物营养与肥料学会第十届监事会监事,辽宁省土壤学会第十二届理事会理事长,中国生态学会会员,International Association for Ecology会员,吉林省草地畜牧重点实验室学术委员会委员,中国科学院额尔古纳森林与草地过渡带实验站(CERN站)学术委员会委员,中国科学院多伦恢复生态学实验站学术委员会委员,国家林业和草原局额尔古纳湿地生态站学术委员会委员。曾任中国科学院沈阳应用生态研究所研究员、土壤化学研究组学科带头人、草地生态与适应性管理创新团队首席科学家、所学术委员会委员,中国科学院大学资源与环境学院教授,博士生导师,森林与土壤生态国家重点实验室常务副主任,中国科学院沈阳应用生态研究所科技处副处长和处长,中共中国科学院沈阳应用生态研究所纪委委员、农业中心第一党支部书记;沈阳市土肥站副站长,沈阳市农业检测中心副主任,沈阳市作物学会秘书长;辽宁省土壤学会第十届理事会秘书长,第十一届理事会副理事长;中国土壤学会第十二届和第十三届理事会理事;中国植物营养与肥料学会第七届化学肥料专业委员会副主任、第八届理事会理事,第九届理事会常务理事;辽宁省"十三五"科技发展规划农业与农村生态环境领域专家组组长;国家科技奖评审专家,国家自然科学基金委评审专家。
主要从事生态系统生态学、全球变化生态学、土壤生态学方面的研究工作。主持和参加各类项目40余项。在国内外学术刊物上发表论文300余篇。其中在Nature、Trends in Plant Science、Global Change Biology(5)、Soil Biology and Biochemistry(5)、New Phytologist(2)、Ecology Letters、Ecological Monographs、Ecology(3)、Journal of Ecology(7)、Global Biogeochemical Cycles、Geoderma(4)、Catena(3)、Applied Soil Ecology(6)、Plant and Soil(18)、Soil Science Society of America Journal、Biogeochemistry(2)、Biogeosciences(6)、Agriculture Ecosystems and Environment、Environmental and Experimental Botany(2)、Journal of Agricultural and Food Chemistry、Journal of Environmental Management(4)、Science China Life Sciences(2)、Pedosphere(9)、Journal of Environmental Sciences(2)、Oecologia(2)、Critical Reviews in Plant Sciences、Earth's Future、Environmental Pollution、Ecological Applications、Atmospheric Environment、Tree Physiology、Ecological Indicators(3)、Environmental Science and Pollution Research、FEMS Microbiology Ecology、Microbial Ecology、Organic Geochemistry、European Journal of Soil Biology、Fundamental Research、Ecological Processes(2)等生态学、土壤学、植物学、环境科学等SCI期刊发表论文156篇(被引6500余次,他引6000余次,H指数46),第一或通讯作者发表论文130篇(其中SCI论文69篇、其他中英文论文60余篇);合著专著9部(其中主编3部)。申请国家发明专利34项(第一发明人22项),其中授权发明专利21项(第一发明人13项);制订地方标准1项;获辽宁省政府优秀新产品奖一等奖1项、辽宁省自然科学三等奖1项、沈阳市科技进步奖二等奖1项。2023年、2024年全球“生态与进化”领域、“植物科学与农学”领域高被引学者(research.com),全球前2%科学家。
已培养博士14名,硕士23名,出站博士后6名;在读博士生6名、硕士生22名、在站师资博士后1名。
相关网页链接
https://orcid.org/0000-0001-7518-5810
https://www.scopus.com/authid/detail.uri?authorId=56197986000
教育经历
1999.9-2002.6 中国科学院沈阳应用生态研究所生态学专业学习(在职)
2002年于中国科学院研究生院获理学博士学位
1992.9-1995.7 沈阳农业大学土壤学专业学习,获农学硕士学位
1986.9-1990.7 沈阳农业大学土壤与农业化学专业学习,获农学学士学位
工作经历
2022.01- 河北大学 生命科学学院 研究员/教授,博士生导师
2023.11- 河北大学生命科学学院 院长
河北省生物工程技术创新中心主任
2022.07-2023.10 河北大学生命科学学院 学术副院长(聘任)
2005.11-2023.08 中国科学院沈阳应用生态研究所 研究员(三级,2013年;
二级,2018年);中国科学大学资源与环境学院 教授 博导
2011.11-2015.11 森林与土壤生态国家重点实验室 常务副主任
2008.11-2013.04 中国科学院沈阳应用生态研究所科技处 处长
2006.04-2008.11 中国科学院沈阳应用生态研究所科技处 副处长
2002.10-2005.10 中国科学院沈阳应用生态研究所 副研究员,硕士研究生导师
2002.07-2002.10 中国科学院沈阳应用生态研究所 助理研究员
1995.07-2002.06 辽宁省沈阳市农业局科教处 副主任科员、主任科员、副调研员、
辽宁省沈阳市土肥站 副站长(兼)、沈阳市农业检测中心 副主任(兼)
2002.01-2002.06 辽宁省沈阳市政府办公厅农经处 副调研员(借调)
1990.08-1992.08 河南省信阳县(现信阳市平桥区)农业技术推广中心 技术员、助理农艺师
主要论著
SCI论文
2025年
156. Yu Q, Xu C, Wu HH, Zuo XA, Luo WT, Ren HY, Ke YG, Gu Q, Wang HQ, Ma W, Knapp AK, Collins SL, Rudgers JA, Luo YQ, Hautier Y, Wang CJ, Wang ZW, Jiang Y, Han GD, Gao YZ, He NP, Zhu JT, Dong SK, Xin XP, Yu GR, Smith MD*, Li LH, Han XG*. 2025. Contrasting responses of Eurasian and North American grasslands to multi-year drought. Nature, (中科院一区,Q1, IF: 50.5,综合类: 1/134)
155. Zhang Y, Wang RZ*, Gu BT, Liu HY, Dijkstra FA, Han XG, Jiang Y. 2025. Plant growth strategies and microbial contributions to ecosystem nitrogen retention along a soil acidification gradient. Ecology, Doi: 10.1002/ecy.4515 (中科院二区,Q1, IF: 4.4, 生态学: 32/195)
154. Jiang LC, Wang J, Yang GJ, Ning QS, Wang YL, Li S, Yu LF, Liu HJ, Lü XT, Jiang Y, Han, XG, Wei CZ, Zhang HY*. 2025. Labile carbon input alleviates nitrogen-induced community instability in a meadow steppe. Journal of Ecology, (中科院一区,Q1, IF: 5.5, 生态学:20/195)
153. Liu L, Yang JJ, Wang J, Yu Q, Wei CZ, Jiang LC, Huang JH, Zhang YH, Jiang Y, Zhang HY*, Han XG. 2025. Increase in mineral-associated organic carbon does not offset the decrease in particulate organic carbon under long-term nitrogen enrichment in a steppe ecosystem. Soil Biology and Biochemistry, 109695 Doi: 10.1016/j.soilbio.2024.109695 (中科院一区,Q1, IF: 9.8,土壤学:1/49)
152. Dang N, Wu H, Liu HY, Ma RO, Wang C, Xu L, Wang ZW, Jiang Y, Li H*. 2025. Ecological strategies of soil microbes along climatic gradients: contrast patterns in adjacent grassland and forest ecosystems. Plant and Soil, Doi:10.1007/s11104-024-06697-5 (中科院二区,Q1, IF: 3.9, 农学: 15/125; 土壤学: 14/45)
151. Gu BT, Wang RZ*, Sardans J, Peñuelas J, Han XG, Jiang Y. 2025. Altered soil nitrogen retention by grassland acidification from near-neutral to acidic conditions: A plant-soil-microbe perspective. Fundamental Research, Doi: 10.1016/j.fmre.2023.10.025 (中科院三区, Q1, IF: 5.7, 综合类: 17/134)
150. Li QH, Zhang JY, Li CB, Ji H, Ma XM, He P, Yu LX, Zhou MF, Dang N, Su JS, Wang RZ, Liu HY*, Jiang Y. 2025. Susceptibility of soil elements to biotic and abiotic factors in a forest-steppe ecotone. Journal of Soil Science and Plant Nutrition, (中科院三区,Q1, IF: 3.4, 植物学: 60/265)
149. Wang C, Hu YX, Wu H, Wang ZR, Cai JP, Liu HY, Ren W, Yang N, Wang ZW, Jiang Y, Li H*. 2025. No-tillage practice enhances soil total carbon content in a sandy Cyperus esculentus field. Ecological Processes, (中科院二区, Q1, IF: 4.6, 生态学: 27/195)
2024年
148. Wang RZ, Dijkstra FA, Han XG, Jiang Y*. 2024. Root nitrogen reallocation: What makes it matter? Trends in Plant Science, 29(10): 1077-1088. Doi: 10.1016/j.tplants.2024.04.009 (中科院一区, Q1, IF: 17.3; 植物学:2/265)
147. He P, Sardans J, Wang XY, Ma CC, Man L, Peñuelas Y, Han XG, Jiang Y*, Li MH*. 2024. Nutritional changes in trees during drought-induced mortality, a comprehensive meta-analysis and a field study. Global Change Biology, 30(1): e17133 Doi: 10.1111/gcb.17133 (中科院一区, Q1, IF: 10.8;生态学: 5/195)
146. Liu HY, Dai ZC, Wang YJ, Ma XM, Shi Z, Wang RZ, Xu ZW, Li H, Han XG, Jiang Y*. 2024. Interacting effects of water and nitrogen addition on soil-plant sulfur dynamics in a semi-arid grassland. Geoderma, 442: 116796 Doi: 10.1016/j.geoderma.2024.116796 (中科院一区, Q1, IF: 5.6, 土壤学: 6/49)
145. Liu HY, Li CB, Zhang JY, Ji H, Liao YH, Ma XM, Li QH, Zhang YX, Jiang LC, Wang RZ, Han XG, Jiang Y*. 2024. Differential responses of soil phosphorus fractions to varied nitrogen compound additions in a meadow steppe. Journal of Environmental Management, 122337 Doi: 10.1016/j.jenvman.2024.122337(中科院二区, Q1, IF: 8.0, 环境科学:34/358)
144. Feng X, Wang RZ, Li TP, Cai JP, Liu HY, Li H, Jiang Y*. 2024. Plant functional traits modulate the effects of soil acidification on above- and belowground biomass. Biogeosciences, 21: 2641-2653 Doi: 10.5194/bg-21-2641-2024 (中科院二区, Q1, IF: 3.9;生态学: 39/195)
143. Wang ZR, Li TP, Lu CM, Wang C, Wu H, Li XY, Cai JP, Feng X, Liu HY, Zhang YG,Han XG, Li H, Jiang Y*. 2024. Mowing aggravates the adverse effects of nitrogen compounds addition on soil acid neutralizing capacity in a meadow steppe. Journal of Environmental Management, 362: 121293 Doi: 10.1016/j.jenvman.2024.121293 (中科院二区, Q1, IF: 8.0, 环境科学:34/358)
142. Zhang YX, Guo X, Chen LX, Kuzyakov Y, Wang RZ, Zhang HY, Han XG, Jiang Y, Sun OJ*. 2024. Global pattern of organic carbon in forest soils. Global Change Biology, 30: e17386 Doi: 10.1111/gcb.17386 ( 中科院一区, Q1, IF= 10.8, 生态学: 5/195)
141. Zhao M, Loreau M, Ochoa HR, Zhang HX, Yang JJ, Zhang YH, Liu HY, Jiang Y, Han XG*. 2024. Decoupled responses of above- and below-ground beta-diversity to nitrogen enrichment in a typical steppe. Ecology Letters, 27: e14339 Doi: 10.1111/ele.14339 (中科院一区,Q1, IF: 7.6,Nature指数期刊,生态学: 8/195)
140. Zhao RN, Kuzyakov Y, Zhang HY, Wang ZR, Li TP, Shao LY, Jiang LC, Wang RZ, Li MH, Sun OJ, Jiang Y, Han XG*. 2024. Labile carbon inputs offset nitrogen-induced soil aggregate destabilization via enhanced growth of saprophytic fungi in a meadow steppe. Geoderma, 443: 116841 Doi: 10.1016/j.geoderma.2024.116841(中科院一区, Q1, IF: 5.6, 土壤学: 6/49)
139. Han JX,Wang RZ*,Sardans J,Liu HY,He P, Deng HH, Ma WY, Peñuelas J, Han XG, Jiang Y. 2024. Gradient variations in rhizospheric soil exchangeable cations across a forest-steppe transect. Catena, 245: 108330 Doi: 10.1016/j.catena.2024.108330(中科院一区,Q1, IF: 5.4,土壤学: 7/49)
2023年
