科研项目

获奖情况:

[01]. 2022年, 第13届青藏高原青年科技奖, 中国青藏高原研究会.

[02]. 2022年, 第四批飞天学者特聘计划讲座教授, 甘肃省学位委员会和甘肃省教育厅.

[03]. 2018年, 藏北高寒草地生态系统对气候变暖的响应机制研究, 西藏自治区科学技术二等奖(排名第五).

[04]. 2015年, 藏北高寒草地生态系统变化分析与退化草地综合治理技术, 西藏自治区科学技术一等奖(排名第七).

[05]. Wu, J.*, X. Zhang, Z. Shen, P.Shi, S. Wurst, C.Schittko,Y. Zhang, and C. Yu. 10.04-10.08, 2015, Scotland, UK. Spatial biodiversity patterns of alpine grasslands across the Northern Tibetan Plateau: effects of environmental variables and pasture management, 3rdInternationalConference: Mountains of Our Future Earth, Perth. (The 5th Best Poster Prize)

[06]. Wu, J.*, C. Zeng and X. Zhang. 05.22-05.27, 2015, Mainz, Germany. Effects of grazing exclusion on above-vs. below-ground biomass allocation in three zonal alpine grassland types on the Northern Tibetan Plateau, 12th European Dry Grassland Meeting. (The 2nd Best Poster Prize).

论文发表：

J. Wu (武建双) is indicated in bold, while the author designated as the corresponding author is identified with an asterisk (*).

Publications in English

2025

[1].     Han, L., Ganjurjav, H., Hu, G., Wu, J., Wang, X., Yan, Y., Hu, Y., Ji, G., Danjiu, L., Gao, Q*. 2025. Warming enhances the effects of nitrogen addition on fungal, but not on bacterial diversity in an alpine meadow. Basic and Applied Ecology, 84, 110-120.

[2].     Tilahun, M., Angassa, A., Bora, Z., Mengistu, S., Wu, J.* 2025. Phenotypic plasticity and genetic variation of Prosopis juliflora (Sw.) DC. across diverse rangelands in northeastern Ethiopia. Ecological Processes, 14, 10.

[3].     Tilahun, M., Liu, Z., Angassa, A., Wang, Z., Li, M., Wu, J.* 2025. Drought and bush encroachment threaten dry rangeland sustainability in Northeastern Ethiopia. Global Ecology and Conservation 58, e03425.

2024

[4].     Wang, Z., Wu, J.*, Li, M., Cao, Y., Tilahun, M., Chen, B. 2024. The variability in sensitivity of vegetation greenness to climate change across Eurasia. Ecological Indicators 163, 112140.

[5].     Yang, Y., Wu, J., Niu, B., Li, M.* 2024. Mitigating the negative effects of droughts on alpine grassland productivity in the northern Xizang Plateau via degradation-combating actions. International Journal of Applied Earth Observation and Geoinformation, 134, 104171.

[6].     Feng, Y., Wu, J.*, Li, M., Chen, B., Tilahun, M., Zhang, X. 2024. Carbon use efficiency of alpine grasslands affected by grazing exclusion and local environmental context in Tibet, China. Global Ecology and Conservation, 56, e03275.

[7].      Zhang, S., Fan, D., Wu, J., Zhang, X., Zhuang, X., Kong, W.* 2024. The interaction of climate, plant, and soil factors drives putative soil fungal pathogen diversity and community structure in dry grasslands. Environmental Microbiology Reports, 16, e13223.

[8].     Zhu, J., Zhang, Y.*, Wu, J.*, Zhang, X., Yu, G., Shen, Z., Yang, X., He, Y., Jiang, L.*, Hautier, Y. 2024. Herbivore exclusion stabilizes alpine grassland biomass production across spatial scales. Global Change Biology, 30, e17155.

[9].     Yang, H., Yu, X.*, Song, J., Wu, J. 2024. Artemisia smithii patches form fertile islands and lead to heterogeneity of soil bacteria and fungi within and around the patches in alpine meadows of the Qinghai-Tibetan Plateau. Frontiers in Plant Science, 15,1411839.

2023

[10].        Wang, Z., Niu, B.*, He, Y., Zhang,J., Wu, J., Wang, X., Zhang, Y., Zhang, X*. 2023. Weakening summerwesterly circulation actuates greening of the Tibetan Plateau. Global andPlanetary Change, 221, 104027.

[11].        Wang, Y.*, Xue, K., Hu, R., Ding, B., Zeng, H., Li, R., Xu, B., Pang, Z., Song, X., Li, C., Du, J., Yang, X., Zhang, Z., Hao Y., Cui X., Guo, K., Gao, Q., Zhang, Y., Zhu, J., Sun, J., Li, Y., Jiang, L., Zhou, H., Luo, C., Zhang, Z., Gao, Q., Chen, S., Ji, B., Xu, X., Chen, H., Li, Q., Zhao, L., Xu, S., Liu, Y., Hu, Y., Wu, J., Yang, Q., Dong, S., He, J., Zhao, X., Wang, S., Piao, S., Yu, G., Fu, B. 2023. Vegetation structural shift tells environmental changes on the Tibetan Plateau over 40 years. Science Bulletin, 68, 1928-1937.

[12].        Hou, Q., Yang, H., Wu, J., Yu, X.* 2023. Carbon budget response to climate change varies with grassland type in Qilian Mountains, China. Global Ecology and Conservation, 47, e02670.

[13].        Zhao, J., Fan, D., Guo, W., Wu, J., Zhang, X., Zhuang, X., Kong, W.* 2023. Precipitation Drives Soil Protist Diversity and Community Structure in Dry Grasslands. Microbial Ecology, 86, 2293-2304.

[14].        Fan, D., Ji, M., Wu, J., Chen, H., Jia, H., Zhang, X., Zhuang, X., Kong, W.* 2023. Grazing does not influence soil arbuscular mycorrhizal fungal diversity but increases their interaction complexity with plants in dry grasslands on the Tibetan Plateau. Ecological Indicators, 148, 110065.

2022

[15].        Wang, Z., Zhang, X., Niu, B.*, Zheng, Y., He, Y., Cao, Y., Feng, Y., Wu, J. 2022 Divergent ClimateSensitivities of the Alpine Grasslands to Early Growing Season Precipitation on the Tibetan Plateau. Remote Sensing, 14, 2484.

