【2024】
[1] Li, Y.#, Mo, Y.-X.#, Cui, H.- L., Zhang, Y.-J., Dossa, G. G. O., Tan, Z.-H.*, Song, L.*. 2024. Intraspecific plasticity and co-variation of leaf traits facilitate Ficus tinctoria to acclimate hemiepiphytic and terrestrial habitats, Tree Physiology, 44(2), tpae007.
[2] Du, Y.-Y., Wen, R.-H. Jia, Q.-Y. Liu, L.-L. Hu, Y.-H. Li, J.-Y. Pan, J., Yuan, X., Peng, J. Zakari, S., Panthee, S., Song, L. Liu, W.-J., Yang, B. 2024. Ocean air masses from the East Asian monsoon dominate the land-surface atmospheric water cycles in the coastal areas of Liaodong Bay, Northeast China. Hydrological Processes 38(1): e15070.
[3] Haq, S. M., Waheed, M., Darwish, M., Siddiqui, M. H., Goursi, U. H., Kumar, M., Song, L., Bussmann, R. W. 2024. Biodiversity and carbon stocks of the understory vegetation as indicators for forest health in the Zabarwan Mountain Range, Indian Western Himalaya. Ecological Indicators 159:111685.
[4] 李嘉媛, 刘露露, 杨斌, 罗艳, 白林忠, 卢华正, 宋亮*. 2024. 西双版纳热带季节雨林土壤含水量的时空格局及其与降水的关联. 生态学杂志: 1-13.
【2023】
[1] Yang, B. Dossa, G. G. O., Hu, Y.-H., Liu, L.-L., Meng, X.-J., Du, Y.Y., Li, J.Y., Zhu, X.A., Zhang, Y.-J., Singh, A.K., Yuan, X., Wu, J.-E., Zakari, S., Liu*, W.-J., Song, L.*. 2023. Uncorrected soil water isotopes through cryogenic vacuum distillation may lead to a false estimation on plant water sources. Methods in Ecology and Evolution. 14(6): 1443-1456.
[2] Shi, X.-M., Qi, J.-H., Liu, A.-X., Zakari, S., Song, L.*. 2023. Leaf phenotypic plasticity coupled with integration facilitates the adaptation of plants to enhanced N deposition. Environmental Pollution, 327: 121570. Liu, Q., X. Wu, H. Xing, K. Chi, W. Wang, L. Song, and X. Xing. 2023. Orchid diversity and distribution pattern in karst forests in eastern Yunnan Province, China. Forest Ecosystems:100117.
[3] Liu, W.-G., Zhang, J.-Q., Yan, Y., Beckschafer, P., Kleinn, C., Dossa, G. G. O., Huai, J.-J., Zhai, D.-L., Song, L.*. 2023. Encouraging the reconversion of rubber plantations by developing a combined payment system. Global Ecology and Conservation, 43: e02415.
[4] Su, T.-H., Zhou, C.-Y., Sun, W., Hu, T., Li, Z.-F., Pu, X.-Y., Lu, Z.-Y., Li S. *. 2023. Greater differentiation in nitrogen sources is essential for co-occurring epiphytes under low-nitrogen canopy conditions. Environmental and Experimental Botany, 125: 105509.
[5] Ai, Y.-Y.#, Liu, Q.#, Hu, H.-X., Shen, T., Mo, Y.-X., Wu, X.-F., Li, J.-L., Dossa, G. G. O., Song, L.*. 2023. Terrestrial and epiphytic orchids exhibit different diversity and distribution patterns along an elevation gradient of Mt. Victoria, Myanmar. Global Ecology and Conservation, 42: e02408.
[6] Hu T., Liu W.Y.*, Wen H.D., Song L., Zhang T.T., Chen Q., Liu S. 2023.Vascular epiphyte populations with higher leaf nutrient concentrations showed weaker resilience to an extreme drought in a montane cloud forest. Plant Biology, 25(1): 215-225.
[7] Dai, Q., Mo, Y.-X., Chen, Q., Song, L.*, Zhang, L.-M., Dossa, G. G. O., Lu, H.-Z.*. 2023. Clonal fragmentation drives performance deterioration of epiphytic and lithophytic ferns in a karst forest. Flora, 302: 152258.
