论文著作

Diversified land conversion deepens understanding of impacts of rapid rubber plantation expansion on plant diversity in the tropics：这篇论文探讨了橡胶种植园扩张对热带地区植物多样性的影响，发表在《Science of the Total Environment》期刊上1。

Diversity and assembly of root-associated microbiomes of rubber trees：研究了橡胶树根际微生物群落的多样性和组装机制，发表在《Frontiers in Plant Science》期刊上1。

Soil quality variation and its driving factors within tropical forests on Hainan Island, China：这篇论文分析了海南岛热带森林土壤质量的变化及其驱动因素，发表在《Land Degradation & Development》期刊上1。

Space Rather than Seasonal Changes Explained More of the Spatiotemporal Variation of Tropical Soil Microbial Communities：研究了热带土壤微生物群落的时空变化，发表在《Microbiology Spectrum》期刊上1。

Network complexity of rubber plantations is lower than tropical forests for soil bacteria but not for fungi：比较了橡胶种植园和热带森林土壤细菌和真菌的网络复杂性，发表在《SOIL》期刊上1。

Forest conversion changed the structure and functional process of tropical forest soil microbiome：探讨了森林转换对热带森林土壤微生物群落结构和功能过程的影响，发表在《Land Degradation & Development》期刊上2。

Tropical rainforest conversion into rubber plantations results in changes in soil fungal composition, but underlying mechanisms of community assembly remain unchanged：研究了热带雨林转变为橡胶种植园后土壤真菌组成的变化，发表在《Geoderma》期刊上2。

The drivers of soil bacterial communities in rubber plantation at local and geographic scales：分析了橡胶种植园土壤细菌群落的驱动因素，发表在《Archives of Agronomy and Soil Science》期刊上2。

Comparison of Soil Microbial Composition and Diversity Between Mixed and Monoculture Rubber Plantations in Hainan Province, China：比较了海南混合和单一栽培橡胶种植园的土壤微生物组成和多样性，发表在《Tropical Conservation Science》期刊上2。

Seasonal changes impact soil bacterial communities in a rubber plantation on Hainan Island, China：研究了海南岛橡胶种植园土壤细菌群落的季节变化，发表在《Science of the Total Environment》期刊上2。