138. He P, Fontana S, Ma CC, Liu HY, Xu L, Wang RZ, Jiang Y*, Li MH. 2023. Leaf traits to explain species co-existence and its consequences for primary productivity across a forest-steppe ecotone. Science of the Total Environment, 859: 160139 Doi: 10.1016/j.scitotenv.2022.160139 (中科院一区, Q1, IF: 9.8)
137. Xu ZW*, Liu HY, Meng YN, Yin JF, Ren HY, Li MH, Yang S, Tang SM, Jiang Y*, Jiang L*. 2023. Nitrogen addition and mowing alter drought resistance and recovery of grassland communities. Science China Life Sciences, 66: 1682-1692 Doi: 10.1007/s11427-022-2217-9 (中科院一区, Q1, IF: 9.1)
136. Cai JP, Fu JL, Liu HY, Li TP, Feng X, Lu JY, Wang RZ, Jiang Y*. 2023. Divergent mineral nutrient absorptions by plant species of different families and functional groups to nitrogen and water addition in a semi-arid grassland. Plant and Soil, 491: 21-31 Doi: 10.1007/s11104-023-05904-z (Q1, IF: 4.9)
135.Feng X#, Wang RZ#, Li TP, Cai JP, Liu HY, Wang B, Lü XT, Jiang Y*. 2023. Nutrient resorption tightens plant nitrogen and phosphorus coupling and decreases with sulfur deposition as mediated by interannual precipitation in a meadow. Plant and Soil, 491: 45-56 Doi: 10.1007/s11104-022-05408-2 (Q1, IF: 4.9)
134. Meng YN#, Li TP#, Liu HY, Li SP, Xu ZW*, Jiang Y*. 2023. Legacy effects of nitrogen deposition and increased precipitation on plant productivity in a semi-arid grassland. Plant and Soil, 491: 69-84 Doi: 10.1007/s11104-022-05550 -x (Q1, IF: 4.9)
133. Cai JP, Weiner J, Luo WT, Feng X, Yang GJ, Lu JY, Lü XT, Li MH, Han XG*, Jiang Y*. 2023. Functional structure mediates the responses of productivity to addition of three nitrogen forms in a meadow steppe. Oecologia, 201: 575-584 Doi: 10.1007/s00442-022-05310-9(Q2, IF: 2.7)
132. 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 Doi: 10.1111/gcb.16463 (中科院一区, Q1, IF: 11.6)
131. Wang YL, Niu GX, Wang RZ, Rousk K, Li A, Hasi M, Wang CH, Xue JG, Yang GJ, Lü XT, Jiang Y, Han XG*, Huang JH*. 2023. Enhanced foliar 15N enrichment with increasing N addition rates: Do plant life forms and N compounds matter? Global Change Biology, 29: 1591-1605 Doi: 10.1111/gcb.16555 (中科院一区, Q1, IF: 11.6)
130. 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 Doi: 10.1016/j.jenvman.2023.118807 (中科院一区, Q1, IF: 8.7)
129. Zhang Y, Wang RZ* Sardans J, Wang B, Gu BT, Li YY, Liu HY, Peñuelas J, Jiang Y. 2023. Resprouting ability differs among plant functional groups along a soil acidification gradient in a meadow: A rhizosphere perspective. Journal of Ecology, 111: 631-644 Doi: 10.1111/1365-2745.14051 (中科院一区, Q1, IF: 5.5)
128. Lü J, Wang RZ*, Sardans J, Peñuelas J, Jiang Y, Han XG. 2023. An integrative review of drivers and responses of grassland phenology under global change. Critical Reviews in Plant Sciences, 42(3):124-137 Doi: 10.1080/07352689.2023.2210922 (Q1, IF: 6.9)
127. Niu GX*, Zhong BQ, Wang RZ, Jin YQ, Wang YL, Lu XT, Jiang Y, Huang JH. 2023. Effects of nitrogen and water addition on soil carbon, nitrogen, phosphorus, sulfur, and their stoichiometry along soil profile in a semi-arid steppe, Journal of Soils and Sediments, 23: 3298-3309 Doi: 10.1007/ s11368-023-03558-z (Q2, IF: 3.6)
126. Li YY, Wang RZ*, Zhang Y, Gu BT, Liu HY, Yang LJ, Jiang Y. 2023. Plant molybdenum uptake as mediated by synergism with phosphorus but antagonism with sulfur in a nitrogen-fertilized and mown meadow. Journal of Soil Science and Plant Nutrition, Doi: 10.1007/s42729-023-01412-2 (Q2, IF: 2.5)
2022年
125. Wang RZ, Bicharanloo B, Hou EQ*, Jiang Y*, Dijkstra FA. 2022. Phosphorus supply increases nitrogen transformation rates and retention in soil: a global meta-analysis. Earth's Future, 10: e2021EF002479 Doi: 10.1029/2021 EF002479 (中科院一区, Q1, IF: 8.852)
124. Wang RZ, Lu JY, Jiang Y*, Dijkstra FA. 2022. Carbon efficiency for nutrient acquisition (CENA) by plants: role of nutrient availability and microbial symbiont. Plant and Soil, 476: 289-300 Doi: 10.1007/s11104-022-05347-y (Q1, IF: 4.993)
123. Zhao FY, Sun ZX*, Feng LS, Zhang YY, Feng C, Bai W, Zheng JM, Zhang Z, Yang N, Cai Q, Xiang WY, Li H, Jiang Y*, Hohmann P. 2022. Biological N fixation but not mineral N fertilization enhances the accumulation of N in peanut soil in maize/peanut intercropping system, Journal of Agriculture and Food Research, 10: 100365 Doi: 10.1016/j.jafr.2022.100365 (Q1, IF: 3.8)
122. 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 SOM decomposition. Global Change Biology, 28: 4180-4193 Doi: 10.1111/gcb.16183 (中科院一区, Q1, IF: 13.211)
121. Peng Y#, Yang JX#, Leitch IJ, Guignard M, Seabloom E, Cao D, Zhao FY, Li HL, Han XG, Jiang Y, Leitch A, Wei CZ*. 2022. Plant genome size modulates grassland community responses to multi-nutrient additions. New Phytologist, 236: 2091-2102 Doi: 10.1111/nph.18496 (中科院一区, Q1, IF: 10.323)
120. Yang S, Wu H, Wang ZR, Semenov MV, Ye J, Yin LM, Wang XG, Kravchenko I, Semenove V, Kuzyakov Y, Jiang Y, Li H*. 2022. Linkages between the temperature sensitivity of soil respiration and microbial life strategy are dependent on sampling season, Soil Biology & Biochemistry, 172: e108758 Doi: 10.1016/j.soilbio.2022.108758 (中科院一区, Q1, IF: 8.546)
119.Wang RZ#, Yang JJ#, Liu HY#, Sardans J, Zhang YH, Wang XB, Wei CZ, Lü XT, Dijkstra F, Jiang Y, Han XG*, Peñuelas J. 2022. Nitrogen enrichment buffers phosphorus limitation by mobilizing mineral-bound soil phosphorus in grasslands. Ecology, 103: e1636 Doi: 10.1002/ecy.3616 (中科院一区, Q1, IF: 6.431)
118. Zhao M, Zhang HX, Baskin C, 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: 1942-1956 Doi: 10.1111/ 1365-2745.13928 (中科院一区, Q1, IF: 6.381)
117. Zhang AL, Li XY*, Zeng FJ, Jiang Y, Wang RZ. 2022. Variation characteristics of different plant functional groups in alpine desert steppe of the Altun Mountains, northern Qinghai-Tibet Plateau. Frontiers in Plant Science, 13: e961692 Doi: 10.3389/fpls.2022.961692 (Q1, IF: 6.627)
113. Li YY, Wang RZ*, Liu HY, Feng X, Wang B, Wang ZR, Li H, Yang* LJ, Jiang Y. 2022. Synergistic interactions between zinc and nitrogen addition in promoting plant Zn uptake as counteracted by mowing management in a meadow grassland. Plant and Soil, 473: 305-318 Doi: 10.1007/s11104-021-05286-0 (Q1, IF: 4.993)
2021年
115. Li H#, Yang S#, Semenov M, Yao F, Ye J, Bu RC, Ma RA, Lin JJ, Kurganova I, Wang XG, Deng Y, Kravchenko I, Jiang Y*, Kuzyakov Y. 2021. Temperature sensitivity of SOM decomposition is linked with a K-selected microbial community. Global Change Biology, 27: 2763-2779. Doi: 10.1111/gcb.15593 (中科院一区, Q1, IF: 13.211)
114. Zhang AL, Olatunji OA, Tariq A, Li TP, Wang RZ, Jiang Y*. 2021. Sulfur deposition changed the community structure of soil nematodes by affecting omnivores-predators. Science of the Total Environment, 771: 144912. Doi: 10.1016/j.scitotenv. 2020.144912 (中科院一区, Q1, IF: 10.753)
113. Wang RZ, Bicharanloo B, Shirvan MB, Cavagnaro TR, Jiang Y*, Keitel C, Dijkstra FA. 2021. A novel 13C pulse-labelling method to quantify the contribution of rhizodeposits to soil respiration in a grassland exposed to drought and nitrogen addition. New Phytologist, 230: 857-866. Doi: 10.1111/nph.17118 (中科院一区, Q1, IF: 10.323)
112. Wang RZ, Peñuelas J, Li T, Liu HY, Wu H, Zhang YG, Sardans J, Jiang Y*. 2021. Natural abundance of 13C and 15 N provides evidence for plant-soil carbon and nitrogen dynamics in a N-fertilized meadow. Ecology, e3348. Doi: 10.1002/ecy.3348 (中科院一区, Q1, IF: 6.431)
111. Wang RZ, Cavagnaro TR, Jiang Y*, Keitel C, Dijkstra FA. 2021. Carbon allocation to the rhizosphere is affected by drought and nitrogen addition. Journal of Ecology, 109: 1699-1709. Doi:10.1111/1365-2745.13746 (中科院一区, Q1, IF: 6.381)
110. Wang RZ, Cresswell T, Johansen MP, Harrison JJ, Jiang Y*, Keitel C, Cavagnaro TR, Dijkstra FA. 2021. Re-allocation of nitrogen and phosphorus from roots drives regrowth of grasses and sedges after defoliation under deficit irrigation and nitrogen enrichment. Journal of Ecology, 109: 4071-4080. Doi: 10.1111/1365-2745-13778 (中科院一区, Q1, IF: 6.381)