[8] Shen, T., L. Song, R. T. Corlett, A. Guisan, J. Wang, W.-Z. Ma, L. Mouton, A. Vanderpoorten, and F. Collart. 2023. Disentangling the roles of chance, abiotic factors and biotic interactions among epiphytic bryophyte communities in a tropical rainforest (Yunnan, China). Plant Biology 25:880-891.
[9] 宋亮, 吴毅, 胡海霞, 刘文耀, 中村彰宏, 陈亚军, 马克平. 2023. 基于塔吊的林冠科学研究进展及展望. 生物多样性: 23363-23360.
【2022】
[1] Fan, X.-Y., Yuan, G.-D., Liu, W.-Y.*. 2022. Response strategies of N-fixation by epiphytic bryophytes to water change in a subtropical montane cloud forest. Ecological Indicators, 135(7): 108527.
[2] Song, L.#, Yang, B.#*, Liu, L.-L., Mo, Y.-X., Liu, W.-J., Meng, X.-J., Lu, H.-Z., Li, Y., Zakari, S., Tan, Z.-H., Fan, Z.-X., Zhang, Y.-J. 2022. Spatial-temporal differentiations in water use of coexisting trees from a subtropical evergreen broadleaved forest in Southwest China. Agricultural and Forest Meteorology, 316:108862.
[3] Shi, X.-M.#, Liu, S.#, Song, L.*, Wu, C.-S., Yang, B., Lu, H.-Z., Wang, X., Zakari, S. 2022. Contamination and source-specific risk analysis of soil heavy metals in a typical coal industrial city, central China. Science of The Total Environment, 836:155694.
[4] Zhao, G.-J., Chen, F.-J., Yuan, C., Yang, J.-Y., Shen, Y.-X.*, Zhang, S.-Y., Yang, J.-B., Ayemele, A. G.,Li, X., Xu* J.-C. 2022. Response strategies of woody seedlings to shading and watering over time after topsoil translocation in dry-hot karst region of China. Forest Ecology and Management, 519:120319.
[5] Shen, T.*, Richard, T. C., Collart, F., Kasprzyk, T., Guo, X.-L., Pati?o, J., Su, Y., Hardy, O.J., Ma, W.-Z, Wang, J., Wei, Y.-M., Mouton, L., Li, Y., Song, L.*, Vanderpoorten. 2022. Microclimatic variation in tropical canopies: a glimpse into the processes of community assembly in epiphytic bryophyte communities. Journal of Ecology, 110 (12): 3023-3028.
[6] Hu, H.-X., Mo,Y.-X., Shen,T., Wu,Y., Shi, X.-M., Ai,Y.-Y., Lu, H.-Z., Zakari, S., Li, S.*, Song, L.*.2022.Simulated high-intensity phorophyte removal mitigates the robustness of epiphyte community and destroys commensal network structure. Forest Ecology and Management, 526:120586.
[7] Shen, T., Song, L.*, Collart, F., Guisan, A., Su, Y., Hu, H.-X., Wu,Y., Dong, J.-L., Vanderpoorten, A.*.2022.What makes a good phorophyte? Predicting occupancy, species richness and abundance of vascular epiphytes in a lowland seasonal tropical forest. Frontiers in Forests and Global Change, 5: 1007473.
[8] Mo Y.-X., Corlett R. T., Wang G., Song L., Lu H.-Z, Wu Y., Hao G.-Y., Ma R.-Y., Men S.-Z., Li Y., Liu W.-Y. 2022. Hemiepiphytic figs kill their host trees: acquiring phosphorus is a driving factor. New Phytologist, 236(2): 714-728.
[9] Chen, F.- J., Zhao, G.-J., Shen, Y.-X.*, Li, Z.-J., Tan, B.-L., Zhu, H., Wang, Q.-H., Fu, X. 2022. Shading gradients drive differential responses of leaf traits in an early community germinated by forest topsoil. Diversity, 14(8): 600.
[10] Shen, Y.-X. *, Wang, Q.-H., Zhao, Z.-M., Yuan, C. 2022. Fine-scale effect of karst rock outcrops on adjacent soil and plant communities in Southwest. China Catena, 219: 106592.
[11] 王倩, 莫雨轩, 刘文耀. 2022. 半附生榕树斜叶榕不同生长阶段基质的生态化学计量特征与养分动态. 植物科学学报, 40(5): 637-645
[12] 张婷婷, 刘文耀, 胡涛. 2022. 哀牢山常绿阔叶林常见兼性附生植物的化学计量特征. 生态学报, 42(15): 6265-6273.
