Publications in the recent 5 years (2016-2020)
(* corresponding author; # joint first authors; Including books and book chapters)
Part 1: 5 representative publications
1. Jiang, L.L.*, Wang, S.P., Meng, F.D., Duan, J.C., Niu, H.S., Xu, G.P., Zhu, X.X., Zhang, Z.H., Luo, C.Y., Cui, S.J., Li, Y.M., Li, X.E., Wang, Q, Zhou, Y., Bao, X.Y., Li, Y.N., Dorji, T., Piao, S.L., P. Ciais, J. Pecuelas, Du, M.Y., Zhao, X.Q., Zhao, L., Zhang, F.W., Wang, G.J., 2016. Relatively stable response of fruiting stage to warming and cooling relative to other phenological events. Ecology. 1961-1969
2. Li, X.E.#, Jiang, L.L.#, Meng, F.D.#, Wang, S.P.#*, Niu, H.S.#, AM Iler, Duan, J.C., Zhang, Z.H., Luo, C.Y., Cui, S.J., Zhang, L.R., Li, Y.M., Wang, Q, Zhou, Y., Bao, X.Y., T. Dorji, Li, Y.N., J. Pecuelas, Du, M.Y., Zhao, X.Q., Zhao, L., Wang, G.J., 2016. Responses of sequential and hierarchical phenological events to warming and cooling in alpine meadows. Nature Communications 7: 12489. DOI: 10.1038/ncomms12489
3. Jiang, L.L.*, Wang, S.P., Pang, Z., Wang, C.S., Kardol, P, Zhou, X.Q.,Rui, Y.C., Lan, Z.C., Wang, Y.F., Xu, X.L., 2016. Grazing modifies inorganic and organic nitrogen uptake by coexisting plant species in alpine grassland. Biology and Fertility of Soils. 52: 211–221
4. Jiang, L.L.*, Wang, S.P., Pang, Z., Wang, C.S., Kardol, P, Zhong, L., Yu, Q, Lan, Z.C., Wang, Y.F., Xu, X.L., Kuzyakov, Y, Luo, C.Y., Zhang, Z.H., Davey L. Jones., 2017. Effects of grazing on the acquisition of nitrogen by plants and microorganisms in an alpine grassland on the Tibetan plateau. Plan Soil. 416:297-308
5. Jiang, L.L.*, Wang, S.P., Pang, Z, Xu, X.L., Kardol, P, Li, Y.M., Zhang, L.R., Wang, Y.F., Zhong Lei, Lan, Z.C., Hill, P.W., Zhang, Z.H., Luo, C.Y., Rui, Y.C., Dong, N., Davey L. Jones., 2018. Plant organic N uptake maintains species dominance under long-term warming. Plant Soil (Cover article), 433:243-255
Part 2: other publications (as first or corresponding author)
6. Jiang, L.L., Wang, S.P., Pang, Z., Wang, C.S., Meng, F.D., Lan, Z.C., Zhou, X.Q., Li, Y.M., Zhang, Z.H., Luo, C.Y., Davey L. Jones, Rui, Y.C., Wang, Y.F.*, 2020. Abiotic and biotic controls of soil dissolved organic nitrogen along a precipitation gradient on the Tibetan Plateau. Plant Soil, DOI: 10.1007/s11104-020-04613-1.
7. Renzneg-Wangmu Jiang, L.L.* Wang, S.P., 2020. Abiotic and biotic controls of soil dissolved organic nitrogen along a precipitation gradient on the Tibetan Plateau (in Chinese with English abstract). Plateau Science Research. 4:55-61.
8. Pang Z, Jiang, L.L.*, Wang, Y.F., 2019. Differential response to warming of the uptake of nitrogen by plant species in non-degraded and degraded alpine grasslands. Journal of Soils and Sediments, 19(5): 2212-2221.
9. Renzeng-Wangmu, Jiang, L.L.*, Jia. S.G., 2018. Analysis of the influence of nitrogen and phosphorus addition on the ecological function of barley (in Chinese with English abstract). Plateau Science Research. 2:7-13.