109. Wang RZ#, Lü LY#, Cao YZ, Sardans J, Liu HY, Li B, Zhang YG, Peñuelas J, Dijkstra FA, Jiang Y*. 2021. Stability of elemental content correlates with plant resistance to soil impoverishment. Plant and Soil, 467: 213-226. Doi: 10.1007/s11104-021-05079-5 (Q1, IF: 4.993)
108. Li TP, Wang RZ, Cai JP, Meng YN, Wang ZR, Feng X, Liu HY, Turco RF, Jiang Y*. 2021. Enhanced carbon acquisition and use efficiency alleviate microbial carbon relative to nitrogen limitation under soil acidification. Ecological Processes, 10: 32. Doi: 10.1186/s13717-021-00309-1 (Q2, IF: 4.394)
107. Liu HY, Wang RZ*, Lü XT, Cai JP, Feng X, Yang GJ, Li H, Zhang YG, Han XG, Jiang Y. 2021. Effects of nitrogen addition on plant-soil micronutrients vary with nitrogen form and mowing management in a meadow steppe. Environmental Pollution, 289: 11796. Doi: 10.1016/j.envpol.2021.117969 (中科院一区, Q1, IF: 9.988)
106. Zhang AL, Wu SX, Li L, Jiang Y, Wang RZ, Zeng FJ, Lin LS, Li L, Li XY*. 2021. Spatial pattern of C: N: P stoichiometric of soil and grassland communities in the Altunshan Nature Reserve at North Qinghai-Tibet Plateau. Catena, 207: 105691. Doi:10.1016/j.catena. 2021.105691 (中科院一区, Q1, IF: 6.367)
105. Wang ZH#, Wang ZR#, Li TP, Wang C, Dang N, Wang RZ, Jiang Y, Wang HY*, Li H*. N and P fertilization enhanced carbon decomposition function by shifting microbes towards an r-selected community in meadow grassland soils. Ecological Indicators, 132: 108306. Doi: 10.1016/j.ecolind.2021.108306 (Q1, IF: 6.263)
104. Niu GX, Wang RZ, Hasi MQ, Wang YL, Geng QQ, Wang CH, Jiang Y, Huang JH*. 2021. Availability of soil base cations and micronutrients along soil profile after 13-year nitrogen and water addition in a semi-arid grassland. Biogeochemistry, 152: 223-236. Doi:10.1007/s10533-020-00749-5 (Q2, IF: 4.825)
103. Wang X*, Wang M, Tao YM, Fang NN, Yang GJ, Cai, JP, Jiang Y, Han XG, Yu FH, Li MH. 2021. Beneficial effects of nitrogen deposition on carbon and nitrogen accumulation in grasses over other species in Inner Mongolian grasslands. Global Ecology and Conservation, e01507. Doi: 10.1016/j.gecco.2021.e01507 (Q2, IF: 3.969)
102. Wang X, Yu FH*, Jiang Y, Li MH. 2021. Carbon and nutrient physiology in shrubs at the upper limits: a multi-species study. Journal of Plant Ecology, 14: 301-309. Doi: 10.1093/jpe/rtaa097 (Q3, IF: 1.78)
101. Shi Z, Weiner J, Cavalieri A,Liu HY, Li TP, Cai JP*, Jiang Y. 2021. The interaction between N and P addition on grassland soil acid buffering capacity is regulated by precipitation. Soil Science and Plant Nutrition, 67: 222-232. Doi: 10.1080/00380768.2021.1892457 (Q4, IF: 1.929)
2020年
100. Wang RZ#, Wu H#, Sardans J, Li TP, Liu HY, Peñuelas J, Dijkstra FA, Jiang Y*. 2020. Carbon storage and plant-soil linkages among soil aggregates as affected by nitrogen enrichment and mowing management in a meadow grassland. Plant and Soil, 457: 407-420. Doi: 10.1007/s11104-020-04749-0 (Q1, IF: 4.993)
99. Wang ZR#, Yang S#, Wang RZ, Xu ZW, Feng K, Feng X, Li TP, Liu HY, Ma RA, Li H*, Jiang Y. 2020. Compositional and functional responses of soil microbial communities to long-term nitrogen and phosphorus addition in a calcareous grassland. Pedobioliga, 78: 150612. Doi: 10.1016/j.pedobi.2019.150612 (Q3, IF: 2.128)
2019年
98. He P,Fontana S,Sardans J*,Penuelas J,Gessler A,Schaub M,Rigling A,Li H,Jiang Y*,Li MH. 2019. The biogeochemical niche shifts of Pinus sylvestris var. mongolica along an environmental gradient. Environmental and Experimental Botany, 167: 103825. Doi: 10.1016/j.envexpbot.2019.103825 (Q1, IF: 6.028).
97. Li H#, Zhang YY#, Yang S, Wang ZR, Feng X, Liu HY, Jiang Y*. 2019. Variations in soil bacterial taxonomic profiles and putative functions in response to straw incorporation combined with N fertilization during the maize growing season. Agriculture, Ecosystems and Environment, 283: 106578. Doi: 10.1016/j.agee.2019.106578 (Q1, IF: 6.576)
96. Wang RZ, Dijkstra FA, Liu HY, Yin JF, Wang X, Feng X, Xu ZW, Jiang Y*. 2019. Response of soil carbon to nitrogen and water addition differs between labile and recalcitrant fractions: evidence from multi–year data and different soil depths in a semi-arid steppe. Catena, 712: 857-865. Doi: 10.1016/j.catena.2018.08.034 (Q1, IF: 6.367)
95. Li TP#, Liu HY#, Wang RZ*, Lü XT, Yang JJ, Zhang YH, He P, Wang ZR, Han XG, Jiang Y*. 2019. Frequency and intensity of nitrogen addition alter soil inorganic sulfur fractions but the effects vary with mowing management in a temperate steppe. Biogeosciences 16: 2891-2904. Doi: 10.5194/bg-16-2891-2019 (Q1, IF: 5.092)
94. Li SL, Gurmesa GA, Zhu WX, Gundersen P, Zhang SS, Xi D, Huang SN, Wang A, Zhu FF, Jiang Y, Zhu JJ, Fang YT*. 2019. Fate of atmospherically deposited NH4+ and NO3- in two temperate forests in China: temporal pattern and redistribution. Ecological Applications, 29 (6): e1920. Doi: 10.1002/esp.1920 (Q1, IF: 6.105)
93. Yang S, Yao F, Ye J, Fang S, Wang ZR, Wang RZ, Zhang QL, Ma RO, Wang XG, Jiang Y, Dorodnikov M, Li H*, Zou HT*. 2019. Latitudinal pattern of soil lignin/cellulose content and the activity of their degrading enzymes across a temperate forest ecosystem. Ecological Indicators, 102: 557-568. Doi: 10.1016/j.ecolind.2019.03.009 (Q1, IF: 6.263)
92. Liu HY, Wang RZ*, Wang HY, Cao YZ, Dijkstra FA, Shi Z, Cai JP, Wang ZW, Zou HT*, Jiang Y. 2019. Exogenous phosphorus compounds interact with nitrogen availability to regulate dynamics of soil inorganic phosphorus fractions in a meadow steppe. Biogeosciences, 16: 4293-4306. Doi: 10.5194/bg-16-4293-2019 (Q1, IF: 5.092)
91. Feng X, Yu Q, Wang RZ*, Cao YZ, Zhang YG, Yang LJ*, Dijkstra FA, Jiang Y. 2019. Decoupling of plant and soil metal nutrients as affected by nitrogen addition in a meadow steppe. Plant and Soil, 443: 337-351. Doi:10.1007/s11104-019-04217-4 (Q1, IF: 4.993)
90. Wang X, Jiang Y, Ren HY, Yu FH, Li MH. 2019. Leaf and soil δ15N patterns along elevational gradients at both treelines and shrublines in three different climate zones. Forests, 10(7): e557. Doi: 10.3390/f10070557 (Q2, IF: 3.282)
2018年
89. He P, Fontana S, Sui X, Gessler A, Schaub M, Rigling A, Jiang Y*, Li MH*. 2018. Scale dependent responses of pine reproductive traits to experimental and natural precipitation gradients. Environmental and Experimental Botany, 156: 62-73. Doi: 10.1016/j.envexpbot.2018.08.028 (Q1, IF: 6.028)
88. Wang RZ, Zhang YH, He P, Yin JF, Yang JJ, Liu HY, Cai JP, Shi Z, Feng X, Dijkstra FA, Han XG, Jiang Y*. 2018. Intensity and frequency of nitrogen addition alter soil chemical properties depending on mowing management in a temperate steppe. Journal of Environmental Management, 224: 77-86. Doi: 10.1016/j.jenvman.2018.07.036 (Q1, IF: 8.91)
87. Xu ZW, Li MH, Zimmermann N, Li SP, Li H, Ren HY, Sun H, Hang XG, Jiang Y*, Jiang L*. 2018. Plant functional diversity modulates global environmental change effects on grassland productivity. Journal of Ecology, 106: 1941-1951. Doi: 10.1111/1365-2745.12951 (Q1, IF: 6.381)
86. Wang RZ#, Wang X#, Jiang Y*, Cerdà A, Yin JF, Liu HY, Feng X, Shi Z,Dijkstra FA, Li M-H. Soil properties determine the elevational patterns of base cations and micronutrients in plant-soil system up to the upper limits of trees and shrubs. Biogeosciences, 15: 1763-1774. Doi: 10.5194/bg-15-1763-2018 (Q1, IF: 5.092)
85. Li MH#, Jiang Y#, Wang A, Li XB, Zhu WZ, Yan CF, Du Z, Shi Z, Lei JP, Schönbeck L, He P, Yu FH, Wang X*. 2018. Active summer carbon storage for winter persistence in trees at the cold alpine treeline. Tree Physiology, 38: 1345-1355. Doi: 10.1093/treephys/tpy020 (Q1, IF: 4.561)
84. Li H, Xu ZW, Yang S, Van Nostrand, Wang ZR, Zhou JZ, Jiang Y*, Deng Y*. 2018. Soil microbial beta-diversity is linked with compositional variation in aboveground plant biomass in a semi-arid grassland. Plant and Soil, 423: 465-480. Doi: 10.1007/s11104-017-3524-2 (Q1, IF: 4.993)
83. Wang A#, Wang X#, Togentti R, Lei JP, Pan HL, Liu XL, Wang XY, He P, Yu FH*, Jiang Y, Li MH*. 2018. Elevation alters carbon sinkds, nutrients concentritions and stoichiometry in Quercus aquifolioides in southern China. Science of the Total Environment, 622/623: 1463-1475. Doi: 10.1016/J.scitotenv.2017.12.070 (Q1, IF: 10.751)