[13] 朱虹, 沈有信*, 陈发军, 付珣, 王文. 2022. 昭通南方草山退化及人工改造对土壤种子库的影响. 草地学报, 30 (6): 1359-1369.
[14] 李元, 宋亮, 莫雨轩, 谭正洪. 2022. 西双版纳热带季节雨林光合有效辐射的垂直分布格局和季节动态. 生态学杂志, 41(09): 1683-1690.
[15] 张婷婷, 刘文耀*, 胡涛. 哀牢山常绿阔叶林兼性附生植物长叶粗筒苣苔的化学计量特征. 生态学报, 2022, 42(15): 6265-6273.
【2021】
[1] Zhang, T.T., Liu, W.Y.*, Hu, T., Tang, D. D., Mo, X. X., Wu, Y. 2021. Divergent Adaptation Strategies of Vascular Facultative Epiphytes to Bark and Soil Habitats: Insights from Stoichiometry. Forests, 12(1): 16.
[2] Yang, B., Meng, X.-J., Zhu, X.-A., Zakari, S., Singh, A. K., Bibi, F., Mei, N., Song, L.*, Liu, W.-J.*. 2021. Coffee performs better than amomum as a candidate in the rubber agroforestry system: Insights from water relations. Agricultural Water Management, 244:106593.
[3] Liu, L.L.#, Yang, B.#, Lu, H.Z., Wu, Y., Meng, X.J., Zhang, Y.J., Song, L.*.2021. Dry-season fog water utilization by epiphytes in a subtropical montane cloud forest of Southwest China. Water, 13(22): 3237.
[4] Hu, H.X.#, Shen, T.#, Quan, D.L.#, Nakamura, A., Song, L.*.2021. Structuring interaction networks between epiphytic bryophytes and their hosts in Yunnan, SW China. Frontiers in Forests and Global Change, 4: 716278.
[5] Pu, X.Y., Li, S.*, Hu, T., Wu, Y., Lu, Z.Y., Yang, J.B., 2021. Fast restore of the structure and composition of hemiepiphytes after a heavy-snowfall event in a subtropical forest. Acta Oecologica 113, 103770.
[6] 王庆贺, 赵志猛, 沈有信. 2021.云南石林喀斯特露石径流输出及其影响因素探究[J]. 地球学报, 42(03): 383-390.
[7] 谭琲琳, 沈有信, 赵高卷, 李振江, 陈发军, 朱虹, 肖桂英. 2021.森林表土替代物对云南喀斯特石漠化地区的植被恢复作用[J]. 西部林业科学,50(3);99-108.
[8] 董琳琳, 普晓妍, 张璐璐*, 宋亮, 鲁志云, 李苏*, 2021. 亚热带森林附生地衣压力-体积曲线分析及其适用性. 植物生态学报 45, 274-285.
[9] 普晓妍, 王鹏程, 李苏*, 鲁志云, 宋钰, 2021. 亚热带森林附生植物叶片气孔特征及其可塑性对光照变化的响应. 广西植物 41( 9), 1465-1475.
[10] 全东丽, 杨斌, 马文章*, 宋亮*, 沈婷. 2021. 西双版纳苔藓植物多样性及其濒危状况. 生物多样性. 29:545-553.
[11] 全东丽, 宋亮*, 沈婷, 吴毅, 李苏, 卢华正. 2021. 西双版纳热带雨林和热带山地常绿阔叶林附生苔藓的组成与多样性格局. 广西植物, 41: 404-417.
【2020】
[1] Hua-Zheng Lu, Rob Brooker, Liang Song, Wen-Yao Liu*, Lawren Sack, Jiao-Lin Zhang, Fei-Hai Yu*. 2020. When facilitation meets clonal integration in forest canopies. New Phytologist, 225: 135-142.
[2] Gao-Juan Zhao, You-Xin Shen*, Wen-Yao Liu, Bei-Lin Tan, Zhen-Jiang Li, Qing-He Wang. 2020. Quantifying the effect of shading and watering on seed germination in translocated forest topsoil at a subtropical karst of China. Forest Ecology and Management, 459: 117811.
[3] Yi Wu, Wen-Yao Liu*, Hua-Zheng Lu, Su Li, You-Xin Shen, Wei-Guo Liu, Liang Song*. 2020. Stoichiometric and isotopic flexibility: facultative epiphytes exploit rock and bark interchangeably. Environmental and Experimental Botany, 179: 104208.
