博士生导师简介
雒文涛,男,1986年11月生,辽宁北票人,博士,九三学社社员,博士,中国科学院沈阳应用生态研究所研究员、博士生导师、国家优秀青年基金获得者、中国科学院青创会会员。同时担任《应用生态学报》、《Journal of Ecology》及《Oecologia》等学术期刊编委、国家林草局辽西北草原生态系统定位观测研究站站长、入选“英才兴蒙”人才计划。主要开展草地干旱适应机制和策略研究,揭示草地植物群落应对环境变化的重要生态过程与驱动机制,研发退化草地植被定向快速恢复技术。先后主持国家自然科学基金、国家重点研发、中科院先导专项等项目10项。提交咨询报告被全国政协采纳,研发技术获国际发明专利授权;以第一和通讯作者在Ecology Letters(封面)、Ecology(5)、Journal of Ecology(4)、Functional Ecology(4)等SCI期刊上发表论文30余篇。
2012.09-2015.06 中国科学院大学 生态学 博士;
2009.09-2012.06 辽宁师范大学 环境科学 硕士;
2009.09-2012.06 大庆师范学院 生物科学 本科
2024.11-至今 中国科学院沈阳应用生态研究所 研究员;
2019.11-2024.10 中国科学院沈阳应用生态研究所 副研究员;
2015.07-2019.10 中国科学院沈阳应用生态研究所 助理研究员
植物功能性状与干旱适应性策略 | 植物多样性与功能维持机制 | 植被恢复与可持续管理 | 水碳耦合与植物环境互作 | 草地生态系统响应与适应
国家优秀青年基金获得者
中国科学院青创会会员
入选“英才兴蒙”人才计划
2025-2027:国家自然科学基金-优青项目,草地干旱适应机制和策略,项目负责人。
2022-2025:国家自然科学基金-面上项目,不同类型草原植物繁殖体库及其与植被关系对极端干旱的响应,项目负责人。
2020-2023:国家自然科学基金-面上项目,极端干旱干扰后不同类型草原植物群落恢复力及其机制研究,项目负责人。
2017-2019:国家自然科学基金-青年项目,呼伦贝尔草原优势植物氮素回收效率对氮源与氮汇强度及其关系变化的响应,项目负责人。
2022-2026:国家重点研发项目-子课题,草甸草原生态系统多功能及其稳定性维持机制,项目负责人。
2016-2020:国家重点研发项目-子课题,北方农牧交错带草地生物多样性管理与人工草地建植,项目负责人。
2020-2023:中国科学院青年创新促进会项目,项目负责人。
2019-2023:中国科学院A类战略性先导专项专题,国家自然保护地植物引种栽培及迁地保护,项目负责人。
2023-2026:辽宁省“揭榜挂帅”科技攻关计划项目-子课题,沙地草地恢复的土壤生境改良与养分调控技术,项目负责人。
2020-2022:辽宁省重大科学计划项目-子课题,退耕地植被定向恢复技术,项目负责人。
2023-2025:辽宁省科技计划联合计划(应用基础研究项目),辽西北草原植物群落干旱适应机制与对策,项目负责人。
1.Chen JQ, Te N, Qiu C, Shi Y, Song L, Griffin-Nolan RJ, Broderick CM, Yu Q, Wang Z, Jiang Y, Han X, Collins SL, Luo WT* (2026) Dominant species determine drought effects on grassland multifunctionality. Journal of Ecology 114: e70276.
2.Tian JT#, Zhang ZM#, Te N, Tao J, Kong D, Zhu J, Zhang Y, Lubbe FC, Collins SL, Luo WT*, Qian JQ*, Han X (2026) Grassland bud and shoot demography depend on both amount and frequency of nitrogen addition. Journal of Ecology 114: e70273.
3.Muraina TO#, Te NW#, Jimoh SO, Griffin-Nolan R, Song L, Chen J, Shi Y, Amisu AA, Chaudhary T, Yu Q, Smith MD, Knapp AK, Collins SL, Luo WT*, Martina JP (2026) Resistance of shallow soil carbon to both short-term isolated and recurrent droughts in two semi-arid grasslands. Oecologia, 2026, 208: 19.
4.Luo WT*, Ishii NI, Muraina TO, Song L, Te N, Griffin-Nolan RJ, Slette IJ, Ross SRPJ, Sasaki T, Rudgers JA, Smith MD, Knapp AK, Collins SL. Extreme drought increases the temporal variability of grassland productivity by suppressing dominant grasses. Ecology Letters, 2025, 28: e70127 (封面文章).