2017年
82. Cai JP, Luo WT, Liu HY, Feng X, Zhang YY, Wang RZ, Xu ZW, Zhang YG, Jiang Y*. 2017. Precipitation-mediated responses of soil acid buffering capacity to long-term nitrogen addition in a semi-arid grassland. Atmospheric Environment, 170: 312-318. Doi: 10.1016.j.atmosenv.2017.9.54 (Q1, IF: 5.755)
81. Luo WT, Li MH, Sardans J, Lü XT, Wang C, Penuelas J, Wang ZW, Han XG, Jiang Y*. 2017. Carbon and nitrogen allocation shifts in plants and soils along aridity and fertility gradients in grasslands of China. Ecology and Evolution, 7: 6927-6934. Doi: 10.1002/ece.3.3245 (Q2, IF: 3.167)
80. Wang X#, Xu ZW#, Lü XT, Wang RZ, Cai JP, Yang S, Li MH*, Jiang Y*. 2017. Responses of litter decomposition and nutrient release rate to water and nitrogen addition differed among three plant species dominated in a semi-arid grassland. Plant and Soil, 418: 241-253. Doi: 10.1007/s11104-017-3288-8 (Q1, IF: 4.993)
79. Wang RZ, Lü LY, Creamer CA, Dijkstra FA, Liu HY, Feng X, Yu GQ, Han XG, Jiang Y*. 2017. Alteration of soil carbon and nitrogen pools and enzyme activities as affected by increased soil coarseness, Biogeosciences,14: 2155-2166. Doi: 10.5194/bg-14-2155-2017 (Q1, IF: 5.092)
78. Li H, Yang S, Xu ZW, Yang QY, Li XB, van Nostrand JD, He ZL, Yao F, Han XG, Zhou JZ, Deng Y*, Jiang Y*. 2017. Responses of soil microbial functional genes to global changes are indirectly influenced by aboveground plant biomass variation. Soil Biology & Biochemistry, 104: 18-29. Doi: 10.1016/j.soilbio.2016.10.009 (Q1, IF: 8.546)
77. Wang RZ, Dorodnikov M, Dijkstra F, Yang S, Zu ZW, Li H, Jiang Y*. 2017. Sensitivities to nitrogen and water addition vary among microbial groups within soil aggregates in a semi-arid grassland. Biology and Fertility of Soils, 53: 129-140. Doi: 10.1007/s00374-016-1165-x (Q1, IF: 6.605)
76. Wang RZ, Dungait JAJ, Buss HL, Yang S, Zhang YG, Xu ZW, Jiang Y*. 2016. Base cations and micronutrients in soil aggregates as affected by enhanced nitrogen and water inputs in a semi-arid steppe grassland. Science of the Total Environment, 575: 564-572. Doi: 10.1016/j.scitotenv.2016.09.018 (Q1, IF: 10.751)
75. Xu ZW, Ren HY, Li MH, Brunner I, Yin JF, Liu HY, Kong DL, Lü XT, Sun T, Cai JP, Wang RZ, Zhang YY, He P, Han XG, Wan SQ, Jiang Y*. 2017. Experimentally increased water and nitrogen affect root production and vertical allocation of an old-field grassland. Plant and Soil, 412: 369-380. Doi: 10.1007/s11104-016-3071-2 (Q1, IF: 4.993)
74. Wang X, Xu ZW, Yan CF, Luo WT, Wang RZ, Han XG, Jiang Y*, Li MH. 2017. Responses and sensitivity of N, P and mobile carbonhydrates of dominant species to increased water, N and P availability in semi-arid grasslands in northern China. Journal of Plant Ecology, 410: 486-496. Doi: 10.1093/jpe/rtw053 (Q3, IF: 1.78)
73. Cai JP, Weiner J, Wang RZ, Luo WT, Zhang YY, Liu HY, Xu ZW, Li H, Zhang YG, Jiang Y*. 2017. Effects of nitrogen and water addition on trace element stoichiometry in five grassland species. Journal of Plant Research, 130: 659-668. DOI: 10.1007/S10265-017-0928-2 (Q2, IF: 3.0)
72. Yao F, Yang S, Wang ZR, Wang X, Ye J, Wang XG, DeBruyn JM, Feng X, Jiang Y, Li H*. 2017. Microbial taxa distribution is associated with ecological trophic cascades along an elevation gradient. Frontiers in Microbiology, 8: 2071. Doi: 10.3389/fmicb.2017.02071 (Q1, IF: 6.064)
71. Yang S, Xu ZW, Wang RZ, Zhang YY, Yao F, Zhang YG, Turco RF, Jiang Y, Zou HT, Li H*. 2017. Variations in soil microbial community composition and enzymatic activities in response to increased N deposition and precipitation in Inner Mongolian grassland. Applied Soil Ecology, 119: 275-285. Doi: 10.1016/j.apsoil.2017.06.041 (Q1, IF: 5.509)
70. Ren HY#, Xu ZW#, Isbell F, Huang JH, Han XG, Wan SQ, Chen SP, Wang RZ, Zeng DH, Jiang Y, Fang YT*. 2017. Exacerbated nitrogen limitation ends transient stimulation of grassland productivity by increased precipitation. Ecological Monographs, 87: 457-469. Doi: 10.1002/ecm.1262 (Q1, IF: 9.814)
69. Wang RZ, Zhang YL*, Cerdà A, Cao MM, Zhang YY, Yin JF, Jiang Y, Chen LJ. 2017. Changes in soil chemical properties as affected by pyrogenic organic matter amendment with different intensity and frequency. Geoderma, 289:161-168. Doi: 10.1016/j.geoderma.2016.12.006 (Q1, IF: 7.422)
68. Wang RZ, Gibson SD, Berry TD, Jiang Y, Bird JA, Filley TR*. 2017. Photooxidation of pyrogenic organic matter (PyOM) reduces the reactive, labile C pool and the apparent soil oxidative microbial oxidative enzyme response. Geoderma, 293: 10-18. Doi: 10.1016/j.geoderma.2017.01.011 (Q1, IF: 7.422)
2016年
67. Zhang YY, Zhang SQ, Wang RZ, Cai JP, Zhang YG, Li H, Huang SM*, Jiang Y*. 2016. Impacts of fertilization practices on pH and the pH buffering capacity of calcareous soil. Soil Science and Plant Nutrition, 62: 432-439. Doi:10.1080/00380768.2016.122685 (Q4, IF: 1.929)
66. Luo WT, Dijkstra FA, Bai E, Feng J, Lü XT, Wang C, Wu HH, Li MH, Han XG, Jiang Y*. 2016. A threshold reveals decoupled relationship of sulfur with carbon and nitrogen in soils across arid and semi-arid grasslands in northern China. Biogeochemistry, 127: 141-153. Doi: 10.1007/s10533-015-0174-4 (Q1, IF:4.812)
65. Li H, Xu ZW, Yang S, Li XB, Top E, Wang RZ, Zhang YG, Cai JP, Yao F, Han XG, Jiang Y*. 2016. Responses of soil bacterial communities to nitrogen deposition and precipitation increment are closely linked with aboveground community variation. Microbial Ecology, 71(4): 974-989. Doi: 10.1007/s00248-016-0730-z (Q1, IF: 4.192)
64. Wang RZ, Creamer CA, Wang X, He P. Xu ZW, Jiang Y*. 2016. The effects of a 9-year nitrogen and water addition on soil aggregate phosphorus and sulfur availability in a semi-arid grassland. Ecological Indicators, 61: 806-814. Doi: 10.1016/j.ecolind.2015.10.033 (Q1, IF: 6.263)
63. Luo WT, Sardans S, Dijkstra FA, Peñuelas J, Lü XT, Wu HH, Li MH, Bai E, Wang ZW, Han XG, Jiang Y*. Thresholds in decoupled soil-plant elements under changing climatic conditions. Plant and Soil, 409, 159-173. Doi: 10.1007/s11104-016-2955-5 (Q1, IF: 4.993)
62. Li B, Wang YH*, Jiang Y, Li GC, Cui JH, Wang Y, Zhang H, Wang SC, Xu S, Wang RZ. 2016. The accumulation and health risk of heavy metals in vegetables around a zinc smelter in northeastern China. Environmental Science and Pollution Research, 23: 25114-25126. Doi: 10.1007/s11356-016-7342-5 (Q2, IF: 5.190)
61. Gibson C, Berry TD, Wang RZ, Spencer JA, Johnston CT, Jiang Y, Bird JA, Filley TR*. 2016. Weathering of pyrogenic organic matter induces fungal oxidative enzyme response in single culture inoculation experiments. Organic Geochemistry, 92: 32-41. Doi: 10.1016/j.orggeochem.2015.12.003 (Q2, IF: 3.623)
60. Li XB, Wang YF, Brown C; Yao F, Jiang Y, Top E, Li H*. 2016. Diversification of Broad Host Range Plasmids Correlates with the Presence of Antibiotic Resistance Genes. FEMS Microbiology Ecology, fiv151. Doi: 10.1093/femsec/fiv151 (Q2, IF: 4.519)
59. Lü LY, Wang RZ*, Liu HY, Yin JF, Xiao JT, Wang ZW, Zhao Y, Yu GQ, Han XG, Jiang Y. 2016. Effect of soil coarseness on soil base cations and available micronutrients in a semi-arid sandy grassland, Solid Earth, 7: 549-556. Doi: 10.5194/se-7-549-2016 (Q2, IF: 3.929)
58. Yin JF, Wang RZ*, Liu HY, Feng X, Xu ZW, Jiang Y. 2016. Nitrogen addition alters elemental stoichiometry within soil aggregates in a temperate steppe. Solid Earth, 7: 1565-1575. Doi:10.5194/se-7-1565-2016 (Q2, IF: 3.929)
57. Hu N, Li H, Tang Z, Li ZF, Li GC, Jiang Y, Hu XM, Lou YL. 2016. Community size, activity and C:N stoichiometry of soil microorganisms following reforestation in a Karst region. European Journal of Soil Biology, 73: 77-83. Doi:10.1016/j.ejsobi.2016.01.007 ( Q2, IF: 3.232)
56. Wang C, Liu DW, Luo WT, Fang YT, Lü XT, Jiang Y, Han XG, Bai E*. 2016. Variations in leaf carbon isotope composition along an arid and semi-arid grassland transect in Northern China. Journal Plant Ecology, 9: 576-585. Doi: 10.1093/jpe/rtw006 (Q2, IF: 1.78)