[4] Xiao-Yang Fan, Wen-Yao Liu*, Liang Song, Shuai Liu, Xian-Meng Shi, Guo-Di Yuan. 2020. A combination of morphological and photosynthetic functional traits maintains the vertical distribution of bryophytes in a subtropical cloud forest. American Journal of Botany, 107: 761-772.
[5] Zhi-Meng Zhao, You-Xin Shen*, Qing-He Wang, Ruo-Han Jiang. 2020. The temporal stability of soil moisture spatial pattern and its influencing factors in rocky environments. Catena, 187: 104418.
[6] Zhi-Meng Zhao, You-Xin Shen*, Ruo-Han Jiang, Qing-He Wang. 2020. Rock outcrops change infiltrability and water flow behavior in a karst soil. Vadose Zone Journal, 19: e20002.
[7] You-Xin Shen*, Yang Yu, Manuel Esteban Lucas-Borja, Fa-Jun Chen, Qiao-Qiao Chen, Ying-Yin Tang. 2020. Change of soil K, N and P following forest restoration in rock outcrop rich karst area. Catena, 186: 104395.
[8] Gao-Juan Zhao, You-Xin Shen*, Wen-Yao Liu*, Zhen-Jiang Li, Bei-Lin Tan, Zhi-Meng Zhao, Juan Liu. 2020. Effects of shading and herb/liana eradication on the assembly and growth of woody species during soil translocation in Southwest China. Ecological Engineering, 144: 105704.
[9] Mian-hai Zheng,Zheng-hu Zhou,Ping Zhao,Yi-qi Luo,Qing Ye,Ke-rong Zhang,Liang Song,Jiang-ming Mo*. 2020. Effects of human disturbance activities and environmental change factors on terrestrial nitrogen fixation. Glob Change Biol,00:1-15.
[10] Bin Yang, Xian-jing Meng, Ashutosh Kumar Singh, Ping-yuan Wang, Liang Song, Sissou Zakari, Wen-jie Liu*. 2020.Intercrops improve surface water availability in rubber-based agroforestry systems. Agriculture. Ecosystems and Environment, 298:106937.
[11] Bin Yang, Wan-jun Zhang, Xian-jing Meng, Ashutosh Kumar Singh, Sissou Zakari,Liang Song, Wen-jie Liu*. 2020. Effects of a funnel-shaped canopy on rainfall redistribution and plant water acquisition in a banana (Musa spp.) plantation. Soil & Tillage Research, 203:104686.
[12] Yi-lin Cao, Ren Li*, Shi-shun Zhou, Liang Song, Rui-chang Quan, Hua-bin Hu*. 2020.Ethnobotanical study on wild edible plants used by three trans-boundary ethnic groups in Jiangcheng County, Pu’er, Southwest China. Journal of Ethnobiology and Ethnomedicine ,16: 66.
[13] 刘露露, 宋亮*, 董李勤*, 卢华正, 杨斌. 2020.云南省近50年降水量的时空格局与成因分析. 生态学杂志, 39(10) : 3463-3470.
【2019】
[1] Quan Chen, Hua-Zheng Lu, Wen-Yao Liu*, Yi-Wu, Liang-Song, Su Li. 2019. Obligate to facultative shift of two epiphytic Lepisorus species during subtropical forest degradation: Insights from functional traits. Forest Ecology and Management, 435: 66-76.
[2] Juan Liu, You-Xin Shen*, Xi-Ai Zhu, Gao-Juan Zhao, Zhi-Meng Zhao, Zhen-Jiang Li. 2019. Spatial distribution patterns of rock fragments and their underlying mechanism of migration on steep hillslopes in a karst region of Yunnan Province, China. Environmental Science and Pollution Research International, 26: 24840–24849.
[3] You-Xin Shen*, Dian-Jie Wang, Qiao-Qiao Chen, Ying-Yin Tang, Fa-Jun Chen. 2019. Large heterogeneity of water and nutrient supply derived from runoff of nearby rock outcrops in karst ecosystems in SW China. Catena, 172: 125-131.