[16].        Zhang, X., Li, M., Wu, J., He, Y., Niu, B.* 2022. Alpine Grassland Aboveground Biomass and Theoretical Livestock Carrying Capacity on the Tibetan Plateau. Journal of Resource and Ecology. 2022, 13, 129-141.

[17].        Hassan, W.* Li, Y., ba, T., Wu, J., Bashir, S., Bashir, S., Gatasheh, M., Diao, Z.* Chen, Z. 2022. Temperature responsiveness of soil carbon fractions, microbes, extracellular enzymes and CO2 emission: mitigating role of texture. PeerJ, 10, e13151.

[18].        Hassan, W.* Li, Y*., Saba, T., Jabbi, F., Wang, B., Cai, A., Wu, J. 2022. Improved and sustainable agroecosystem, food security and environmental resilience through zero tillage with emphasis on soils of temperate and subtropical climate regions: A review. International Soil and Water Conservation Research,10, 530-545.

[19].        Smith, M.D*.,Koerner, S.E., Avolio, M.L., Komatsu, K.J., Eby, S., Forrestel, E.J., Collins,S.L., Wilcox, K.R., Ahumada, R., Morgan, J.W., Oliva, G., Oñatibia, G.R.,Overbeck, G.E., Peter, G., Quiroga, E., Sankaran, M., Wu, J., Yahdjian,L., Yu, Q. 2022. Richness, not evenness, varies across water availability gradients in grassy biomes on five continents. Oecologia, 199, 649-659.

[20].        Han, L., Ganjurjav, H., Hu, G., Wu, J., Yan, Y., Danjiu, L., He, S., Xie, W., Yan, J., Gao, Q*. 2022. Nitrogen addition affects ecosystem carbon exchange by regulating plant community assembly and altering soil properties in an alpine meadow on the Qinghai–Tibetan Plateau. Frontiers in Plant Science, 13, 900722.

[21].        Wang, D., Zhou, H*., Zuo, J., Chen, P., She, Y., Yao, B., Dong, S., Wu, J., Li, F., Njoroge, D.M., Shi, G., Mao, X., Ma, L., Zhang, Z., Mao, Z. 2022. Responses of soil microbial metabolic activity and community structure to different degraded and restored grassland gradients of the Tibetan Plateau. Frontiers in Plant Science, 13, 770315.

[22].        Guo, C.,Wesche, K., Mărgărint, M.C., Nowak, A., Dembicz, I., Wu, J.* 2022. Climate overrides fencing and soil mineral nutrients to affect plant diversity and biomass of alpine grasslands across North Tibet. Frontiers in Plant Science, 13, 1024954.

[23].        Chen, H., Kong, W*., Shi, Q., Wang, F., He, C., Wu, J., Lin, Q., Zhang, X., Zhu, Y.-G., Liang, C., Luo, Y. 2022.Patterns and drivers of the degradability of dissolved organic matter in dryland soils on the Tibetan Plateau. Journal of Applied Ecology, 59, 884-894.

[24].        Chen, B., Chen, H., Li, M., Fiedler, S., Mărgărint, M.C., Nowak, A., Wesche, K., Tietjen, B., Wu, J.* 2022. Climate sensitivity of the arid scrublands on the Tibetan Plateau mediated by plant nutrient traits and soil nutrient availability. RemoteSensing, 4, 14184601.

2021

[25].        Zhang, J.* Gillet, F., Bartha, S., Alatalo, J.M., Biurrun, I., Dembicz, I., Grytnes, J.A., Jaunatre, R., Pielech, R., Van Meerbeek, K., Vynokurov, D., Widmer, S., Aleksanyan, A., Bhatta, K.P., Campos, J.A., Czortek, P., Dolezal, J., Essl, F., García‐Mijangos, I., Guarino, R., Güler, B., Hájek, M., Kuzemko, A., Li, F.Y., Löbel, S., Moradi, H., Naqinezhad, A., Silva, V., Šmerdová, E., Sonkoly, J., Stifter, S., Talebi, A., Török, P., White, H., Wu, J., Dengler, J., & Sabatini, F.M. 2021. Scale dependence of species-area relationships is widespread but generally weak in Palaearctic grasslands. Journal of Vegetation Science, 32, e13044.

[26].        Wu, J.* Li, M., Zhang, X., Fiedler, S., Gao, Q., Zhou, Y., Cao, W., Hassan, W., Margarint, M.C., Tarolli, P., & Tietjen, B. 2021. Disentangling climatic and anthropogenic contributions to nonlinear dynamics of alpine grassland productivity on the Qinghai-Tibetan Plateau. Journal of Environmental Management, 281, 111875.

[27].        Niu, W., Chen, H.*, Wu, J.* 2021. Soil moisture and soluble salt content dominate changes in foliar δ13C and δ15N of desert communities in the Qaidam Basin, Qinghai-Tibetan Plateau. Frontiers in PlantScience, 12, 675817.

[28].        Niu, B., Zhang, X.*, Piao, S., Janssens, I.A., Fu,G.,He,Y., Zhang, Y., Shi, P., Dai, E., Yu, C., Zhang, J., Yu, G., Xu, M., Wu, J., Zhu, L., Desai, A.R., Chen, J., Bohrer, G., Gough, .M., Mammarella, I.,Varlagin, A., Fares, S., Zhao, X., Li, Y., Wang, H.,Ouyang, Z. 2021. Warminghomogenizes apparent temperature sensitivity of ecosystem respiration. Science Advance 7, abc7358.

[29].        Liu, Q., Liu, L., Zhang, Y.*, Wang, Z., Wu, J., Li, L., Li, S., Paudel, B. 2021. Identification of impact factors for differentiated patterns of NDVI change in the headwater source region of Brahmaputra and Indus, Southwestern Tibetan Plateau. Ecological Indicators, 125, 107604.

[30].        Li, M., Zhang, X.*, Wu, J., Ding, Q., Niu, B., He., Y. 2021. Declining human activity intensity on alpine grasslands of the Tibetan Plateau. Journal of Environmental Management, 296, 113198.

