Positions:
Phone:(86)-731-84619759
Fax:(86)-731-84612685
E-mail:hbhpjhn@isa.ac.cn
1.He, X., Wang, K., Zhang, W., Chen, Z., Zhu, Y. & Chen, H. (2008). Positive correlation between soil bacterial metabolic and plant species diversity and bacterial and fungal diversity in a vegetation succession on Karst. Plant and Soil, 307, 123-134.
2.He, X., Su, Y., Liang, Y., Chen, X., Zhu, H. & Wang, K. (2012). Land reclamation and short-term cultivation change soil microbial communities and bacterial metabolic profiles. Journal of the Science of Food and Agriculture, 92, 1103-1111.
3.Xiao, W., Feng, S., Liu, Z., Su, Y., Zhang, Y., He, X. et al. (2017). Interactions of soil particulate organic matter chemistry and microbial community composition mediating carbon mineralization in karst soils. Soil Biology & Biochemistry, 107, 85-93.
4.Feng, S., Huang, Y., Ge, Y., Su, Y., Xu, X., Wang, Y. He, X., et al. (2016). Variations in the patterns of soil organic carbon mineralization and microbial communities in response to exogenous application of rice straw and calcium carbonate. Science of the Total Environment, 571, 615-623.
5.Xiao, D., He, X., Wang, G., Xu, X., Hu, Y., Chen, X. et al. (2022a). Network analysis reveals bacterial and fungal keystone taxa involved in straw and soil organic matter mineralization. Applied Soil Ecology, 173.
6.Xiao, D., He, X., Zhang, W., Cheng, M., Hu, P. & Wang, K. (2022b). Diazotroph and arbuscular mycorrhizal fungal diversity and community composition responses to karst and non-karst soils. Applied Soil Ecology, 170.
7.Xiao, D., He, X., Zhang, W., Hu, P., Sun, M. & Wang, K. (2022c). Comparison of bacterial and fungal diversity and network connectivity in karst and non-karst forests in southwest China. The Science of the total environment, 822, 153179-153179.
8.Liu, Q., He, X., Luo, G., Wang, K. & Li, D. (2022). Deciphering the dominant components and functions of bacterial communities for lignocellulose degradation at the composting thermophilic phase. Bioresource technology, 348, 126808-126808.
9.Liu, Q., He, X. & Li, D. (2023). Unearthing the mechanisms underlying calcium carbonate therapies for eliminating pathogens during composting. Chemical Engineering Journal, 451.
10.Xiao, D., Chen, Y., He, X., Xu, Z., Bai, S.H., Zhang, W. et al. (2021). Temperature and precipitation significantly influence the interactions between arbuscular mycorrhizal fungi and diazotrophs in karst ecosystems. Forest Ecology and Management, 497.
11.Xiao, D., He, X., Zhang, W., Hu, P., Sun, M. & Wang, K. (2022d). Microbiological mechanism underlying vegetation restoration across climatic gradients in a karst ecosystem. Land Degradation & Development, 33, 3245-3259.
12.Xiao, D., Huang, Y., Feng, S., Ge, Y., Zhang, W., He, X. et al. (2018). Soil organic carbon mineralization with fresh organic substrate and inorganic carbon additions in a red soil is controlled by fungal diversity along a pH gradient. Geoderma, 321, 79-89.
13.Deng, S., Zheng, X., Chen, X., Zheng, S., He, X., Ge, T. et al. (2021). Divergent mineralization of hydrophilic and hydrophobic organic substrates and their priming effect in soils depending on their preferential utilization by bacteria and fungi. Biology and Fertility of Soils, 57, 65-76.
14.Xiao, D., Che, R., Liu, X., Tan, Y., Yang, R., Zhang, W. He, X. (2019a). Arbuscular mycorrhizal fungi abundance was sensitive to nitrogen addition but diversity was sensitive to phosphorus addition in karst ecosystems. Biology and Fertility of Soils, 55, 457-469.
15.Xiao, D., Liu, X., Yang, R., Tan, Y., Zhang, W., He, X. et al. (2020b). Nitrogen fertilizer and Amorpha fruticosa leguminous shrub diversely affect the diazotroph communities in an artificial forage grassland. Science of the Total Environment, 711.
16.Xiao, D., Tan, Y., Liu, X., Yang, R., Zhang, W., He, X. et al. (2020c). Responses of soil diazotrophs to legume species and density in a karst grassland, southwest China. Agriculture Ecosystems & Environment, 288.
17.Xiao, D., Xiao, L., Che, R., Tan, Y., Liu, X., Yang, R. et al. (2020d). Phosphorus but not nitrogen addition significantly changes diazotroph diversity and community composition in typical karst grassland soil. Agriculture Ecosystems & Environment, 301.
18.Xiao, D., Xiao, S., Ye, Y., Zhang, W., He, X. & Wang, K. (2019c). Microbial biomass, metabolic functional diversity, and activity are affected differently by tillage disturbance and maize planting in a typical karst calcareous soil. Journal of Soils and Sediments, 19, 809-821.
19.Xiao, D., Ye, Y., Xiao, S., Zhang, W., He, X. & Wang, K. (2019e). Effects of tillage on CO2 fluxes in a typical karst calcareous soil. Geoderma, 337, 191-201.
20.Zheng, S., Xia, Y., Hu, Y., Chen, X., Rui, Y., Gunina, A. et al. (2021). Stoichiometry of carbon, nitrogen, and phosphorus in soil: Effects of agricultural land use and climate at a continental scale. Soil & Tillage Research, 209.