[4] Shuai Liu, Su Li*, Xiao-Yang Fan, Guo-Di Yuan, Tao Hu, Xian-Meng Shi, Jun-Biao Huang, Xiao-Yan Pu, Chuan-Sheng Wu. 2019. Comparison of two noninvasive methods for measuring the pigment content in foliose macrolichens. Photosynthesis Research, 141: 245-257.
[5] Su Li*, Wen-Yao Liu*, Xian-Meng Shi, Shuai Liu, Tao Hu, Liang Song, Hua-Zheng Lu, Xi Chen, Chuan-Sheng Wu. 2019. Non-dominant trees significantly enhance species richness of epiphytic lichens in subtropical forests of southwest China. Fungal Ecology, 37: 10-18.
[6] Zheng-Hong Tan*, Jun-Fu Zhao, Guan-Ze Wang, Meng-Ping Chen, Lian-Yan Yang, Chun-Sheng He, Natalia Restrepo-Coupe, Shu-Shi Peng, Xue-Yan Liu, Humberto R.da Rocha, Yoshiko Kosugi, Takashi Hirano, Scott R.Saleska, Michael L.Goulden, Jiye Zeng, Fang-Jun Ding, Fu Gao, Liang Song*. 2019. Surface conductance for evapotranspiration of tropical forests: Calculations,variations, and controls. Agricultural and Forest Meteorology, 275: 317-328.
[7] Li-Min Zhang, Hua-Zheng Lu, Peter Alpert, Liang Song, Wen-Yao Liu, Fei-Hai Yu*. 2019. Higher benefits of clonal integration in rhizome-derived than in frond-derived ramets of the tropical fern Bolbitis heteroclite. Flora, 257: 151415.
[8] Quan Chen, Jing-Qi Sun, Liang Song, Wen-Yao Liu*, Fei-Hai Yu, Su Li, He-De Gong, Hua-Zheng Lu*. 2019. Trait acclimation of the clonal fern Selliguea griffithiana to forest epiphytic and terrestrial habitats. Ecological Research, 34: 406-414.
[9]Jun-Biao Huang, Wen-Yao Liu*, Su Li, Liang Song, Hua-Zheng Lu, Xian-Meng Shi, Xi Chen, Tao Hu, Shuai Liu, Tao Liu.2019. Ecological Stoichiometry of the Epiphyte Community in a Subtropical Forest Canopy. Ecology and Evolution, 9(24):14394-14406.
[10] 范晓阳, 刘文耀*, 宋亮, 陈泉, 袁国迪. 2019. 哀牢山湿性常绿阔叶林地生、树干及树枝附生苔藓生活型组成及其水分特性. 广西植物, 39: 668-680.
[11] 张婷婷, 刘文耀*, 黄俊彪, 胡涛, 汤丹丹, 陈泉. 2019. 植物生态化学计量内稳性特征. 广西植物, 39: 701-712.
[12] 汤丹丹, 吴毅, 刘文耀*, 胡涛, 黄俊彪, 张婷婷. 2019. 云南哀牢山两种常见半寄生植物的生态化学计量特征及其与寄主的关系. 植物生态学报, 43: 245-257.
[13] 沈婷, 宋亮*, 郭新磊, Corlett Richard T, 吴毅, 马占霞, 陈泉. 2019. 龙脑香热带雨林附生苔藓沿宿主垂直梯度的微生境偏好及其指示作用. 广西植物, 39: 776-787.
[14] 孙晶琦, 陈泉, 李航宇, 常艳芬, 巩合德, 宋亮, 卢华正*. 2019. 附生蕨类植物的克隆性研究进展. 生物多样性, 27: 1184–1195.
【2018】
[1] Shuai Liu, Wen-Yao Liu*, Xian-Meng Shi, Su Li, Tao Hu, Liang Song, Chuan-Sheng Wu. 2018. Dry-hot stress significantly reduced the nitrogenase activity of epiphytic cyanolichen. Science of the Total Environment, 619-620: 630-637.
[2] Ting Shen, Corlett Richard*, Liang Song*, Wen-Zhang Ma, Xin-Lei Guo, Yu Song, Yi Wu. 2018. Vertical gradient in bryophyte diversity and species composition in tropical and subtropical forests in Yunnan, SW China. Journal of Vegetation Science, 29: 1075-1087.
[3] Yi Wu, Liang Song, Wen-Yao Liu*, Wen-Jie Liu, Su Li, Pei-Li Fu, You-Xin Shen, Jun-En Wu, Ping-Yuan Wang, Quan Chen, Hua-Zheng Lu. 2018. Fog water is important in maintaining the water budgets of vascular epiphytes in an Asian tropical karst forests during the dry season. Forests, 9: 260.