[31].        Li, M., Yu, H., Meng, B., Sun, Y., Zhang, J., Zhang, H., Wu, J.*, Yi, S.* 2021. Drought reduces the effectiveness of ecological projects: Perspectives from the inter-annual variability of vegetation index. Ecological Indicators, 130, 108158.

[32].        Li, M., Wu, J.*, Feng, Y., Niu, B., He, Y., Zhang, X. 2021. Climate variability rather than livestock grazing dominates changes in alpine grassland productivity across Tibet. Frontiers in Ecology and Evolution, 9, 631024.

[33].        Ganjurjav, H., Gornish, E., Hu, G., Wu, J., Wan, Y.F., Li, Y., Gao, Q.* 2021. Phenological changes offset the warming effects on biomass production in an alpine meadow on the Qinghai-Tibetan Plateau. Journal of Ecology, 109, 1014-1025

[34].        Biurrun, I.* Pielech, R., Dembicz, I., Gillet, F., Kozub, L., Marceno, C., Reitalu, T., Van Meerbeek, K., Guarino, R., Chytry, M., Pakeman, R.J., Preislerova, Z., Axmanova, I., Burrascano, S., Bartha, S., Boch, S., Bruun, H.H., Conradi, T., De Frenne, P., Essl, F., Filibeck, G., Hajek, M., Jimenez-Alfaro, B., Kuzemko, A., Molnar, Z., Partel, M., Patsch, R., Prentice, H.C., Rolecek, J., Sutcliffe, L.M.E., Terzi, M., Winkler, M., Wu, J., Acic, S., Acosta, A.T.R., Afif, E., Akasaka, M., Alatalo, J.M., Aleffi, M., Aleksanyan, A., Ali, A., Apostolova, I., Ashouri, P., Batori, Z., Baumann, E., Becker, T., Belonovskaya, E., Alonso, J.L.B., Berastegi, A., Bergamini, A., Bhatta, K.P., Bonini, I., Buchler, M.O., Budzhak, V., Bueno, A., Buldrini, F., Campos, J.A., Cancellieri, L., Carboni, M., Ceulemans, T., Chiarucci, A., Chocarro, C., Conti, L., Csergo, A.M., Cykowska-Marzencka, B., Czarniecka-Wiera, M., Czarnocka-Cieciura, M., Czortek, P., Danihelka, J., Bello, F., Deak, B., Demeter, L., Deng, L., Diekmann, M., Dolezal, J., Dolnik, C., Drevojan, P., Dupre, C., Ecker, K., Ejtehadi, H., Erschbamer, B., Etayo, J., Etzold, J., Farkas, T., Farzam, M., Fayvush, G., Calzado, M.R.F., Finckh, M., Fjellstad, W., Fotiadis, G., Garcia-Magro, D., Garcia-Mijangos, I., Gavilan, R.G., Germany, M., Ghafari, S., del Galdo, G.P.G., Grytnes, J.A., Guler, B., Gutierrez-Giron, A., Helm, A., Herrera, M., Hullbusch, E.M., Ingerpuu, N., Jagerbrand, A.K., Jandt, U., Janisova, M., Jeanneret, P., Jeltsch, F., Jensen, K., Jentsch, A., Kacki, Z., Kakinuma, K., Kapfer, J., Kargar, M., Kelemen, A., Kiehl, K., Kirschner, P., Koyama, A., Langer, N., Lazzaro, L., Leps, J., Li, C.F., Li, F.Y., Liendo, D., Lindborg, R., Lobel, S., Lomba, A., Lososova, Z., Lustyk, P., Luzuriaga, A.L., Ma, W.H., Maccherini, S., Magnes, M., Malicki, M., Manthey, M., Mardari, C., May, F., Mayrhofer, H., Meier, E.S., Memariani, F., Merunkova, K., Michelsen, O., Mesa, J.M., Moradi, H., Moysiyenko, I., Mugnai, M., Naqinezhad, A., Natcheva, R., Ninot, J.M., Nobis, M., Noroozi, J., Nowak, A., Onipchenko, V., Palpurina, S., Pauli, H., Pedashenko, H., Pedersen, C., Peet, R.K., Perez-Haase, A., Peters, J., Pipenbaher, N., Pirini, C., Pladevall-Izard, E., Pleskova, Z., Potenza, G., Rahmanian, S., Rodriguez-Rojo, M.P., Ronkin, V., Rosati, L., Ruprecht, E., Rusina, S., Sabovljevic, M., Sanaei, A., Sanchez, A.M., Santi, F., Savchenko, G., Sebastia, M.T., Shyriaieva, D., Silva, V., Skornik, S., Smerdova, E., Sonkoly, J., Sperandii, M.G., Staniaszek-Kik, M., Stevens, C., Stifter, S., Suchrow, S., Swacha, G., Swierszcz, S., Talebi, A., Teleki, B., Tichy, L., Tolgyesi, C., Torca, M., Torok, P., Tsarevskaya, N., Tsiripidis, I., Turisova, I., Ushimaru, A., Valko, O., Van Mechelen, C., Vanneste, T., Vasheniak, I., Vassilev, K., Viciani, D., Villar, L., Virtanen, R., Vitasovic-Kosic, I., Vojtko, A., Vynokurov, D., Walden, E., Wang, Y., Weiser, F., Wen, L., Wesche, K., White, H., Widmer, S., Wolfrum, S., Wrobel, A., Yuan, Z.Q., Zeleny, D., Zhao, L.Q., Dengler, J. 2021. Benchmarking plant diversity of Palaearctic grasslands and other open habitats. Journal of Vegetation Science, 32, e13050

2020

[35].        Yang, Y., Zhou, Z., Li, Y., Lv, Y., Yang, D., Yang, S., Wu, J., Li, X., Gu, Z., Sun, X.*, Yang, Y.* 2020. Uncovering the role of a positive selection site of wax ester synthase/diacylglycerol acyltransferase in two closely related Stipa species in wax ester synthesis under drought stress. Journal of Experimental Botany, 71, 4159-4170.

[36].        Wang, Z., Wu, J., Niu, B., He, Y., Zu, J., Li, M., Zhang, X*. 2020. Vegetation expansion on the Tibetan Plateau and its relationship with climate change. Remote Sensing, 12, 4150.