55. Du Z, Cai XH, Bao WK, Chen H, Pan HL, Wang X, Zhao QX, Zhu WZ, Liu XL, Jiang Y, Li MH*. Short-term vs. long-term effects of understory removal on nitrogen and mobile carbohydrates in overstory trees. Forests, 7: 67. Doi: 10.3390/f7030067 (Q2, IF: 3.282)
2015年
54. Xu ZW#, Ren HY#, Li MH, van Ruijven J, Han XG, Wan SQ, Li H, Yu Q, Jiang Y*, Jiang L*. 2015. Environmental changes drive the temporal stability of semi-arid natural grasslands through altering species asynchrony. Journal of Ecology, 103: 1308-1316. Doi: 10.1111/1365-2745.12441. (Q1, IF: 6.381)
53. Li H, Wang XG, Liang C, Hao ZQ, Zhou LS, Ma S, Li XB, Yang S, Yao F, Jiang Y*. 2015. Aboveground-belowground biodiversity linkages differ in early and late successional temperate forests. Scientific Reports, 5: No.12234. Doi:10.1038/srep12234 (Q2, IF: 4.38 )
52. Luo WT, Elser JJ, Lü XT, Wang ZW, Bai E, Yan CF, Wang C, Li MH, Zimmermann NE, Han XG, Xu ZW, Li H, Wu YN, Jiang Y*. 2015. Plant nutrients do not covary with soil nutrients under changing climatic conditions. Global Biogeochemical Cycles, 29: 1298–1308. Doi: 10.1002/2015GB005089 (Q1, IF: 6.5)
51. Wang RZ, Dorodnikov M, Yang S, Zhang YY, Filley TR, Turco RF, Zhang YG, Xu ZW, Li H, Jiang Y*. 2015. Responses of enzymatic activities within soil aggregates to 9-year nitrogen and water addition in a semi-arid grassland. Soil Biology & Biochemistry, 81: 159-167. Doi:10.1016/j.2014.11.015 (Q1, IF: 8.546)
50. Luo WT, Nelson PN, Li MH, Cai JP, Zhang YY, Zhang YG, Shan Y, Wang RZ, Wang ZW, Wu YN, Han XG, Jiang Y*. 2015. Contrasting pH buffering patterns in neutral-alkaline soils along a 3600 km transect in northern China. Biogeosciences, 12: 7047-7056. Doi:10.5194/bg-12-7074-2015 (Q1, IF: 5.092)
49. Xu ZW#, Ren HY#, Cai JP, Wang RZ, He P, Li MH, Lewis BJ, Han XG, Jiang Y*. 2016. Antithetical effects of nitrogen and water availability on community similarity of semiarid grasslands: Evidence from a nine-year manipulation experiment. Plant and Soil, 397: 357-369. Doi: 10.1007/s11104-015-2634-y (Q1, IF: 4.993)
48. Wang RZ, Dungait JAJ, Creamer CA, Cai JP, Li B, Xu ZW, Zhang YG, Ma YN, Jiang Y*. 2015. Carbon and nitrogen dynamics in soil aggregates under long-term N and water addition in a temperate steppe. Soil Science Society of America Journal, 79: 527-535. Doi:10.2136/sssaj2014.05.0201 (Q3, IF: 2.932)
47. Zhang YG, Yang S, Fu MM, Cai JP, Zhang YY, Wang RZ, Xu ZW, Bai YF, Jiang Y*. 2015. Sheep manure application increases soil exchangeable base cations in a semi-arid steppe. Journal of Arid Land, 7(3): 361-369. Doi: 10.1007/s40333-015-0004-5 (Q3, IF: 2.483)
46. Li XB, Top EM, Wang YF, Brown C, Yao F, Yang S, Jiang Y, Li H*. 2015. The broad-host-range plasmid pSFA231 isolated from petroleum-contaminated sediment represents a new member of the PromA family. Frontiers in Microbiology, 5: 777. Doi: 10.3389/fmicb.2014.00777 (Q1, IF: 6.064)
2014年
45. Xu ZW*, Ren HY, Cai JP, Wang RZ, Li MH, Han XG*, Lewis BJ, Jiang Y*. 2014. Effects of experimentally enhanced precipitation and nitrogen on resistance, recovery and resilience of plant cover in a semi-arid grassland following a natural drought. Oecologia, 176: 1187-1197. Doi : 10.1007/s00442-014-3081-9 (Q1, IF: 3.225)
44. Wang RZ, Filley TR, Xu ZW, Wang X, Li MH, Zhang YG, Luo WT, Jiang Y*. 2014. Coupled response of soil carbon and nitrogen pools and enzyme activities to nitrogen and water addition in a semiarid grassland of Inner Mongolia. Plant and Soil. 381(1): 323-336. Doi : 10.1007/s11104-014-2129-2 (Q1, IF: 4.993)
43. Zhang YG, Zhang YY, Cai JP, Zhu P, Gao HJ, Jiang Y*.2014. Variation in available micronutrients in black soil after 30 year fertilization treatment. Plant, Soil and Environment. 60(9): 387-393 (Q2, IF: 1.799)
42. Li H, Ye DD, Wang XG, Settles M, Wang J, Hao ZQ, Zhou LS, Dong P, Jiang Y, Ma ZS*. 2014. Bacterial communities in soils under different types of natural forest in Northeast China. Plant and Soil, 383: 203-216. Doi : 10.1007/s11104-014-2165-y (Q1, IF: 4.993)
41. Zhu WZ, Wang SG, Yu DZ, Jiang Y, Li MH. 2014. Elevational patterns of endogenous hormones and their relation to resprouting ability of Quercus aquifolioides plants on the eastern edge of the Tibetan Plateau. Trees, Structure and Function, 28: 359-372. Doi : 10.1007/s00468-013-0954-1 (Q2, IF: 2.888)
2013年
40. Zhang YG, Xu ZW, Jiang DM, Jiang Y*. 2013. Soil exchangeable base cations along a chronosequence of Caragana microphylla plantation in a semi-arid sandy land. Journal of Arid Land, 5(1): 42-50. Doi: 10.1007/s40333-013-0140-8 (Q4, IF: 2.843)
39. Luo WT, Jiang Y, Lü XT, Wang X, Li MH, Bai E, Han XG, Xu ZW*. 2013. Patterns of plant biomass allocation in temperate grasslands across a 2500-km transect in northern China. PLoS ONE, 8(8): e71749. Doi:10.1371/journal.pone.0071749 (Q2, IF: 3.24 )
38. Chen YL, Xu ZW, Hu HW, Hu YJ, Hao ZP, Jiang Y, Chen BD*. 2013. Responses of ammonia-oxidizing bacteria and archaea to nitrogen fertilization and precipitation increment in a typical temperate steppe in Inner Mongolia. Applied Soil Ecology, 68: 36-45. Doi: 10.1016/j.apsoil.2013.03.006 (Q1, IF: 5.509)
37. Lei JP, Xiao WF*, Liu JF*, Xiong DP, Wang P, Pan L, Jiang Y, Li MH. 2013. Responses of nutrients and mobile carbohydrates in Quercus variabilis seedlings to environmental variations using in situ and ex situ experiments. PLoS ONE, 8(4), e61192. Doi: 10.1371/journal.pone.0061192 (Q2, IF: 3.24)
2012年
36. Xu ZW, Wan SQ, Ren HY, Han XG, Jiang Y*. 2012. Influences of land use history and short-term nitrogen addition on community structure in temperate grasslands. Journal of Arid Environments, 87: 103-109 (Q3, IF: 2.211)
35. Xu ZW, Wan SQ, Ren HY, Han XG, Li MH, Cheng WX, Jiang Y*. 2012. Effects of water and nitrogen addition on species turnover in temperate grasslands in northern China. PLoS ONE, 7(6): e39762. Doi: 10.1371/journal.pone.0039762 (Q2, IF: 3.24)
34. Zhang YG, Xiao M, Dong YH, Jiang Y*. 2012. Determination of soil exchangeable base cations by using atomic absorption spectrophotometer and extracted with ammonium acetate. Spectroscopy and Spectral Analysis, 32(8): 2242-2245. Doi: 10.3964/j.issn.1000-0593(2012)08-2242-04 (Q4, IF: 0.589)
33. Fu MM, Jiang Y*, Bai YF, Zhang YG, Xu ZW, Li B. 2012. Variation in soil Mn fractionations as affected by long-term manure amendment using atomic absorption spectrophotometer in a typical grassland of inner Mongolia. Spectroscopy and Spectral Analysis, 32(8): 2238-2241. Doi: 10.3964/j.issn.1000-0593(2012)08-2238-04 (Q4, IF: 0.589)
32. Li Q, Bao XL, Lu CY, Zhang XK, Zhu JG, Jiang Y, Liang WJ. 2012. Soil microbial food web responses to free-air ozone enrichment depend on the tolerance of wheat cultivars, Soil Biology & Biochemistry, 47: 27-35. Doi: 10.1016/j.soilbio.2011.12.012 (Q1, IF: 8.546)
2003-2011年
31. Zhang M, Zhang XK, Liang WJ, Jiang Y*, Dai GH, Wang XG, Han SJ. 2011.Distribution of soil organic carbon fractions along the altitudinal gradient in the northern slope of Changbai Mountain. Pedosphere, 21(5): 615-620 (Q1, IF: 5.514)
30. Li Q, Jiang Y, Liang WJ, Lou YL, Zhang EP, Liang CH. 2010. Long-term effect of fertility management on the soil nematode community in vegetable production under greenhouse conditions. Applied Soil Ecology, 46: 111-118. Doi: 10.1016/j.apsoil.2010.06.016 (Q1, IF: 5.509)
29. Hao W, Li Q*, Zhang JN, Jiang Y, Liang WJ. 2010. Utility of nematode Acrobeloides nanus for assessing subacute toxicity of heavy metals. Environmental Monitoring and Assessment, 164: 273-278. Doi: 10.1007/s10661-009-0891-z (Q3, IF: 2.513)
28. Zhang LL, Wu ZJ*, Jiang Y, Chen LJ, Song YC, Wang LC, Xie JH, Ma XZ. 2010. Fate of applied urea 15N in a soil-maize system as affected by urease inhibitor and nitrification inhibitor. Plant Soil & Environment, 55 (1): 345-348 (Q2, IF: 1.799)
27. Jiang Y, Zhang YG, Zhou D, Qin Y, Liang WJ. 2009. Profile distribution of micronutrients in an aquic brown soil as affected by land use. Plant Soil & Environment, 55(11): 468-476 (Q2, IF: 1.799)
26. Tomar VVS, Zhang XK, Jiang Y, Li Q, Liang WJ. 2009. Distribution of soil nematode communities along a section of Shen-Ha Highway. Helminthologia, 46(4): 241-246. Doi: 10.2478/s11687-009-0044-5 (Q4, IF: 1.184)