[4] Zhi-Meng Zhao, You-Xin Shen*, Zhi-Jie Shan, Yang Yu, Gao Juan Zhao. 2018. Infiltration patterns and ecological function of outcrop runoff in epikarst Southern China. Vadose Zone Journal, 11: 0197.
[5] 柳帅, 李苏*, 刘文耀. 2018. 亚热带山地森林附生地衣的移植生长及其对环境变化的响应. 菌物学报, 37: 931-939.
[6] 袁国迪, 刘文耀, 石贤萌, 范晓阳. 2018. 哀牢山湿性常绿阔叶林树干4种附生苔藓植物的水分变化对光合、荧光参数的影响. 植物科学学报, 36: 603-611.
[7] 李苏*, 柳帅, 刘文耀, 石贤萌, 宋亮, 武传胜. 2018. 亚热带常绿阔叶林附生地衣凋落物的物种多样性和生物量的边缘效应. 菌物学报, 37: 919-930.
【2017】
[1] Xian-Meng Shi, Liang Song*, Wen-Yao Liu, Hua-Zheng Lu, Jin-Hua Qi, Su Li, Xi Chen, Jia-Fu Wu, Shuai Liu, Chuan-Sheng Wu. 2017. Epiphytic bryophytes as bio-indicators of atmospheric nitrogen deposition in a subtropical montane cloud forest: Response patterns, mechanism, and critical load. Environmental Pollution, 229: 932-941.
[2] Xi-Ai Zhu, You-Xin Shen*, Bei-Bei He, Zhi-Meng Zhao. 2017. Humus soil as a critical driver of flora conversion on karst rock outcrops. Scientific Reports, 7: 12611.
[3] Su Li*, Shuai Liu, Xian-Meng Shi, Wen-Yao Liu*, Liang Song, Hua-Zheng Lu, Xi Chen, Chuan-Sheng Wu. 2017. Forest type and tree characteristics determine the vertical distribution of epiphytic lichen biomass in subtropical forests. Forests, 8: 436.
[4] 刘涛, 刘文耀*, 柳帅, 宋亮, 胡涛, 黄俊彪. 2017. Pb2+、Zn2+胁迫对附生西南树平藓叶绿素含量和光合荧光特性的影响. 生态学杂志, 36: 1885-1893.
[5] 裴凤娟, 宋亮, 刘文耀*, 黄俊彪, 石贤萌, 姚元林, 陈克. 2017. 云南树干附生苔藓生物量沿纬度及海拔梯度的变化特征. 亚热带植物科学, 46: 30-37.
【2016】
[1] Xi Chen, Wen-Yao Liu*, Liang Song, Su Li, Chuan-Sheng Wu, Hua-Zheng Lu. 2016. Adaptation of epiphytic bryophytes in the understorey attributing the correlations and trade-offs between functional traits. Journal of Bryology, 38: 110-117.
[2] Liang Song#*, Hua-Zheng Lu#, Xing-Liang Xu, Su Li, Xian-Meng Shi, Xi Chen, Yi Wu, Jun-Biao Huang, Quan Chen, Shuai Liu, Chuan-Sheng Wu, Wen-Yao Liu*. 2016. Organic nitrogen uptake is a significant contributor to nitrogen economy of subtropical epiphytic bryophytes. Scientific Reports, 6: 30408.
[3] Hua-Zheng Lu#, Liang Song#, Wen-Yao Liu*, Xing-Liang Xu, Yue-Hua Hu, Xian-Meng Shi, Su Li, Wen-Zhang Ma, Yan-Fen Chang, Ze-Xin Fan, Shu-Gang Lu, Yi Wu, Fei-Hai Yu*. 2016. Survival depends on resource sharing: evidence from epiphytic ferns in a subtropical montane moist forest. Frontiers in Plant Science, 7: 416.
[4] Wen-Jun Zhou, Hua-Zheng Lu, Yi-Ping Zhang*, Li-Qing Sha*, Douglas Allen Schaefer, Qing-Hai Song, Yun Deng, Xiao-Bao Deng. 2016. Hydrologically transported dissolved organic carbon influences soil respiration in a tropical rainforest. Biogeosciences, 13: 5487-5497.