[37].        Wang, Z., He, Y., Niu, B., Wu, J., Zhang, X.*, Zu, J., Huang, K., Li, M., Cao, Y., Zhang, Y., Chen, N., Yang, S., Wang, X. 2020. Sensitivity of terrestrial carbon cycle to changes in precipitation regimes. Ecological Indicators, 113, 106223.

[38].        Li, M., Zhang, X., Niu, B., He, Y., Wang, X. Wu, J.* 2020. Changes in plant species richness distribution in Tibetan alpine grasslands under different precipitation scenarios. Global Ecology and Conservation, 21, e00848.

[39].        Li, M., Zhang, X*., He, Y., Niu, B., Wu. J. 2020. Assessment of the vulnerability of alpine grasslands on the Qinghai-Tibetan Plateau. PeerJ, 8, e8513.

[40].        Li, M., Wu, J., He, Y., Wu, L., Niu, B., Song, M., Zhang, X.* 2020. Dimensionality of grassland stability shifts along with altitudes on the Tibetan Plateau. Agricultural and Forest Meteorology, 291, 108080.

[41].        Cao, Y., Wu, J., Zhang, X.*, Niu, B., He, Y. 2020. Comparison of methods for evaluating the forage-livestock balance of alpine grasslands on the northern Tibetan Plateau. Journal of Resources and Ecology, 11, 272-282.

2019

[42].        Zhao, G., Liu, M., Shi, P.*, Zong, N., Wang, J., Wu, J., Zhang, X. 2019. Spatial-temporal variation of ANPP and rain-use efficiency along a precipitation gradient on Changtang Plateau, Tibet. Remote Sensing, 11, 325.

[43].        Wu, J.*, Song, M., Ma, W., Zhang, X., Shen, Z., Tarolli, P., Wurst, S., Shi, P., Ratzmann, G., Feng, Y., Li, M., Wang, X., Tietjen. B., 2019. Plant and soil’s δ15N are regulated by climate, soil nutrients, and species diversity in alpine grasslands on the northern Tibetan Plateau. Agriculture, Ecosystems & Environment, 281, 111-123.

[44].        Wu, J.*, Li, M., Fiedler, S., Ma, W., Wang, X., Zhang, X., Tietjen, B. 2019. Impacts of grazing exclusion on productivity partitioning along regional plant diversity and climatic gradients in Tibetan alpine grasslands. Journal of Environmental Management, 231, 635-645

[45].        Torresani, L*., Wu, J., Masin, R., Penasa, M., Tarolli. P. 2019. Estimating soil degradation in montane grasslands of North-eastern Italian Alps (Italy). Heliyon, 5, e01825.

[46].        Sun, Z*., Wu, J., Liu, F., Shao, T., Liu, X., Chen, Y., Long, X., Rengel. Z. 2019. Quantitatively assessing the effects of climate change and human activities on ecosystem degradation and restoration in southwest China. Rangeland Journal, 41, 335-344.

[47].        Li, M., Wu, J.*, Song, C., He, Y., Niu, B., Fu, G., Tarolli, P., Tietjen, B., Zhang, X. 2019. Temporal variability of precipitation and biomass of alpine grasslands on the Northern Tibetan Plateau. Remote Sensing, 11, 360.

[48].        Li, L., Zhang, Y*., Wu, J., Li, S., Zhang, B., Zu, J., Zhang, H., Ding, M., Paudel. B. 2019. Increasing sensitivity of alpine grasslands to climate variability along an elevational gradient on the Qinghai-Tibet Plateau. Sciences of the Total Environment, 678, 21-29.

[49].        Cao, Y., Wu, J., Zhang, X*., Niu, B., Li, M., Zhang, Y., Wang, X., Wang. Z. 2019. Dynamic forage-livestock balance analysis in alpine grasslands on the Northern Tibetan Plateau. Journal of Environmental Management, 238, 352-359.

2018

[50].        Zhang, Y., Pan, Y., Zhang, X.*, Wu, J.X.*, Yu, C., Li, M., Wu, J.S. 2018. Patterns and dynamics of the human appropriation of net primary production and its components in Tibet. Journal of Environmental Management, 210, 280-289.

[51].        Wu, J., Fu, G.*. 2018. Modelling aboveground biomass using MODIS FPAR/LAI data in alpine grasslands of the Northern Tibetan Plateau. Remote Sensing Letters, 9, 150-159

[52].        Tian, Y., Yu, C.*, Zha, X., Wu, J., Gao, X., Feng, C.* 2018. Geographical and Botanical Variation in Concentrations of Molybdenum in Natural Pasture Plants and Surface Water and Yak Molybdenum Ingestion in North Tibet, China. Journal of Resources and Ecology, 9, 545-553, 549

[53].        Li, S.*, Wu, J., Gong, J., Li, S. 2018. Human footprint in Tibet: Assessing the spatial layout and effectiveness of nature reserves. Science of the Total Environment, 621, 18-29

[54].        Li, L., Zhang, Y.*, Liu, L.*, Wu, J., Wang, Z., Li, S., Zhang, H., Zu, J., Ding, M., Paudel, B. 2018. Spatiotemporal Patterns of Vegetation Greenness Change and Associated Climatic and Anthropogenic Drivers on the Tibetan Plateau during 2000-2015. Remote Sensing, 10, 1525.

[55].        Li, L., Zhang, Y.*, Liu, L., Wu, J., Li, S., Zhang, H., Zhang, B., Ding, M., Wang, Z., & Paudel, B. 2018. Current challenges in distinguishing climatic and anthropogenic contributions to alpine grassland variation on the Tibetan Plateau. Ecology and Evolution, 8, 5949-5963.