10. Meng, F.D.#, Jiang, L.L. #, Zhang, Z.H., Cui, S.J., Wang, S.P. SP*, Luo, C.Y., Wang, Q., Zhou,Y., Du, M.Y., 2017. Changes in flowering functional group affect responses of community phenological sequences to temperature change on the Tibetan plateau. Ecology. 98(3): 734-740
11. Wang, Q., Zhou,Y, Jiang, L.L.*, Wang, S.P., 2017. Effects of Nitrogen and Phosphorus Additions on Plant Community Characteristics and Related Ecological Processes (in Chinese with English abstract). Acta Agrestia Sinica, 25:914-920
12. Jiang, L.L.*,Wang, S.P., Luo, C.y., Zhu, X.X, Kardol, P., Zhang, Z.H., Li, Y.M., Wang, C.H., Wang, Y.F., Jones, D.L., 2016. Warming and grazing directly influence dissolved organic nitrogen in a Tibetan alpine meadow ecosystem. Soil tillage research. 158:156–164.
13. Yigang Hu#, Jiang, L.L.#, Wang, S.P., Zhang, Z.H., Luo, C.Y., Bao, X.Y., Niu, H.S., Xu, G.P., Duan, J.C., Zhu, X.X., Cui, S.J., Du, M.Y., 2016. The temperature sensitivity of ecosystem respiration to climatechange in an alpine meadow on the Tibet plateau:A reciprocal translocation experiment. Agricultural and Forest Meteorology, 216:93-104.
14. Zhou, Y., Jiang, L.L.*, Li, B.W., 2016. Advance in plant and soil feedback (in Chinese with English abstract). Guihaia. 37:1480-1488
Part 3: other publications (as a co-author)
15. Wang, Q., Lv, W.W., Li, B.W., Zhou, Y., Jiang, L.L., Piao, S.L., Wang, Y.F., Zhang, L.R., Meng, F.D., Liu, P.P., Li, Y.M., Tsechoe, D., Luo, C.Y., Zhang, Z.H., P. Ciais, Josep Pecuelas, Kardol, P, Zhou, H.K., Wang, S.P.* 2020. Annual ecosystem respiration is resistant to changes in freeze-thaw periods in semi-arid permafrost. Global Change Biology.26: 2630-2641.
16. Lv, W.W., Luo, C.Y., Zhang, L.R., Niu, H.S., Zhang, Z.H., Wang, S.P.*, Wang, Y.F., Jiang, L.L., Wang, H.H., He, J.S., Kardol, P., Wang, Q., Li, B.W., Liu, P.P., Tsechoe, D., Zhou, H.K., Zhao, X.Q., Zhao, L., 2020. Net neutral carbon responses to warming and grazing in alpine grassland ecosystems. Agricultural and Forest Meteorology. doi.org/10.1016/j.agrformet.2019.107792.
17. Lv, W.W., Zhang, L.R., Niu, H.S., Li, B.W., Wang, Q, Zhou, Y., Wang, Y.F., Jiang, L.L., Liu, P.P., Luo, C.Y., Tsechoe, D., Wang, S.P.* 2020. Non-linear temperature sensitivity of litter component decomposition under warming gradient with precipitation addition on the Tibetan Plateau. Plant and Soil. 448:335-351.
18. Zhang, L.R., Lv, W.W., Cui, S.J., Jiang, L.L., Li, B.W., Liu, P.P., Wang, Q, Zhou, Y., Luo, C.Y., Zhang, Z.H., Tsechoe, D., Wang, S.P.* 2020. Effect of warming and degradation on phenophases of Kobresia pygmaea and Potentilla multifida on the Tibetan Plateau. Agriculture, Ecosystem and Environment. 300 (2020) 106998.
19. Meng, F.D., Zhang, L.R., Zhang, Z.H., Jiang, L.L., Wang, Y.F., Duan, J.C., Wang, Q, Li, B.W., Liu, P.P., Lv, W.W., Wangmu Rengzeng, Luo, C.Y., Tsechoe D., Zhou, H.K., Du, M.Y., Luo, Y.Q., Wang, S.P.* 2020. Enhanced spring temperature sensitivity of carbon emission links to earlier phenology. Science of the Total Environment. (accepted)
20. Wang, C.H., Lv, W.W., Jiang, L.L., Wang, S.P.*, Wang, Q., Meng, F.D., Zhang, L.R., 2020. Changes in leaf vein traits among vein types of alpine grassland plants on the Tibetan Plateau. J Mountain Science. 17(9): 2161-2169.
21. Lin, X., Dong, Q., Wang, P., Jiang, L.L., Hu, J.L., Wang, S.P., Ji, B.M.*, 2020. Effects of nitrogen and phosphorus additiona on arbuscular mycorrhizal fungi community in alpine meadow in Qinghai-Tibetan plateau. Journal of South Agricultural University. 41:95-103.