5.Te NW, Griffin-Nolan RJ, Slette IJ, Shi Y, Song L, Chen J , Wang H, Qian J, Yu Q, Wang Z, Lü X, Han X, Klimešová J, Collins SL, Luo WT*. Grassland bud and shoot demographic responses to single and recurrent droughts vary across an aridity gradient. Ecology, 2025 106: e70002.
6.Te NW, Griffin-Nolan RJ, Slette IJ, Shi Y, Song L, Chen J , Wang H, Qian J, Yu Q, Wang Z, Lü X, Han X, Klimešová J, Collins SL, Luo WT*. Responses of Grassland Bud Traits to Single and Recurrent Droughts Across an Aridity Gradient. Bull Ecol Soc Am, 2025, 0:e70011.
7.Shi Y, Muraina TO, Jimoh SO, Te N, Song L, Chen J, Wang H, Yu Q, Zuo X, Han X, Luo WT*, Collins SL. Fine root trait dynamics and their relationships with productivity across grasslands under extreme drought. Oecologia, 2025, 207: 158.
8.Song L, Griffin-Nolan RJ, Muraina TO, Chen JQ, Te NW, Shi Y, Whitney KD, Zhang BC, Yu Q, Smith MD, Zuo XA, Wang ZW, Knapp AK, Han XG, Collins SL, Luo WT* Grassland sensitivity to drought is related to functional composition across East Asia and North America. Ecology, 2024, 105: e4220.
9.Qiu B, Te N, Song L, Shi Y, Qiu C, Zuo X, Yu Q, Qian J, Wang Z, Wu H, Luo WT* (2024) Unexpected diversity in ecosystem nutrient responses to experimental drought in temperate grasslands. Phyton, 93: 831.
10.Luo WT*, Shi Y, Wilkins K, Song L, Te N, Chen J, Zhang H, Yu Q, Wang Z, Han X, Collins SLL. Plant traits modulate grassland stability during drought and post-drought periods. Functional Ecology, 2023, 37: 2611-2620.
11.Luo WT*, Muraina TO, Griffin-Nolan RJ, Te N, Qian J, Yu Q, Zuo X, Wang Z, Knapp AK, Smith MD, Han X, Collins SL (2023) High below-ground bud abundance increases ecosystem recovery from drought across arid and semiarid grasslands. Journal of Ecology, 111: 2038-2048.
12.Luo WT*, Ma W, Muraina TO, Song L, Te N, Chen JQ, Wilkins K, Griffin-Nolan RJ, Ma T, Qian J, Xu C, Yu Q, Wang Z, Han X, Collins SL. Compensatory dynamics drive grassland recovery from drought. Journal of Ecology, 2023, 111, 1281-1291.
13.Qian J, Zhang Z, Dong Y, Ma Q, Yu Q, Zhu J, Zuo X, Broderick CM, Collins LS, Han X, Luo WT*. Responses of bud banks and shoot density to experimental drought along an aridity gradient in temperate grasslands. Functional Ecology, 2023, 37, 1211-1220.
14.Luo WT*, Muraina TO, Griffin-Nolan RJ, Ma W, Song L, Fu W, Yu Q, Knapp AK, Wang Z, Han X. Collins SL. Responses of a semiarid grassland to recurrent drought are linked to community functional composition. Ecology, 2023 104(2): e3920.
15.Luo WT, Griffin-Nolan RJ, Felton AJ, Yu Q, Wang H*, Zhang H*, Wang Z, Han X, Collins SL, Knapp AK. Drought has inconsistent effects on seed trait composition despite their strong association with ecosystem drought sensitivity. Functional Ecology, 2022, 36: 2690-2700.
16.Luo WT*, Griffin-Nolan RJ, Song L, Te N, Chen J, Shi Y, Muraina TO, Wang Z, Smith MD, Yu Q, Knapp AK, Han X, Collins SL. Interspecific and intraspecific trait variability differentially affect community-weighted trait responses to and recovery from long-term drought. Functional Ecology, 2022, 37, 504–512.
17.Qian J, Guo Z, Muraina Ta, Te N, Griffin-Nolan R, Song L, Xu C, Yu Q, Zhang Z*, Luo WT*. Legacy effects of a multi-year extreme drought on belowground bud banks in rhizomatous vs bunchgrass-dominated grasslands. Oecologia, 2022, 198(3): 763-771.
18.Song L, Luo WT*, Griffin-Nolan RJ, Ma W, Cai J, Zuo X, Yu Q, Hartmann H, Li MH, Smith MD, Collins SL, Knapp AK, Wang Z*, Han X. Differential responses of grassland community nonstructural carbohydrate to experimental drought along a natural aridity gradient. Science of the Total Environment, 2022, 822: 153589.