25. Li Q, Jiang Y, Liang WJ*, Hou XK, Jiang SW. 2009. Nematode Diversity in Phaeozem Agroecosystems of Northeast China. Pedosphere, 19(5): 597-605 (Q1, IF: 5.514)
24. Wang SB, Li Q, Liang WJ*, Jiang Y, Jiang SW. 2008. PCR-DGGE analysis of nematode diversity in Cu-contaminated soil. Pedosphere, 18(5): 621-627. Doi: 10.1016/s1002-0160(08)60056-9 (Q1, IF: 5.514)
23. Cao CY, Jiang DM, Teng XH, Jiang Y, Liang WJ, Cui ZB. 2008. Soil chemical and microbiological properties along an age sequence of Caragana microphylla Lam. plantations on the Horqin sandy land of Northeast China. Applied Soil Ecology, 40: 78-85. Doi: 10.1016/j.apsoil.2008.03.008 (Q1, IF: 5.509)
22. Liu XM, Li Q, Liang WJ*, Jiang Y. 2008. Distribution of soil enzyme activities and microbial biomass along a latitudinal gradient in farmland of Songliao plain, Northeast China. Pedosphere, 18(4): 431-440. Doi: 10.1016/s1002-0160(08)60034-x (Q1, IF: 5.514)
21. Li Q, Liang WJ*, Jiang Y, Shi Y, Zhu JG, Neher DA. 2007. Effect of elevated CO2 and N fertilisation on soil nematode abundance and diversity in a wheat field. Applied Soil Ecology, 36(1): 63-69. Doi: 10.1016/j.apsoil.2006.11.003 (Q1, IF: 5.509)
20. Liang WJ, Zhong S, Hua JF, Cao CY, Jiang Y. 2007. Nematode faunal response to grassland degradation in Horqin Sandy Land. Pedosphere, 17(5): 611-618. Doi: 10.1016/s1002-0160(07)60072-1 (Q1, IF: 5.514)
19. Zhang WD, Wang XF, Li Q, Jiang Y, Liang WJ*. 2007. Soil nematode responses to heavy metal stress. Helminthologia, 44 (2): 87-93. Doi: 10.2478/s11687-007-0009-5 (Q3, IF: 1.184)
18. Jiang DM, LI Q, Liu FM, Jiang Y, Liang WJ*. 2007. Vertical distribution of soil nematodes in an age sequence of Caragana microphylla plantations in the Horqin Sandy Land, Northeast China. Ecological Research, 22(1): 49-56. Doi: 10.1007/s11284-006-0187-5 (Q3, IF: 2.056)
17. Meng FX, Ou W, Li Q, Jiang Y*, Wen D Z. 2006. Vertical and seasonal fluctuations of nematode trophic groups as affected by land use. Pedosphere, 16(2): 169-176. Doi: 10.1016/s1002-0160(06)60040-4 (Q1, IF: 5.514)
16. Liu YJ, Hua JF, Jiang Y*, Li Q, Wen DZ. 2006. Nematode communities in greenhouse soil of different ages from Shenyang suburb. Helminthologia, 43(1): 51-55. Doi: 10.2478/s11687-006-0010-4 (Q3, IF: 1.184)
15. Li Q, Jiang Y, Liang WJ*. 2006. Influence of heavy metals on soil nematode communities in the vicinity of a metallurgical factory. Journal of Environmental Sciences, 18(2): 323-328 (Q1, IF: 6.796)
14. Hua JF, Jiang Y, Liang WJ*. 2006. Responses of nematode communities in a brown soil tourease and nitrification inhibitors - amended slow-release urea fertilizers. Pedosphere, 16(4): 428-434. Doi: 10.1016/s1002-0160(06)60072-6 (Q1, IF: 5.514)
13. Zhang XK, Li Q, Wang SB, Jiang Y, Liang WJ*. 2006. Effect of zinc addition in soil on nematode community structure. Bulletin of Environmental Contamination and Toxicology, 76: 589-594. DOI: 10.1007/s00128-006-0960-8 (Q3, IF: 2.807)
12. Jiang Y, Liang WJ, Wen DZ, Zhang YG, Chen WB. 2005.Spatial heterogeneity of DTPA-extractable zinc in cultivated soils induced by city pollution and land use.Science in China Series C, 48: 82-91. Doi: 10.1007/bf02889805 (Q1, IF: 10.372)
11. Jiang Y, Zhang YG, Liang WJ, Li Q. 2005. Pedogenic and anthropogenic influence on calcium and magnesium behaviors in Stagnic Anthrosols. Pedosphere, 15(3): 341-346(Q1, IF: 5.514)
10. Liang WJ, Li Q, Jiang Y, Neher DA. 2005. Nematode faunal analysis in an aquic brown soil fertilised with slow-release urea, Northeast China. Applied Soil Ecology, 29(2): 285-292. Doi: 10.1016/j.apsoil.2004.10.004 (Q1, IF: 5.509)
9. Liang WJ, Jiang Y, Li Q, Liu YJ, Wen DZ. 2005. Spatial distribution of bacterivorous nematodes in a Chinese Ecological Research Network (CERN) site. Ecological Research, 20(4): 481-486. Doi: 10.1007/s11284-005-0058-5 (Q3, IF: 2.056)
8. Liang WJ, Zhang XK, Li Q, Jiang Y, Ou W, Neher DA. 2005. Distribution of bacterivorous nematodes under different land uses. Journal of Nematology, 37(3): 254-258 (Q2, IF: 1.402)
7. Ou W, Liang WJ, Jiang Y, Li Q, Wen DZ. 2005. Vertical distribution of soil nematodes under different land use types in an aquic brown soil. Pedobiologia, 49: 139-148. Doi: 10.1016/j.pedobi.2004.10.001 (Q3, IF: 2.128)
6. Wang P, Liang WJ, Kong CH, Jiang Y. 2005. Allelopathic potentials of volatile allelochemicals of Ambrosia trifida L. on other plants. Allelopathy Journal, 15(1): 131-136(Q4, IF: 0.962)
5. Li Q, Liang WJ, Jiang Y, Zhu JG, Kong CH. 2005. Effect of free-air CO2 enrichment on nematode communities in a Chinese farmland ecosystem. Journal of Environmental Sciences, 17(1): 72-75(Q1, IF: 6.796)
4. Kong CH, Liang WJ, Hu F, Xu XH, Wang P, Jiang Y, Xing B. 2004. Allelochemicals and their transformations in Ageratum conyzoides intercropped Citrus Orchard soils. Plant and Soil, 264(1-2): 149-157. Doi: 10.1023/B:PLSO.0000047759.65133.fa (Q1, IF: 4.993)
3. Kong CH, Liang WJ, Xu XH, Hu F, Wang P, Jiang Y. 2004. Release and activity of allelochemicals from allelopathic rice seedlings. Journal of Agricultural and Food Chemistry, 52(10): 2861-2865. Doi: 10.1021/jf035467i (Q1, IF: 5.895)
2. Kong CH, Hu F, Liang WJ, Wang P, Jiang Y. 2004. Allelopathic potential of Ageratum conyzoides at various growth stages in different habitats. Allelopathy Journal, 14(2): 233-240 (Q4, IF: 0.962)
1. Liang WJ, Li Q, Jiang Y, Chen WB, Wen DZ. 2003. The effect of cultivation on the spatial distribution of nematode trophic groups in black soil. Pedosphere, 13(2): 97-102(Q1, IF: 5.514)
其他第一或通讯作者中英文论文
60. 姜 勇, 张勇勇, 李天鹏, 王汝振, 王 聪, 张玉革, 高洪军, 朱 平, 李 慧*. 2022. 玉米秸秆还田和有机配施提高黑土酸中和容量. 地理学报, 77(7): 1701-1712.
59. 张玉革, 李欣悦, 刘贺永,王金环, 袁 新, 蔡江平, 王汝振, 姜 勇*. 2022. 养分和水添加对弃耕草地土壤无机磷组分的影响. 应用生态学报, 32(2): 369-377.
58. 张玉革, 李 甜, 冯 雪, 刘梦霖, 姜 勇*. 2022. 尿素氮添加对黑钙土酸化速率及酸中和容量的影响. 土壤通报, 53(1): 172-180
57. 孟亚妮, 李天鹏, 施 展, 蔡江平, 徐柱文, 姜勇*. 2020. 施肥和增水对弃耕草地土壤酸中和容量的影响. 应用生态学报, 31(5): 1579-1586
56. 姜 勇*, 徐柱文, 王汝振, 李 慧, 张玉革. 2019. 长期施肥和增水对半干旱草地土壤性质和植物性状的影响. 应用生态学报,40(7): 2470-2480
55. 姜 勇*,李天鹏,冯 雪, 王汝振, 张玉革. 2019. 外源硫输入对草地土壤-植物系统养分有效性的影响. 生态学杂志, 38(4): 1192-1201
54. 王 雪, 雒文涛, 庾 强, 闫彩凤, 徐柱文, 李迈和, 姜 勇*. 2014. 半干旱典型草原养分添加对优势物种叶片氮磷及非结构性碳水化合物含量的影响, 生态学杂志, 33(7): 1795-1802
53. 周 丹, 符明明, 魏金明, 娄翼来, 姜 勇*. 2009. 设施菜田不同施肥处理对硝酸盐迁移和积累的影响. 土壤通报,42(2): 407-411
52. 姜 勇. 2009. 森林生态系统微量元素循环及其影响因素分析. 应用生态学报, 20(1): 197-204
51. 秦 莹, 娄翼来, 周 丹, 张玉革, 姜 勇*. 2009.沈阳市郊不同年限蔬菜温室土壤有效态微量元素分布特征. 土壤通报, 40(3): 648-652
50. 秦 莹, 娄翼来, 梁文举, 姜 勇*. 2009. 沈哈高速公路两侧土壤重金属污染特征及评价. 农业环境科学学报,29(4): 663-667
49. 姜 勇*, 庄秋丽, 张玉革, 梁文举. 2008. 东北玉米带农田土壤磷素分布特征研究. 应用生态学报, 19(9): 1931-1936
48. 张玉革, 梁文举, 姜 勇*, 张玉龙. 2008. 不同利用方式对潮棕壤交换性钾钠及盐基总量的影响. 土壤通报, 39(4): 816-821
47. 张玉革, 梁文举, 姜 勇*. 2008. 潮棕壤不同利用方式下交换性钙镁剖面分布研究. 应用生态学报, 19 (4): 813-818
46. 华建峰, 蒋 倩, 施春健, 庄秋丽, 姜 勇*. 2008. 脲酶/硝化抑制剂对土壤脲酶活性、有效态氮及春小麦产量的影响. 土壤通报, 39(1): 94-99.
45.Jiang Y, Hao W, Zhang YG, Liang WJ. 2008. Geostatistical analyses of soil electrical conductivity in a vegetable greenhouse field with different data sets. Journal of Environmental Research, 2(3): 125-130.
44. Jiang Y, Qin Y, Zhang LL, Liu YP, Zhu P, Gao HJ. 2008. Effect of long-term fertilization on organic carbon and nitrogen contents in a black soil of northeast China. Agricultural Journal, 3(3): 216-219.
43. Jiang Y, Zhang YG, Liang WJ. 2008. Field-scale variability of soil exchangeable Ca, Mg, K, and Na in a Chinese Ecological Research Network (CERN) site. Agricultural Journal, 3(3): 208-215
42. Jiang Y, Qin Y, Zhang YG, Li Q, Liang WJ. 2008. Spatial heterogeneity of soil DTPA-extractable copper as affected by city pollution and land use in cultivated fields of Shenyang, China. American-Eurasian Journal of Agricultural and Environmental Sciences,4(3): 294-301
41. 姜 勇, 庄秋丽, 梁文举. 2007. 农田生态系统土壤有机碳库及其影响因子. 生态学杂志, 26(2): 278-285.
40. 施春健, 庄秋丽, 李 琪, 梁文举, 姜 勇*. 2007. 东北地区不同纬度梯度农田土壤碱解氮的剖面分布. 生态学杂志, 26 (4): 501-504.
39. Jiang Y, Zhang YG, Liang WJ. 2007. Land use effect on the profile distribution of sulfur in an aquic brown soil. Agricultural Journal, 2(1): 49-54.