22. Gu, X.Y., Zhou, X.Q.*, Bu, X.L., Xue, M.D., Jiang, L.L., Wang, S.P., Hao, Y.B., Wang, Y.F., Xu, X.L., Wang, G.J., Simeon John Smaill, Clinton, P.W., 2019. Soil extractable organic C and N contents, methanotrophic activity under warming and degradation in a Tibetan alpine meadow. Agriculture Ecosystems & Environment 278:6-14.
23. Li, Y.M., Lv, W.W., Jiang, L.L., Zhang, L.R., Wang, S.P.*, Wang, Q, Xue, K., Li, B.W., Liu, P.P., Wang A, Luo, C.Y., Zhang, Z.H., Tsechoe, D., Neslihan Tac, Zhou, H.K., Wang, Y.F.* 2019. Microbial community responses weaken soil carbon loss in Tibetan alpine grasslands under short-term warming. Global Change Biology. 25:3438-3449.
24. Wang, Q., Zhang, Z.H., Du Rui, Wang, S.P.*, Duan, J.C., Amy Iler, Piao, S.L., Luo, C.Y., Jiang, L.L., Lv, W.W., Zhang, L.R., Meng, F.D., Suonan Ji, Li, Y.M., Li, B.W., Liu, P.P., Tsechoe, D., Wang, Z.Z., Li, Y.N., Du, M.M., Zhou, H.K., Zhao, X.Q., Wang, Y.F.* 2019. Richness of plant communities plays a larger role than climate in determining responses of species richness to climate change. J Ecology. 107(4):1944-1955.
25. Meng, F.D., Zhang, L.R., Zhang, Z.H., Jiang, L.L., Wang, Y.F., Duan, J.C., Wang, Q., Li, B.W., Liu, P.P., Lv, W.W., Luo, C.Y., Tscheo Dorji, Zhou, H.K., Du, M.M., and Wang, S.P.* 2019. Opposite effects of winter day and night temperature changes on early phenophases. Ecology. 100(9), e02775.
26. Li, Y.M.*, Jiang, L.L., Lv, W.W., Cui, S.J., Zhang, L.R., Wang, Q, Meng, F.D., Li, B.W., Liu, P.P., Ji Suonan, Li, X.E., Luo, C.Y., Zhang, Z.H., Tsechoe Dorji, Wang, Y.F., Wang, S.P.* 2019. Fungal pathogens pose a potential threat to animal and plant health in desertified and pika burrowed alpine meadow on the Tibetan Plateau. Canadian Journal of Microbiology. 65:365-376.
27. Liu, H.K., Lv, W.W., Wang, S.P.*, Luo, C.Y., Zhang, Z.H., Jiang, L.L., Cui, X.Y., 2019. Decreased soil substrate availability with incubation time weakens the response of microbial respiration to high temperature in an alpine meadow on the Tibetan plateau. J Soil and Sediment. 19:255-262.
28. Xue, K., Zhang, B., Zhou, S.T., Tang, L., Che, R.X., Pang, Z., Wang, F., Wang, D., Zhang, J., Jiang, L.L., Hu, R.H., Cui, X.Y., Hao, Y.B., Wang, Y.F.*2019. Soil microbial communities in alpine grasslands on the Tibet Plateau and their influencing factors. Chinese Science Bulletin 64(27):29:15-2927
29. Meng, F.D., Zhang, L.R., Niu, H.S., Ji Suonan, Zhang, Z.H., Wang, Q, Li, B.W., Lv, W.W., Wang, S.P.*, Duan, J.C., Liu, P.P., Jiang, L.L., Luo, C.Y., Tsechoe, D., Wang, Z.Z., Du, M.Y., 2019. Divergent responses of community reproductive and vegetative phenology to warming and cooling: asymmetry vs symmetry. Front. Plant Sci. 10:1310.
30. Li, X.E., Meng, F.D., Jiang, L.L., Zhang, L.R., Jia, S.G., Wang, S.P., Cui, X., Lv, W.W., 2019. Small-scale spatial patterns of Kobresia humilis and Stipa purpurea in typical plant communities from east to west across the northern Tibetan Plateau.CJE 9: 2577-2584.
31. Meng, F.D., Nanji Suo, Zhang, Z.H., Wang, S.P.*, Duan, J.C., Wang, Q, Li, B.W., Luo, C.Y., Jiang, L.L., Zhang, L.R., Liu, P.P., Wangmu Renzeng, Lv, W.W., Wang, Z.Z., Tsechoe, D., Du, M.Y., 2018. Nonlinear responses of temperature sensitivities of community phenophases to warming and cooling events are mirroring plant functional diversity. Agricultural and Forest Meteorology.253-254:31-37.