[56].        Koerner, S.E.*, Smith, M.D., Burkepile, D.E., Hanan, N.P., Avolio, M.L., Collins, S.L., Knapp, A.K., Lemoine, N.P., Forrestel, E.J., Eby, S., Thompson, D.I., Aguado-Santacruz, G.A., Anderson, J.P., Anderson, T.M., Angassa, A., Bagchi, S., Bakker, E.S., Bastin, G., Baur, L.E., Beard, K.H., Beever, E.A., Bohlen, P.J., Boughton, E.H., Canestro, D., Cesa, A., Chaneton, E., Cheng, J., D’Antonio, C.M., Deleglise, C., Dembélé, F., Dorrough, J., Eldridge, D.J., Fernandez-Going, B., Fernández-Lugo, S., Fraser, L.H., Freedman, B., García-Salgado, G., Goheen, J.R., Guo, L., Husheer, S., Karembé, M., Knops, J.M.H., Kraaij, T., Kulmatiski, A., Kytöviita, M.-M., Lezama, F., Loucougaray, G., Loydi, A., Milchunas, D.G., Milton, S.J., Morgan, J.W., Moxham, C., Nehring, K.C., Olff, H., Palmer, T.M., Rebollo, S., Riginos, C., Risch, A.C., Rueda, M., Sankaran, M., Sasaki, T., Schoenecker, K.A., Schultz, N.L., Schütz, M., Schwabe, A., Siebert, F., Smit, C., Stahlheber, K.A., Storm, C., Strong, D.J., Su, J., Tiruvaimozhi, Y.V., Tyler, C., Val, J., Vandegehuchte, M.L., Veblen, K.E., Vermeire, L.T., Ward, D., Wu, J., Young, T.P., Yu, Q., Zelikova, T.J. 2018. Change in dominance determines herbivore effects on plant biodiversity. Nature Ecology & Evolution, 2, 1925-1932

2017

[57].        Zhao, G., Shi, P.*, Wu, J., Xiong, D., Zong, N., Zhang, X. 2017. Foliar nutrient resorption patterns of four functional plants along a precipitation gradient on the Tibetan Changtang Plateau. Ecology and Evolution, 7, 7201-7212

[58].        Wu, J.*, Feng, Y., Zhang, X., Wurst, S., Tietjen, B., Tarolli, P., Song, C. 2017. Grazing exclusion by fencing non-linearly restored the degraded alpine grasslands on the Tibetan Plateau. Scientific Reports, 7, 15202.

[59].        Niu, B., Zhang, X.*, He, Y., Shi, P., FU, G., Du, M., Zhang, Y., Zong, N., Zhang, J., Wu, J. 2017. Satellite-Based Estimation of Gross Primary Production in an Alpine Swamp Meadow on the Tibetan Plateau: A Multi-Model Comparison. Journal of Resources and Ecology, 8, 57-66.

[60].        Fu, G., Wu, J. 2017. Validation of MODIS collection 6 FPAR/LAI in the alpine grassland of the Northern Tibetan Plateau. Remote Sensing Letters, 8, 831-838.

[61].        Feng, Y., Wu, J.*, Zhang, J., Zhang, X., Song, C. 2017. Identifying the Relative Contributions of Climate and Grazing to Both Direction and Magnitude of Alpine Grassland Productivity Dynamics from 1993 to 2011 on the Northern Tibetan Plateau. Remote Sensing, 9, rs9020136.

2016

[62].        Zhou, N., Wu, J.*, Shen, Z., Zhang, X., & Yang, P. 2016. Species-area relationship within and across functional groups at alpine grasslands on the northern Tibetan Plateau, China. Journal of Mountain Science, 13, 265-275

[63].        Yu, C., Zhang, X., Zhang, J., Li, S., Song, C., Fan, Y., Wurst, S., Wu, J.* 2016. Grazing exclusion to recover degraded alpine pastures needs scientific assessments across the Northern Tibetan Plateau. Sustainability, 8, 1162.

[64].        Wu, J.*, Wurst, S., Zhang, X.* 2016. Plant functional trait diversity regulates the nonlinear response of productivity to regional climate change in Tibetan alpine grasslands. Scientific Reports, 6, 35649.

[65].        Tian, Y., Yu, C., Zha, X., Wu, J., Gao, X., Feng, C., Luo, K.* 2016. Distribution and Potential Health Risks of Arsenic, Selenium, and Fluorine in Natural Waters in Tibet, China. Water, 8, 568.

[66].        Li, S., Wu. J.* 2016. Community assembly and functional leaf traits mediate precipitation use efficiency of alpine grasslands along environmental gradients on the Tibetan Plateau, PeerJ, 4, e2680.

2015

[67].        Zeng, C., Wu, J.*, Zhang, X. 2015. Effects of grazing on above- vs. below-ground biomass allocation of alpine grasslands on the Northern Tibetan Plateau. Plos One, 10, e0135173.

[68].        Wu, J.*, Yang, P., Zhang, X., Shen, Z., Yu, C. 2015. Spatial and climatic patterns of the relative abundance of poisonous vs. non-poisonous plants across the Northern Tibetan Plateau. Environmental Monitoring and Assessment, 187, 491.

[69].        Tian, Y., Yu, C.*, Luo, K.*, Zha, X., Wu, J., Zhang, X., Ni, R. 2015. Hydrochemical characteristics and element contents of natural waters in Tibet, China. Journal of Geographical Sciences, 25, 669-686.

2014

[70].        Xiong, D., Shi, P.*, Sun, Y., Wu, J., Zhang, X. 2014. Effects of grazing exclusion on plant productivity and soil carbon, nitrogen storage in alpine meadows in northern Tibet, China. Chinese Geographical Science, 24, 488-498.

[71].        Wu, J., Zhang, X.*, Shen, Z., Shi, P., Yu, C., Chen, B. 2014. Effects of livestock exclusion and climate change on aboveground biomass accumulation in alpine pastures across the Northern Tibetan Plateau. Chinese Science Bulletin, 59, 4332-4340.

[72].        Wu, J., Shen, Z., Zhang, X.* 2014. Precipitation and species composition primarily determine the diversity–productivity relationship of alpine grasslands on the Northern Tibetan Plateau. Alpine Botany, 124, 13-25.

[73].        Wu, J., Shen, Z., Shi, P., Zhou, Y., Zhang, X.* 2014. Effects of Grazing Exclusion on Plant Functional Group Diversity of Alpine Grasslands Along a Precipitation Gradient on the Northern Tibetan Plateau. Arctic, Antarctic, and Alpine Research, 46, 419-429.

[74].        Chen, B., Zhang, X.*, Tao, J., Wu, J., Wang, J., Shi, P., Zhang, Y., Yu, C. 2014. The impact of climate change and anthropogenic activities on alpine grassland over the Qinghai-Tibet Plateau. Agricultural and Forest Meteorology, 189-190, 11-18.