38. Zhuang QL, Li Q,Jiang Y*, Liang WJ, Steinberger Y. 2007. Vertical distribution of soil organic carbon in agroecosystems of Songliao Plain along a latitudinal gradient. American-Eurasian Journal of Agricultural and Environmental Sciences, 2(2): 127-132
37. 姜 勇, 李 琪, 梁文举. 2006. 利用辅助变量对污染土壤锌分布的克里格估值. 应用生态学报, 17(1): 97-101.
36. 姜 勇, 郝 伟, 张玉革, 梁文举. 2006. 潮棕壤不同利用方式营养元素随剖面深度的变化特征. 水土保持学报, 20(3): 93-96.
35. 姜 勇, 张玉革, 梁文举. 2006. 温室蔬菜栽培对DTPA浸提态铁锰铜锌含量的影响. 土壤通报, 37(6): 1184-1187.
34. 张玉革, 姜 勇*, 张玉龙. 2006. 不同利用方式对潮棕壤比表面影响的研究. 土壤通报, 37(3): 438-442.
33. 张晓珂, 梁文举, 姜 勇*. 2006. 东北地区不同小麦品种对黑麦草的化感作用. 应用生态学报, 17(7): 1191-1195.
32. Jiang Y, Zhuang QL, Liang WJ. 2006. Field-scale variability of soybean yield and its relations with soil fundamental fertility. Agricultural Journal, 1(3): 136-140.
31. Jiang Y, Li Q, Liang WJ. 2006. Spatiotemporal variability of soil organic matter, phosphorus and potassium in cultivated field of southern Shenyang, China. Agricultural Journal, 1(3): 149-155.
30. 姜 勇, 张玉革, 梁文举, 闻大中. 2005. 潮棕壤不同利用方式有机碳剖面分布及碳储量. 中国农业科学, 38(3): 544-550.
29. 姜 勇, 张玉革, 梁文举. 2005. 温室蔬菜栽培对土壤交换性盐基离子组成的影响. 水土保持学报, 19(6): 78-81.
28. 姜 勇, 梁文举, 张玉革. 2005. 田块尺度下土壤磷素的空间变异性. 应用生态学报, 16(11):2086-2091.
27. 姜 勇, 梁文举, 李 琪. 2005. 利用与回归模型相结合的克里格方法对农田土壤有机碳的估值及制图. 水土保持学报, 19(5): 97-100.
26. 姜 勇, 庄秋丽, 梁文举, 施春健, 欧 伟. 2005. 空间变异在土壤性质长期定位观测及取样中的应用. 土壤通报, 36(4):532-538.
25. 姜 勇, 张玉革, 梁文举, 孟凡祥, 刘艳军. 2005. 土地利用方式对潮棕壤磷素剖面分布的影响. 农业环境科学学报, 24(3):512-516.
24. 刘艳军, 姜 勇*, 梁文举, 李 琪, 闻大中. 2005. 高量施肥条件下蔬菜温室土壤化学性质的演变特征. 应用生态学报, 16(11): 2218-2220.
23. Jiang Y, Zhang YG, Liang WJ, Wen DZ. 2005. Profile distribution and storage of soil organic carbon in an aquic brown soil as affected by land use. Agricultural Sciences in China, 4(1): 101-108.
22. 姜 勇, 梁文举, 张玉革, 许宇飞. 2004. 污灌对土壤重金属环境容量及水稻生长的影响研究. 中国生态农业学报, 12(3): 124-127
21. 姜 勇, 张玉革, 梁文举. 2004. 沈阳市郊区蔬菜保护地土壤交换性钙镁含量及钙镁比值的变化. 农村生态环境, 20(3): 24-27
20. 姜 勇, 梁文举, 闻大中. 2004. 免耕对农田土壤生物学特性的影响. 土壤通报, 35(3): 347-351
19. 姜 勇, 张玉革, 梁文举, 闻大中. 2004. 沈阳市郊耕地土壤交换性锰含量的空间变异性. 土壤, 36(1): 61-64
18. 张玉革, 姜 勇*, 梁文举, 孟凡祥. 2004. 潮棕壤不同利用方式pH和Olsen-P的垂直变化特征.水土保持学报, 18(4): 89-92.
17. Zhang YG, Jiang Y*, Liang WJ, Wen DZ, Zhang YL. 2004. Vertical variation and storage of nitrogen in an aquic brown soil under different land uses. Journal of Forestry Research, 15(3): 192-196
16. 姜 勇, 张玉革, 梁文举, 闻大中,陈文波. 2003. 沈阳市苏家屯区耕层土壤养分空间变异性研究. 应用生态学报, 14(10): 1673-1676
15. 姜 勇, 张玉革, 闻大中, 梁文举. 2003. 沈阳市郊耕地土壤交换性铁含量的空间异质性. 水土保持学报, 17(1): 119-121
14. 姜 勇, 梁文举, 张玉革, 王 朋, 闻大中. 2003. 蔬菜保护地土壤DTPA浸提态铁锰铜锌含量状况研究. 农业环境科学学报, 22(6): 700-703
13. 姜 勇, 张玉革, 梁文举, 乔德波. 2003. 耕地土壤交换性钙镁比值的研究. 土壤通报, 35(5): 413-416
12. 姜 勇, 张玉革, 梁文举, 闻大中, 乔德波. 2003. 沈阳市郊耕地不同土属交换态钙镁铁锰铜锌含量状况的分析. 农业系统科学与综合研究, 12(2): 160-163
11. 姜 勇, 张玉革, 梁文举, 闻大中. 2003. 沈阳市郊耕地土壤交换态钙镁铁锰铜锌相关关系研究. 生态环境, 12(2): 160-163
10. 姜 勇, 诸葛玉平, 梁 超, 张旭东. 2003. 火烧对土壤性质的影响. 土壤通报, 34(1): 65-69
9. 姜 勇, 张玉革, 梁文举, 闻大中. 2003. 耕地土壤交换性镁含量的空间变异性特征. 沈阳农业大学学报, 34(3): 181-184
8. 刘 丹, 姜 勇*, 梁文举, 闻大中. 2003. 耕地土壤中交换性Ca含量的空间异质性特征. 生态学杂志, 22(4): 6-9
7. 姜 勇, 张玉革, 李纪柏, 张 君.2002. 沈阳市苏家屯区耕地土壤有效氮磷钾变化趋势的研究.沈阳农业大学学报, 2002, 33(2): 107-109
6. 姜 勇, 张玉革.2001.沈阳地区盐渍土的生态分布、特性及改良利用.土壤通报. 32(S): 124-127
5. Jiang Y, Zhang YG, Chen LJ. 2001. Status of fertilizer input and it's influence on the qualities of farm produce and environment in Shenyang, China. In: Ji LZ, Chen GX, Schnug E, et al (eds). Fertilizer, Food Security and Environmental Protection-Fertilizer in the Third Millennium-12th World Fertilizer Congress. Shenyang: Liaoning Science and Technology Publishing House, pp515-523
4. 姜 勇, 张玉革, 张继宏, 关连珠.1998大洼县西安生态养殖模式磷素循环利用研究.辽宁农业科学, 6: 41-43
3. 姜 勇, 张继宏, 张玉革, 颜 丽, 关连珠.1995. 西安生态养殖模式能流特征分析. 生态学杂志, 14(3):1-4
2. 姜 勇, 张继宏, 颜 丽, 关连珠, 须湘成.1995. 辽宁西安生态养殖模式中碳钾物流研究. 沈阳农业大学学报, 26(6): 152-156.
1. 姜 勇, 张玉革. 1995. 略论施肥培肥土壤与农业的高效持续发展. 见: 张继宏, 颜丽, 窦森(主编). 农业持续发展的土壤培肥研究. 沈阳:东北大学出版社. pp26-31
专著
1. 鲍雅静, 李政海,姜 勇(著). 2023. 农牧交错区草地退化时空格局与驱动因素. 北京: 科学出版社.
2. 武志杰, 梁文举, 姜 勇, 董加耕(主编). 2005. 农产品安全生产原理与应用. 北京: 中国农业科技出版社.
3. 姜 勇, 梁文举, 闻大中(著). 2003. 沈阳郊区农业土壤中微量元素. 北京:中国农业科技出版社.
科学研究
主要从事生态系统生态学、全球变化生态学、土壤生态学方面的研究工作。主持和参加各类项目40余项,其中主持国家973课题1项、973子课题2项、国家重点研发课题1项、子课题3项,国家自然科学基金面上项目4项,中国科学院先导专项子课题2项,主要项目如下:
[1] 国家自然科学基金面上项目"草甸草原土壤酸化对植物光合碳分配及向土壤有机碳转化的影响"(32271677,2023-2026,直接经费54万元,主持)
[2] 河北省基金委创新群体项目"白洋淀生物多样性与生态系统功能"(C2022201042, 2022-2024,600万元,骨干参加)
[3] 辽宁省科技攻关重大专项"辽西北生态系统恢复治理技术集成及生态产业发展示范"课题"土壤改良与养分调控关键技术"(2020JH1/10300006, 2020-2022,690万元,联合主持)
[4] 国家重大科技专项A类"美丽中国"子课题"北方典型自然保护区植被恢复与生境修复技术研发"(XDA23080402,2019-2023, 335.58万元,主持)
[5] 国家自然科学基金面上项目"硫添加对典型草甸草地土壤养分有效性和植物物种多样性的影响"(31870441,2019-2022,71.58万元,主持)
[6] 中国科学院沈阳应用生态所创新团队项目"草地生态与适应性管理"(2019-2023,300万元,主持)
[7] 国家重点研发计划课题"蒙辽农牧交错区破碎化草地整治技术与示范" (2016YFC0500707, 2016-2020,330万元,课题主持)
[8] 中国科学院先导专项B子课题"不同管理模式下农田土壤微生物群落的分布规律"(XDB15010103, 2014-2019,75万元,主持)
[9] 国家自然科学基金面上项目"氮水添加对北方退化草地土壤阳离子交换性能影响"(41371251,2014-2017,75万元,主持)
[10] 沈阳市科技计划项目"设施蔬菜土壤管理及高效施肥技术研究与示范"(F15-155-1-00,2015-2017,42万元,主持)
[11] 国家"十二五"科技支撑重大项目子课题"农田氮输入、转化及输出途径、量化表征及其组分特征"(2012BAD14B04,2012-2016,106万元,主持)
[12] 国家重点基础研究发展计划(973)子课题"温带草原土壤碳截获能力对降水与氮沉降变化的响应"(2011CB403204,2011-2015,78万元,主持)
[13] 沈阳市科技攻关计划重点项目"沈阳市城郊型农业循环高效生产关键技术研究与集成示范"(F11086330,2011-2013,50万元,主持)
[14] 国家重点基础研究发展计划(973)课题"典型区域主要养分循环特征及驱动机制" (2007CB109307,2007-2011,375万元,主持)
[15] 国家重点基础研究发展计划(973)子课题"东北农田土壤微生物群落组成及多样性研究" (2005CB121105, 2005-2010,45万元,主持)
[16] 国家科技支撑计划重点项目子课题"设施菜地污染综合防控技术集成与示范" (2006BAD17B07,2006-2010,50万元,主持)
[17] 国家自然科学基金项目"东北黑土区农田土壤线虫多样性研究" (30670379, 2007-2009,26万元,主持)
科技奖励
2009年,三种外来杂草胜红蓟、马樱丹和三裂叶豚草的化感作用研究.辽宁省自然科学三等奖,排名第四.