32. Zhong, L., Wang, S.P., Xu, X.L., Wang, Y.F., Rui, Y.C., Zhou, X.Q., Qinhua Shen, Wang, J.Z., Jiang, L.L., Luo, C.Y., 2018. Fungi regulate the response of the N2O production process towarming and grazing in a Tibetan grassland. Biogeosciences, 15: 4447-4457.
33. Li, X.E., Zhu, X.X., Wang, S.P., Cui, S.J., Luo, C.Y., Zhang, Z.H., Zhang, L.R., Jiang, L.L., Lv, W.W., 2018. Responses of biotic interactions of dominant and subordinate species to decadal warming and simulated rotational grazing in Tibetan alpine meadow. Science China: Life Sciences. 61(7), 849-859.
34. Cui, S.J., Meng, F.D., Ji Suonan, Wang, Q, Li, B.W., Liu, P.P., Wangmu Renzeng, Lv, W.W., Jiang, L.L., Zhang, L.R., Li, X.E., Li, Y.M., Zhang, Z.H., Luo, C.Y., Tsechoe, D., Wang, S.P.* 2017. Responses of phenology and seed production of annual Koenigia islandica to warming in a desertified alpine meadow. Agricultural and Forest Meteorology. 247:376-384.
35. Hao, Y.B., Zhou, C.T., Liu, W.J., Li, L.F., Kang, X.M., Jiang, L.L., Cui, X.Y., Wang, Y.F.*, Zhou, X.Q., 2017. Aboveground net primary productivity and carbon balance remain stable under extreme precipitation events in a semiarid steppe ecosystem. Agricultural and Forest Meteorology 240:1-9.
36. Liu, G.F., Liu, Y.P., Gao, X.L., Jiang, L.L., 2017. Leaf traits of dominant plants of main forest communities in Daqinggou Nature Reserves (in Chinese with English abstract). Acta Ecologica Sinica 14:4646-4655.
37. Liu, G.F., Liu, Y.P., Gao, X.L., b, 2017. Effects of Topographic Factors on Leaf Traits of Dominant Species in Different Forest Communities in Daqinggou Nature Reserves (in Chinese with English abstract). Scientia Silvae Sinicae,53:154-162.
38. Wang, S.P., Jiang, L.L., Zou, X.Y., Zhang, C.L., Li, Y.M., Cui, S.J., 2017. The ecological and physical process of desertification in alpine grassland on the Qinghai-Tibet Plateau (in Chinese). Overview of science and technology. 9:78-79.
39. Li, Y.M.*, Wang, S.P.*, Jiang, L.L., Zhang, L.R., Cui, S.J., Meng, F.D., Wang, Q, Li, X.E., Zhou, Y., 2016. Changes of soil microbial community under different degraded gradients of alpine meadow. Agriculture, Ecosystems and Environment 222:213-222.
40. Li, Y.M.*, Qiaoyan Lin, Wang, S.P.*, Xiangzhen Li, Wentso Liu, Luo, C.Y., Zhang, Z.H., Zhu, X.X., Jiang, L.L., Li, X.E. 2016. Soil bacterial community responses to warming and grazing in a Tibetan alpine meadow. FEMS Microbiology Ecology. 92:1-10.
41. Meng, F.D., Cui, S.J., Wang, S.P.*, Duan, J.C., Jiang, L.L., Zhang, Z.H., Luo, C.Y., Wang, Q, Zhou, Y., Li, X.E., Zhang, L.R., Tsechoe, D., Li, Y.N., Du, M.Y., Wang, G.J., 2016. Changes in phenological sequences of alpine communities across a natural elevation gradient. Agricultural and Forest Meteorology. 224:11-16.
42. Meng, F.D., Zhou, Y., Wang, S.P.*, Duan, J.C., Zhang, Z.H., Niu, H.S., Jiang, L.L., Cui, S.J., Xin’e Li, Luo, C.Y., Zhang, L.R., Wang, Q, Bao, X.Y., Tsechoe, D., Li, Y.N., Du, M.Y., Zhao, X.Q., Zhao, L., Wang, G.J., David W Inouye., 2016. Temperature sensitivity thresholds to warming and cooling in phenophases of alpine plants. Climate Change. 139:579-590.