2013

[75].        Zhao, Y.*, Zhang, X., Shi, P., Wang, J., Wu, J. 2013. Impact of drought stress on net CO2 exchange above an alpine grassland ecosystem in the Central Tibetan Plateau. Journal of Resources and Ecology, 4, 327-336.

[76].        Wu, J., Zhang, X.*, Shen, Z., Shi, P., Xu, X., Li, X. 2013. Grazing-exclusion effects on aboveground biomass and water-use efficiency of alpine grasslands on the Northern Tibetan Plateau. Rangeland Ecology & Management, 66, 454-461.

[77].        Wu, J., Shen, Z., Zhang, X., Shi, P.* 2013. Biomass allocation patterns of alpine grassland species and functional groups along a precipitation gradient on the Northern Tibetan Plateau. Journal of Mountain Science, 10, 1097-1108.

[78].        Wang, J., Zhang, X.*, Chen, B., Shi, P., Zhang, J., Shen, Z., Tao, J., Wu, J. 2013. Causes and Restoration of Degraded Alpine Grassland in Northern Tibet. Journal of Resources and Ecology, 4, 43-49

2012

[79].        Wu, J., Zhang, X.*, Shen, Z., Shi, P., Yu, C., Song, M., Li, X. 2012. Species Richness and Diversity of Alpine Grasslands on the Northern Tibetan Plateau: Effects of Grazing Exclusion and Growing Season Precipitation. Journal of Resources and Ecology, 3, 236-242, 237

[80].        Fu, G., Shen, Z.*, Zhang, X., Shi, P., He, Y., Zhang, Y., Sun, W., Wu, J., Zhou, Y., Pan, X. 2012. Calibration of MODIS-based gross primary production over an alpine meadow on the Tibetan Plateau. Canadian Journal of Remote Sensing, 38, 157-168.

2011

[81].        Li, X., Zhang, X.*, Wu, J., Shen, Z., Zhang, Y., Xu, X., Fan, Y., Zhao, Y., Yan, W. 2011. Root biomass distribution in alpine ecosystems of the northern Tibetan Plateau. Environmental Earth Sciences, 64, 1911-1919.

[82].        Fu, G., Shen, Z.*, Zhang, X., Shi, P., Zhang, Y., Wu, J. 2011. Estimating air temperature of an alpine meadow on the Northern Tibetan Plateau using MODIS land surface temperature. Acta Ecologica Sinica, 31, 8-13.

2010

[83].        Fan, Y., Zhang, X., Shi, P., Wu, J. 2010. Impact of cloud on net ecosystem CO2 exchange of alpine meadow in Tibetan Plateau. Chinese Journal of Population Resources and Environment, 8, 69-75

Publications primarily in Chinese accompanied by abstracts in English

[1].     张新永,李少伟,刘增辉,陈林耀,武建双*. 2025. 藏北高原牦牛鲜奶营养品质及其影响因素分析.草业科学 42(1):1-16. Zhang, X., Li, S., Liu, Z., Chen, L., Wu, J.* 2025. Nutritional quality of fresh yak milk and its influencing factors across the northern Tibetan Plateau. Pratacultural Science 42(1):1-16.

[2].     张新永,李少伟,刘增辉,陈林耀,武建双*. 2024. 藏北高寒天然草地常见牧草营养品质影响因素分析.草地学报 32(12):3797-3806.Zhang, X., Li, S., Liu, Z., Chen, L., Wu, J.* 2024.  Nutritional quality of common forage species and their influences across natural alpine rangelands, Northern Tibetan Plateau. Acta Agrestia Sinica 32(12):3797-3806.

[3].     徐玲玲,牛犇*,张宪洲,何永涛,石培礼,宗宁,武建双,王向涛. 2024. 藏北两个临近不同高寒草地碳通量对气候条件的响应.草业学报33(6):1-16.Xu, L., Niu, B*., Zhang, X., He, Y., Shi, P., Zong, N., Wu, J., Wang, X. 2024. Climate responses of carbon fluxes in two adjacent alpine grasslands in northern Tibet. Acta Prataculturae Sinica 33(6):1-16

[4].     刘增辉,周荣柱,孙维,李少伟,张新永,陈林耀,武建双*. 2024. 藏北羌塘牧民家庭牲畜存出栏权衡及影响因素分析.草地学报32(11):3591-3601.Liu, Z., Zhou, R., Sun, W., Li, S., Zhang, X., Chen, L., Wu, J.* 2024. Livestock in

[5].     牛伟玲,陈辉,侯慧新,郭晨睿,马娇林, 武建双*,2022.10年禁牧未改变藏西北高寒荒漠植物水氮利用效率.草业学报31(8):35-48.Niu, W., Chen, H., Hou, H., Guo, C., Ma, J., and J. Wu*. 2022.  Ten-year livestock exclusion did not affect water and nitrogen use efficiency of alpine desert-steppe plants in Northwest Tibet. Acta Prataculturae Sinica 31(8):35-48.

[6].     郭晨睿,杨敬坡, 李少伟, 牛犇, 马娇林, 武建双*, 2022.围封对藏北高寒草原土壤矿质元素和群落特征的影响.草业科学39(4):1-16.Guo, C., Yang, J., Li, S., Niu, B., Ma, J., and J. Wu*. 2022. Effects of grazing exclusion by fence on soil mineral elements and plant community in alpine steppes of the Northern Tibetan Plateau. Pratacultural Science 30(4):1-16.

[7].     侯慧新,张雨,李少伟,牛犇,马娇林,张宪洲,武建双*,2021.藏北羌塘牧民家庭人口特征和收入构成之间的关系. 草地学报 29(12):2653-2663.Hou, H., Zhang, Y., Li, S., Niu, B., Ma, J., Zhang, X., and J. Wu*. 2021. Effects of population regime on income composition at the household scale across Changtang, North Tibet. Acta Agrestia Sinica 29(12): 2653-2663.

[8].     程俭, 刘昌华, 刘凯, 武建双, 范晨雨, 薛滨, 马荣华,宋春桥*, 2021. 2004年以来青海湖快速扩张对人居设施与草地的潜在影响." 湖泊科学 33(03): 922-934.Cheng, J., Liu, C., Liu, K., Wu, J., Fan, C., Xue, B., Ma, Ｒ., and  C. Song. 2021. Potential impact of the dramatical expansion of Lake Qinghai on the habitat facilities and grassland since 2004, Lake Sciences, 33(3):922-934.