19.Luo WT, ZuoXA, Griffin-Nolan RJ, Xu C, Sardans J, Yu Q*, Wang ZW*, Han XG, Peñuelas J. Chronic and intense droughts differentially influence grassland carbon-nutrient dynamics along a natural aridity gradient, Plant and Soil, 2022, 473: 137-148.
20.Luo WT, Griffin-Nolan RJ, Ma W, Liu B, Zuo X, Xu C, Yu Q*, Luo Y, Mariotte P, Smith MD, Collins SL, Knapp AK, Wang Z, Han X. Plant traits and soil fertility mediate productivity losses under extreme drought in C3 grasslands. Ecology, 2021, 102: e03465.
21.Luo WT, Wang X, Auerswald K, Wang Z, Bird MI, Still CJ, Lü XT*, Han X. Effects of plant intraspecific variation on the prediction of C3/C4 vegetation ratio from carbon isotope composition of topsoil organic matter across grasslands. Journal of Plant Ecology, 2021, 14: 628-637.
22.Luo WT, Zuo XA*, Griffin-Nolan RJ, Xu C, Ma M, Song L, Helsen K, Lin Y, Cai J, Yu Q, Wang ZW*, Smith MD, Han XG, Knapp AK. Long term experimental drought alters community plant trait variation, not trait means, across three semiarid grasslands, Plant and Soil, 2019, 442: 343-353
23.Luo WT, Zuo XA, Ma W, Xu C, Li A, Yu Q, Knapp AK, Tognetti R, Dijkstra FA, Li MH, Han GD, Wang ZW*, Han XG. Differential responses of canopy nutrients to experimental drought along a natural aridity gradient, Ecology, 2018, 99: 2230-2239
24.Luo WT, Xu C, Ma W, Yue XY, Zuo XA, Knapp AK, Smith MD, Sardans J, Dijkstra FA, Peñuelas J, Bai YF, Wang ZW*, Yu Q*, Han XG. Effects of extreme drought on plant nutrient uptake and resorption in rhizomatous vs bunch grass dominated grasslands, Oecologia, 2018, 188: 633-643
25.Luo WT, Wang XG, Jordi S, Wang ZW, Feike AD, Lü XT*, Peñuelas P, Han XG. Higher capability of C3 than C4 plants to use nitrogen inferred from nitrogen stable isotopes along an aridity gradient, Plant and Soil, 2018, 428: 93-103
26.Luo WT, Li MH, Jordi S, Lü XT, Wang Chao, Peñuelas P, Wang ZW, Han XG, Jiang Y*. Carbon and nitrogen allocation shifts in plants and soils under changing climate and fertility, Ecology and Evolution, 2017, 7: 6927-6934
27.Luo WT, Sardans J, Dijkstra FA, Peñuelas JJ, Lü XT, Wu H, Li MH, Bai E, Wang ZW, Han XG, Jiang Y*. Thresholds in decoupled soil-plant elements under changing climatic conditions, Plant and Soil, 2016, 409: 159-173
28.Luo WT, Dijkstra FA, Bai E, Feng J, Lü XT, Wang C, Wu HH, Li MH, Han XG, Jiang Y*. A threshold reveals decoupled relationship of sulfur with carbon and nitrogen in soils across arid and semi-arid grasslands in northern China, Biogeochemistry, 2016, 127: 141-153
29.Luo WT, Elser JJ, Lü XT, Wang Z, Bai E, Yan C, Wang C, Li MH, Zimmermann NE, Han XG, Xu Z, Li H, Wu Y, Jiang Y*. Plant nutrients do not covary with soil nutrients under changing climatic conditions, Global Biogeochemical Cycles, 2015, 29: 1298-1308
30.Luo WT, Nelson PN, Li MH, Cai JP, Zhang Y, Shan Y, Wang RZ, Han XG, Jiang Y*. Contrasting pH buffering patterns in neutral-alkaline soils along a 3600 km transect in northern China, Biogeosciences, 2015, 12: 7047-7056
31.Luo WT, Jiang Y*, Lü XT, Wang X, Li MH, Bai E, Han XG, Xu ZW. Patterns of plant biomass allocation in temperate grasslands across a 2500-km transect in northern China. PLoS One, 2013, 8(8): e71749
雒文涛, 史瑗, 特尼乌, 吕晓涛, 王正文. METHOD FOR PREDICTING PRODUCTIVITY OF GRASSLAND, OCTROOINUMMER, 2035665, 06/03/2025 (欧洲发明专利授权)