2006年,缓释尿素. 第六届辽宁省优秀新产品奖一等奖.排名第五.
2006年,沈阳市农产品安全研究与产业化.沈阳市委市政府十五重大科技创新奖.排名第二。
2001年,应用盐溶蛋白电泳技术检验玉米种子纯度.沈阳市科技进步奖(农村科技推广类),二等奖,排名第四.
社会服务工作
1. 中国土壤学会第十四届理事会常务理事
2. 中国植物营养与肥料学会第十届监事会监事
3. 辽宁省土壤学会第十二届理事会理事长
4. 《应用生态学报》、《土壤通报》编委
授权国家发明专利
1. 姜勇, 张玉革, 徐柱文. 2012. 一种北方刈割草地专用配方肥及其使用方法(ZL201210334871.8;授权日:2014-09-03)
2. 张玉革, 姜勇, 董怡华. 2012. 一种利用味精生产废弃液的碱土改良剂及其制备方法 (ZL201210333633.5;授权日:2014-06-18)
3. 张玉革, 姜勇, 陈利军, 徐柱文, 王汝振. 2012. 生物炭混配型设施菜田土壤重金属钝化剂及其制备方法 (ZL201210299639.5;授权日:2014-04-16)
4. 姜勇, 张玉革, 孟凡祥, 梁文举. 一种防病长效草坪专用肥及其制备方法(ZL200910300410.7,授权日:2012-12-05).
5. 姜勇, 张玉革, 梁文举. 一种土壤磷素活化剂及其制作方法 (ZL200810010544.0, 授权日:2012-10-03).
6. 姜勇, 张玉革, 梁文举.一种石灰性土壤氮磷增效剂及其制备方法 (ZL200810010559.7, 授权日:2012-09-05).
7. 张玉革, 张丽莉, 姜勇. 长效缓释玉米专用掺混肥及其制备方法 (ZL200810012117.6,授权日:2012-08-29).
8. 姜勇, 张玉革, 孟凡祥, 梁文举. 一种防病增效型设施菜田土壤调理剂及其制备方法 (ZL200910300415.X,授权日:2012-07-04).
9. 姜勇, 张玉革, 梁文举. 一种蔬菜废弃物有机肥及其制作方法 (ZL200810010443.3,授权日:2012-04-25).
10. 张玉革, 姜勇, 孟凡祥, 刘广纯. 一种设施菜田土壤重金属钝化剂及其制备方法 (ZL200910300416.4,授权日:2011-09-07).
11. 梁文举, 姜勇, 李琪, 苏凤岩. 一种精制生物有机肥及其制备方法 (ZL200610135099.1,授权日:2011-09-07).
12. 姜勇, 张玉革, 梁文举. 一种养猪废弃液净化处理方法及装置 (ZL200810010063.X,授权日:2011-08-17).
13. 张玉革, 姜勇, 梁雷. 木醋液土壤消毒剂及其制备方法 (ZL200810011943.9,授权日:2011-08-10).
14. 姜勇, 张玉革, 陈欣. 一种利用菱镁尾矿的设施菜田土壤改良剂及其制备方法 (ZL200910300305.3,授权日:2011-06-08).
15. 姜勇, 张玉革, 梁文举. 一种鸡粪除臭保氮有机肥及其制作方法 (ZL200710012578.9,授权日:2011-05-11).
16. 姜勇, 郝伟, 李琪, 梁文举. 一种拟丽突线虫的培养方法 (ZL200810010161.3,授权日:2011-05-11).
17. 姜勇, 张玉革, 李培军. 一种菱镁矿粉尘污染区坡地的植树法及树坑填充物 (ZL200710012470.X,授权日:2010-09-15).
18. 姜勇,梁文举,王朋,张忠泽. 利用维生素C发酵废渣生产的精制有机肥及其制备方法 (ZL200410021484.4;授权日:2008-02-27).
19. 梁文举,姜勇,于德清, 孟凡祥. 一种脲酶/硝化抑制剂组合型缓释尿素及其制备方法 (ZL200410082840.3;授权日:2007-10-24).
20. 姜勇,吕慧,汲勇,刘海涛,梁文举,张忠泽. 利用维生素C发酵超滤弃液生产的蛋白胨液体肥及其制备 (ZL200410082826.3;授权日:2007-03-21).
在读研究生
1.吴 辉(2019级博士生,生态学,中国科学院沈阳应用生态研究所,导师:姜勇,合作导师:李慧)
2.尚 誉(2022级博士生,生态学,中国科学院沈阳应用生态研究所)
3.李秋桦(2022级博士生,植物学,河北大学)
4.付佳琳(2022级博士生,植物营养学,沈阳农业大学联培,导师: 杨丽娟, 合作导师: 蔡江平、姜勇)
5.王 斌(2023级博士生,生态学,河北大学,导师:姜勇、王汝振)
6.吕 静(2023级博士生,生态学,河北大学,导师:姜勇、王汝振)
7.于丽鑫(2022级硕士生,2024级硕博连读生,生态学,河北大学,导师:姜勇、苏纪帅)
8.李春波(2022级硕士生,植物学,河北大学,导师:姜勇、刘贺永)
9.马晓梦(2022级硕士生,微生物学,河北大学,导师:姜勇、刘贺永)
10.张佳运(2022级硕士生,生态学,河北大学,导师:姜勇、刘贺永)
11.姬 虹(2022级硕士生,生物与医药,河北大学,导师:姜勇、刘贺永)
12.陈龙雪(2022级硕士生,生物与医药,河北大学,导师:姜勇、张雨雪)
13.刘万新(2022级硕士生,环境科学,沈阳大学联培,导师:张玉革,合作导师:蔡江平、姜勇)
14.杜安娜(2022级硕士生,环境科学,沈阳大学联培,导师:张玉革,合作导师:冯雪、姜勇)
15.唐仲辉(2022级硕士生,生物学,中科院城市环境所联培,导师:姜勇、孙新)
16.范艳春(2022级硕士生,生物学,中科院城市环境所联培,导师:姜勇、张紫燕)
17.金新月(2023级硕士生,生态学,河北大学,导师:姜勇、刘贺永)
18.丁赵男(2023级硕士生,生态学,河北大学,导师:姜勇、张雨雪)
19.任晓宇(2023级硕士生,生态学,河北大学,导师:姜勇、张雨雪)
20.刘亚琨(2023级硕士生,生态学,河北大学,导师:姜勇、刘贺永)
21.赵若霖(2023级硕士生,资源利用与植物保护,河北大学,导师:姜勇、苏纪帅)
22.田 芮(2023级硕士生,资源利用与植物保护,河北大学,导师:姜勇、苏纪帅)
23.廖垠鸿(2023级硕士生,资源利用与植物保护,河北大学,导师:姜勇、刘贺永)
24.周梦凡(2023级硕士生,资源利用与植物保护,河北大学,导师:姜勇、刘贺永)
25.李诗瑶(2023级硕士生,资源利用与植物保护,河北大学,导师:姜勇、刘贺永)
26.孙 瑞(2023级硕士生,生态学,中科院遗传发育所联培,导师:姜勇、李晓欣)
27.陈召望(2023级硕士生,生态学,中科院遗传发育所联培,导师:姜勇、韩淑敏)
28.张振宇(2023级硕士生,生态学,中科院遗传发育所联培,导师:姜勇、张玉铭)
29.黄志雄(2023级硕士生,生态学,中科院遗传发育所联培,导师:姜勇、张玉翠)
30. 周效宇(2024级硕士生,生态学,河北大学,导师:姜勇、张雨雪)
31. 石 磊(2024级硕士生,生态学,河北大学,导师:姜勇、殷进飞)
32. 杨泽凯(2024级硕士生,生态学,河北大学,导师:姜勇、苏纪帅)
33. 牛梦涵(2024级硕士生,生态学,河北大学,导师:姜勇、苏纪帅)
34. 刘婉冰(2024级硕士生,生态学,河北大学,导师:姜勇、刘贺永)
35. 任 妮(2024级硕士生,资源利用与植物保护,河北大学,导师:姜勇、殷进飞)
36. 刘清琳(2024级硕士生,资源利用与植物保护,河北大学,导师:姜勇、张爱林)
37. 范晓甜(2024级硕士生,资源利用与植物保护,河北大学,导师:姜勇、刘贺永)
38. 贾美蕊(2024级硕士生,生物学,中科院城环所联培,导师:姜勇、孙新)
39. 王海燕(2024级硕士生,资源利用与植物保护,遗传所联培,导师:姜勇、)
在站师资博士后
张雨雪 2023年8月入站 生物学
已毕业研究生
1.张 英(博士,生态学,2024)
2.王颖杰(硕士,生态学,2024)
3.张秀颖(硕士,环境科学,2024)
4.高金影 (硕士,环境科学,2024)
5.王志瑞(博士,生态学,2023)
6.陈家齐(硕士,生态学,2023)
7.王金环(硕士,环境科学,2023)
8.刘梦霖(硕士,环境科学,2023)
9.袁 新(硕士,农业资源与环境,2022)
10.王 斌(硕士,生态学,2022)
11.李欣悦(硕士,环境科学,2022,)
12.付佳琳(硕士,环境科学,2022)
13.施 展(博士,生态学,2021)
14.李天鹏(博士,生态学,2021)
15.冯 雪(博士,植物营养学,2020)
16.刘贺永(博士, 土壤学,2020)
17.孟亚妮(硕士,生态学,2020)
18.何 鹏(博士,生态学,2019)
19.王皓然(硕士,环境科学,2019,)
20.冯 盼(硕士,环境科学,2018)
21.田圣贤(硕士,环境科学,2018)
22.王 雪(博士,生态学,2017)
23.蔡江平(博士,生态学,2017)
24.殷进飞(硕士,生态学,2017)
25.李 波(博士,生态学,2016)
26.张勇勇(博士,生态学,2016)
27.刘贺永(硕士,环境科学,2016)
28.王汝振(博士,生态学,2015)
29.雒文涛(博士,生态学,2015)
30.王 雪(硕士,生态学,2014)
31.符明明(硕士,土壤学,2012)
32.魏金明(硕士,生态学,2011)
33.周 丹(硕士,生态学,2010)
34.秦 莹(硕士,生态学,2009)
35.郝 伟(硕士,土壤学,2008)
36.庄秋丽(硕士,土壤学,2007)
出站博士后
1. 冯 雪 农业资源与环境方向(2023年出站,中科院沈阳生态所助理研究员)
2. 刘贺永 农业资源与环境方向(2023年出站,河北大学校聘研究员、硕导)
3. 马 望 农业 资源与环境方向(2023年出站,中科院沈阳生态所助理研究员)
4. 赵凤艳 农业资源与环境方向(2022年出站,辽宁省农科院副研究员)
5. 李善龙 农业资源与环境,(2018年出站,吉林省农科院副研究员)
6. 李 杰 农业资源与环境,(2017年出站,中科院沈阳生态所研究员、博导)