[9].     冯云飞, 李猛, 李少伟, 邸迎伟, 沈振西, 张宪洲, 余成群, 严俊, 席永士, 武建双*, 2019. 2010 – 2017年藏北高寒退化草地禁牧恢复效果评价. 草业科学 36, 1148-1162.Feng, Y., Li M., Li, S., Di, Y., Shen, Z., Zhang, X., Yu, C., Yan, J., Xi, Y., and J. Wu. 2019. Effectiveness of grazing exclusion on the restoration of degraded alpine grasslands on the Northern Tibetan Plateau from 2010 to 2017, Pratacultural Science, 36(4):1148-1162.

[10].        杜三强, 程云湘*, 周国利, 武建双, 常生华, 马海玲, 2019. 生态奖补政策下的牧民收入影响因素分析——以肃南、甘南为例. 中国草地学报 41, 118-127.Du, S., Cheng, Y*., Zhou, G., Wu, J., Chang, S., and H. Ma. 2019. Study on the influencing factors of herdsmen’s income under the policy of ecological compensation, taking Sunan and Gannan as examples. Chinese Journal of Grassland, 41(4):118-127.

[11].        崔亚楠, 李少伟, 余成群, 田原, 钟志明, 武建双*, 2017. 西藏天然草原生态保护补助奖励政策对农牧民家庭收入的影响. 草业学报 26, 22-32.Cui, Y., Li, S., Yu, C., Tian, Y., Zhong, Z., and J. Wu*. 2017. Effects of the award-allowance payment policy for natural grassland conservation on income of farmer and herdsman families in Tibet. Acta Prataculturae Sinica, 26(3):22-32.

[12].        赵广帅, 熊定鹏, 石培礼*, 冯云飞, 武建双, 张宪洲, 曾朝旭, 2016. 羌塘高原降水梯度带紫花针茅叶片氮回收特征及影响因素. 生态学报 36, 3419-3428.Zhao, G., Xiong, D., Shi, P*., Feng, Y., Wu. J., Zhang, X., and C. Zeng. 2016. Leaf nitrogen resorption efficiency of Stipa purpurea and its determinants along a precipitation gradient on the Changtang Plateau. Acta Ecologica Sinica, 36(11):3419-3428.

[13].        熊定鹏, 赵广帅, 武建双, 石培礼*, 张宪洲, 2016. 羌塘高寒草地植物多样性与生态系统多功能关系格局. 生态学报 36, 3362-3371.Xiong, D., Zhao, G., Wu, J., Shi, P*., and X. Zhang. 2016. The relationship between species diversity and ecosystem multifunctionality in alpine grasslands on the Tibetan Changtang Plateau. Acta Ecologica Sinica, 36(11): 3362-3371.

[14].        罗黎鸣, 武建双, 余成群, 潘影, 苗彦军, 武俊喜*, 明升平, 郭应杰, 2016. 拉萨河谷山地灌丛草地植物多样性监测方法的比较研究. 草业学报 25, 22-31.Luo, L., Wu, J., Yu, C., Pan, Y., Miao, Y., Wu, J*., Ming, S., and Y. Guo. 2016. A comparative study of methods for monitoring plant diversity in montane shrub grassland in the Lhasa River Basin. Acta Prataculturae Sinica, 25(3):22-31. 

[15].        罗黎鸣, 苗彦军, 潘影, 武建双, 武俊喜*, 余成群, 赵延, 赵贯锋, 2015. 不同干扰强度对拉萨河谷草甸草原群落特征和功能性状的影响. 草地学报 23, 1161-1166.Luo, L., Miao, Y., Pan, Y., Wu, J., Wu, J*., Yu, C., Zhao, Y., and G. Zhao. 2015. Effects of disturbance intensity on the community characteristics and functional traits of meadow steppe at a valley the Lhasa River Basin. Acta Agrestia Sinica, 23(6):1161-1166.

[16].        田原, 余成群*, 雒昆利*, 武建双, 张宪洲, 倪润祥,田兴磊, 2014. 西藏地区天然水的水化学性质和元素特征. 地理学报 69(7): 969-982.Tian, Y., Yu, C*., Luo, K*., Wu, J., Zhang, X., Ni, R. and X. Tian. 2014. Water chemical properties and the element characteristics of natural water in Tibet, China. Acta Geographica Sinica, 69(7): 969-982.

[17].        罗黎鸣, 苗彦军, 武建双, 潘影, 土艳丽, 余成群, 赵延, 赵贯锋, 武俊喜*, 2014. 拉萨河谷山地灌丛草地植物多样性随海拔升高的变化特征. 草业学报 23, 320-326.Luo, L., Miao, Y., Wu, J., Pan, Y., Tu, Y., Yu, C., Zhao, Y., hao, G., and J. Wu*. 2014. Variation in the biodiversity of montane shrub grassland communities along an altitudinal gradient in a Lhasa River Basin valley. Acta Prataculturae Sinica,  23(6): 320-326.

[18].        周宇庭, 付刚, 沈振西*, 张宪洲, 武建双, 李云龙, 杨鹏万, 2013. 藏北典型高寒草甸地上生物量的遥感估算模型. 草业学报 22, 120-129.Zhou, Y., Fu, G., Shen, Z*., Zhang, X., Wu, J., Li, Y., and P. Yang. 2013.  Estimation model of aboveground biomass in the Northern Tibetan Plateau based on remote sensing data. Acta Prataculturae Sinica, 22(1): 120-129.

[19].        李云龙, 周宇庭, 张宪洲, 沈振西, 石培礼, 余成群, 武建双*, 2013. 羌塘牧民对退牧还草工程的认知与响应. 草业科学 30, 788-794.Li, Y., Zhou, Y., Zhang, X., Shen, Z., Shi, P., Yu, C., and J. Wu*. 2013. Awareness and reaction of herdsmen to the policy of returning grazing land to grasslands in the Changtang Plateau, Tibet. Pratacultural Science, 30(5):778-794.

