(1).Zhou M, Bai WM*, Zhang YS, Zhang WH. 2018. Multi-dimensional patterns of variation in root traits among coexisting herbaceous species in temperate steppes. Journal of Ecology, 106: 2320-2331.
(2).Zheng Z, Ma PF, Li J, Ren LF, Bai WM, Tian QY, Sun W, Zhang WH*. 2018. Arbuscular mycorrhizal fungal communities associated with two dominant species differ in their responses to long-term nitrogen addition in temperate grasslands. Functional Ecology, 32:1575-1588.
(3).Mao XT, Li QF, Ren LF, Bai WM, Zhang WH*. 2018. Application of molybdenum fertilizer enhanced quality and production of alfalfa in northern China under non-irrigated conditions. Journal of Plant Nutrition, 41: 1009-1019.
(4).Ma LN, Liu GF, Xu XF, Xin XP, Bai WM, Zhang LH, Chen SP, Wang RZ. 2018. Nitrogen acquisition strategies during the winter-spring transitional period are divergent at the species level yet convergent at the ecosystem level in temperate grasslands. Soil Biology and Biochemistry, 122: 150-159.
(5).Liu WX, Qiao CL, Yang S, Bai WM, Liu LL. 2018. Microbial carbon use efficiency and priming effect regulate soil carbon storage under nitrogen deposition by slowing soil organic matter decomposition. Geoderma, 332: 37-44.
(6).Sun YF, Shen JP*, Zhang CJ, Zhang LM, Bai WM, Fang Y, He JZ. 2018. Responses of soil microbial community to nitrogen fertilizer and precipitation regimes in a semi-arid steppe. Journal of Soils Sediments, 18: 762-774.
(7).Song J, Wan SQ, Peng SS, Piao SL, Ciais P, Han XG, Zeng DH, Cao GM, Wang QB, Bai WM, Liu LL. 2018. The carbon sequestration potential of China’s grasslands. Ecosphere, 9(10): e02452.
(12).Tian QY#, Liu NN#, Bai WM#, Li LH, Chen JQ, Reich PB, Yu Q, Guo DL, Smith MD, Knapp AK, Cheng WX, Lu P, Gao Y, Yang A, Wang TZ, Li X, Wang ZW, Ma YB, Han XG, Zhang WH*. 2016. A novel soil manganese mechanism drives plant species loss with increased nitrogen deposition in a temperate steppe. Ecology. 97: 65-74.
(13).Guo Q, Hu ZM*, Li SG, Yu GR, Sun XM, Li LH, Liang NS, Bai WM. 2016. Exogenous N addition enhances the responses of gross primary productivity to individual precipitation events in a temperate grassland. Scientific Reports, 6: 26901.
(14).Guo Q, Li SG, Hu ZM*, Zhao W, Yu GR, Sun XM, Li LH, Liang NS, Bai WM. 2016. Responses of gross primary productivity to different sizes of precipitation events in a temperate grassland ecosystem in Inner Mongolia, China. Journal of Arid Land, 8: 3646.
(18).Bai WM, Guo DL, Tian QY, Liu NN, Cheng WX, Li LH, Zhang WH*. 2015. Differential responses of grasses and forbs led to marked reduction in below-ground productivity in temperate steppe following chronic N deposition. Journal of Ecology, 103: 1570-1579.
(20).Bai WM, Fang Y, Zhou M, Xie T, Li LH, Zhang WH*. 2015. Heavily intensified grazing reduces root production in Inner Mongolia temperate steppe. Agriculture, Ecosystems & Environment, 200: 143-150.
(21).Tian QY, Liu NN, Bai WM, Li LH, Zhang WH*. 2015. Disruption of metal ion homeostasis in soils is associated with nitrogen deposition-induced species loss in an Inner Mongolia steppe. Biogeosciences, 12: 3499-3512.
(29).Tian QY, Zhang XX, Gao Y, Bai WM, Ge F, Ma YB, Zhang WH*. 2013. Wheat genotypes differing in aluminum tolerance differ in their growth response to CO2 enrichment in acid soils. Ecology and Evolution, 3: 1440-1448.
(30).Bai WM, Xia JY, Wan SQ, Zhang WH, Li LH*. 2012. Day and night warming have different effect on root lifespan. Biogeosciences, 9: 375-384.
(31).Fang Y, Xun F, Bai WM*, Zhang WH, Li LH. 2012. Long-term nitrogen addition leads to loss of species richness due to litter accumulation and soil acidification in a temperate steppe. PLoS ONE, 7: e47369.
(32).Zhang XL, Wang QB, Gilliam FS, Bai WM, Han XG, Li LH*. 2012. Effect of nitrogen fertilization on net nitrogen mineralization in a grassland soil, northern China. Grass and Forage Science, 67: 219-230.
(33).Zhang XL, Bai WM, Gilliam FS, Wang QB, Han XG and Li LH. 2011. Effects of in situ freezing on soil net nitrogen mineralization and net nitrification in fertilized grassland of northern China. Grass and Forage Science, 66: 391-401.
(35).Bai WM, Wan SQ, Niu SL, Liu WX, Chen QS, Zhang WH, Han XG, Li LH*. 2010. Increased temperature and precipitation interact to affect root production, mortality, and turnover in a temperate steppe: Implications for ecosystem C cycling. Global Change Biology, 16: 1306-1316.
(36).Bai WM, Xun F, Li Y, Zhang WH, Li LH*. 2010. Rhizome severing increases root lifespan of Leymus chinensis in a typical steppe of Inner Mongolia. PLoS ONE, 5(8): e12125.
(37).Bai WM, Sun XQ, Wang ZW, Li LH*. 2009. Nitrogen addition and rhizome severing modify clonal growth and reproductive modes of Leymus chinensis population. Plant Ecology, 205: 13-21.
(38).Bai WM, Wang ZW, Chen QS, Zhang WH, Li LH*. 2008. Spatial and temporal effects of nitrogen addition on root lifespan of Leymus chinensis in a typical steppe of Inner Mongolia. Functional Ecology, 22: 583–591.
(39).Han JG, Zhang YJ*, Wang CJ, Bai WM, Wang YR, Han GD, Li LH. 2008. Rangeland degradation and restoration management in China. The Rangeland Journal, 30: 233-239.
(40).Yuan ZY, Li LH*, Han XG, Chen SP, Wang ZW, Chen QS, Bai WM. 2006. Nitrogen Response efficiency increased monotonically with decreasing soil resource availability: a case study from a semi-arid grassland in northern China. Oecologia, 148: 564-572.