[20].        武建双, 李晓佳, 沈振西*, 张宪洲, 石培礼, 余成群, 王景升, 周宇庭, 2012. 藏北高寒草地样带植物多样性沿降水梯度的分布格局. 草业学报 21, 17-25.Wu, J., Li, X., Shen, Z*., Zhang, X., Shi, P., Yu, C., Wang, J. and Y. Zhou. 2012. Species diversity distribution pattern of alpine grassland communities along a precipitation gradient across Northern Tibetan Plateau. Acta Prataculturae Sinica, 21(3): 17-25.

[21].        付刚, 沈振西*, 张宪洲, 石培礼, 何永涛, 武建双, 周宇庭, 2012.基于MODIS算法的藏北高寒草甸的光能利用效率模拟. 草业学报 21(6): 239-247.Fu, G., Shen, Z*., Zhang, X., Shi, P., He, Y., Wu, J. and Y. Zhou. 2012. Modelling light use efficiency of alpine meadows on the Northern Tibetan Plateau based on the MODIS algorithm. Acta Prataculturae Sinica, 21(6): 239-247.

[22].        付刚, 沈振西*, 张宪洲, 石培礼, 何永涛, 孙维, 武建双, 周宇庭, 2012. 利用蒸散比和气温模拟藏北高寒草甸的光能利用效率. 自然资源学报 27(3): 450-459.Fu, G., Shen, Z*., Zhang, X., Shi, P., He, Y., Sun, W., Wu, J. and Y. Zhou. 2012. Modeling light use efficiency of an alpine meadow on northern Tibetan Plateau using evaporative fraction and air temperature. Journal of Natural Resources, 27(3): 450-459.

[23].        鲁春霞*, 刘铭, 冯跃, 武建双, 冷允发, 2011. 羌塘地区草食性野生动物的生态服务价值评估——以藏羚羊为例. 生态学报 31, 7370-7378.Lu, C*., Liu, M., Feng, Y., Wu, J. and Y. Leng. 2011. Assessing ecological service value of herbivorous wild animals in Changtang grassland: a case study of Tibetan antelope. Acta Ecologica Sinica, 31(24):7370-7378.

[24].        付刚, 周宇庭, 沈振西*, 张宪洲, 武建双, 2011.藏北高原高寒草甸地上生物量与气候因子的关系. 中国草地学报 33(4): 31-36.Fu, G., Zhou, Y., Shen, Z*., Zhang, X. and J. Wu. 2011. Relationships between aboveground biomass and climate factors on alpine meadow in northern Tibet. Chinese Journal of Grassland, 33(4): 31-36.

[25].        付刚, 周宇庭, 沈振西*, 张宪洲, 石培礼, 何永涛, 于桂荣, 武建双, 2011.不同海拔高度高寒草甸光能利用效率的遥感模拟. 生态学报 31(23): 6989-6998.Fu, G., Zhou, Y., Shen, Z*., Zhang, X., Shi, P., He, Y., Yu, G. and J. Wu. 2011. Satellite-based modelling light use efficiency of alpine meadow along an altitudinal gradient. Acta Ecologica Sinica, 31(23): 6989-6998.

[26].        付刚, 沈振西*, 张宪洲, 石培礼, 何永涛, 武建双, 周宇庭, 2011. 利用MODIS影像和气候数据模拟藏北高寒草甸的土壤呼吸. 草地学报 19(03): 400-405.Fu, G., Shen, Z*., Zhang, X., Shi, P., He, Y., Wu, J. and Y. Zhou. 2011. Modeling soil respiration of alpine meadow on the northern Tibet Plateau Using MODIS and Climate Data, 19(03): 400-405.

[27].        王景升, 张宪洲*, 赵玉萍, 秦泗国, 武建双, 2010. 羌塘高原高寒草地生态系统生产力动态. 应用生态学报 21, 1400-1404.Wang, J., Zhang, X*., Zhao, Y., Qing S., and J. Wu*. 2010. Spatiotemporal pattern of alpine grassland productivity in Qiangtang Plateau. Chinese Journal of Applied Ecology, 21(6): 1400-1404.

[28].        付刚, 周宇庭, 沈振西*, 张宪洲, 石培礼, 何永涛, 武建双, 2010. 不同海拔高寒放牧草甸的生态系统呼吸与环境因子的关系. 生态环境学报 19(12): 2789-2794.Fu, G., Zhou, Y., Shen, Z*., Zhang, X., Shi, P., He, Y. and J. Wu. 2010. Relationships between ecosystem respiration and environmental factors of alpine grazing meadows along an altitudinal gradient (4 300~4 700 m). Ecology and Environmental Sciences, 19(12): 2789-2794.

[29].        付刚, 沈振西*, 张宪洲, 余桂荣, 何永涛, 武建双, 2010. 草地土壤呼吸对全球变化的响应. 地理科学进展 29(11): 1391-1399.Fu, G., Shen, Z*., Zhang, X., Yu, G., He, Y. and J. Wu. 2010. Response of grassland soil respiration to global change. Process in Geography, 29(11): 1391-1399.

[30].        付刚, 沈振西*, 张宪洲, 武建双, 石培礼, 2010. 基于MODIS影像的藏北草甸的蒸散模拟. 草业学报 19, 103-112.Fu, G., Shen, Z*., Zhang, X, Wu, J. and P. Shi. 2010. Modelling the evapotranspiration of an alpine meadow ecosystem in the northern Tibetan Plateau based on MODIS images. Acta Prataculturae Sinica,19(5): 103-112.

[31].        邓自发, 武建双, 谢晓玲, 谢焕松, 沈振西*, 2010. 不同处理对藏北地区退化人工草地垂穗披碱草种群克隆表型的影响. 西北植物学报 30, 1225-1230.Deng, Z., Wu, J., Xie, X., Xie, H., and Z. Shen*. 2010. Clonally phenotypic variation of Elymus nutans in degraded anthropogenic grassland under different treatments in Northern Tibetan. Acta Bot. Boreal. -Occident. Sin.30 (6):1225-1230.

[32].        武建双, 沈振西*, 张宪洲, 付刚, 2009. 藏北高原人工垂穗披碱草种群生物量分配对施氮处理的响应. 草业学报 18, 113-121.Wu, J., Shen, Z*., Zhang, X., and G. Fu. 2009. Effects of nitrogen fertilizer application on Elymus nutans biomass allocation in an alpine meadow zone on the Tibetan Plateau. Acta Prataculturae Sinica, 18(6):  113-121.