[5] Xi Chen, Wen-Yao Liu*, Liang Song, Su Li, Yi Wu, Xian-Meng Shi, Jun-Biao Huang, Chuan-Sheng Wu. 2016. Physiological Responses of Two Epiphytic Bryophytes to Nitrogen, Phosphorus and Sulfur Addition in a Subtropical Montane Cloud Forest. PloS ONE, 11: e0161492.
[6] Dian-Jie Wang, You-Xin Shen*, Yu-Hui Li, Jin Huang. 2016. Rock outcrops redistribute organic carbon and nutrients to nearby soil patches in three karst ecosystems in SW China. PLoS ONE, 11: e0160773.
[7] Wang Dian-Jie, You-Xin Shen*, Jin Huang, Yu-Hui Li. 2016. Rock outcrops redistribute water to nearby soil patches in karst landscapes. Environment Science and Pollution Research, 23: 8610-8616.
[8] Chuan-Sheng Wu, Nai-Shen Liang, Li-Qing Sha, Xing-Liang Xu, Yi-Ping Zhang*, Hua-Zheng Lu, Liang Song, Qing-Hai Song, You-Neng Xie. 2016. Heterotrophic respiration does not acclimate to continuous warming in a subtropical forest. Scientific Reports, 6: 21561.
[9] 胡涛, 李苏, 柳帅, 刘文耀*, 陈曦, 宋亮, 陈泉. 2016. 哀牢山山地森林不同附生地衣功能群的水分关系和光合生理特征. 植物生态学报, 40: 810-826.
[10] 吴毅, 刘文耀, 宋亮*, 陈曦, 卢华正, 李苏, 石贤萌. 2016. 基于林冠塔吊的附生植物生态学研究进展. 植物生态学报, 40: 508-522.
[11] 吴毅, 宋亮, 刘强, 赵明旭, 卢华正, 谭运洪, 刘文耀*. 2016. 西双版纳热带森林附生维管植物的物种多样性与区系特征. 生物多样性, 24: 271-279.
【2015】
[1] Su Li*, Wen-Yao Liu*, Da-Wen Li, Liang Song, Xian-Meng Shi, Hua-Zheng Lu. 2015. Species richness and vertical stratification of epiphytic lichens in subtropical primary and secondary forests in southwest China. Fungal Ecology, 17: 30-40.
[2] Liang Song*, Wen-Zhang Ma, Yuan-Lin Yao, Wen-Yao Liu*, Su Li, Ke Chen, Hua-Zheng Lu, Min Cao, Zhen-Hua Sun, Zheng-Hong Tan, Akihiro Nakamura. 2015. Bole bryophyte diversity and distribution patterns along three altitudinal gradients in Yunnan, China. Journal of Vegetation Science, 26: 576-587.
[3] Liang Song*, Yong-Jiang Zhang, Xi Chen, Su Li, Hua-Zheng Lu, Chuan-Sheng Wu, Zheng-Hong Tan, Wen-Yao Liu*, Xian-Meng Shi. 2015. Water relations and gas exchange of fan bryophytes and their adaptations to microhabitats in an Asian subtropical montane cloud forest. Journal of Plant Research, 128: 573-584.
[4] Hua-Zheng Lu, Wen-Yao Liu*, Fei-Hai Yu, Liang Song, Xing-Liang Xu, Chuan-Sheng Wu, Yu-Long Zheng, Yang-Ping Li, He-De Gong, Ke Chen, Su Li, Xi Chen, Jin-Hua Qi, Shu-Gang Lu*. 2015. Higher clonal integration in the facultative epiphytic fern Selliguea griffithiana growing in the forest canopy compared with the forest understorey. Annals of Botany, 116: 113-122.
[5] 李苏, 刘文耀*, 石贤萌, 柳帅, 胡涛, 黄俊彪, 陈曦, 宋亮, 武传胜. 2015. 亚热带森林系统4种附生蓝藻地衣的分布对生境变化的响应. 植物生态学报, 39: 217-228.
[6] 石贤萌#, 杞金华#, 宋亮*, 刘文耀, 黄俊彪, 李苏, 卢华正, 陈曦. 2015. 哀牢山中山湿性常绿阔叶林两种优势幼苗 C、N、P 化学计量特征及其对 N 沉降增加的响应. 植物生态学报, 39: 962-970.
[7] 陈曦, 刘文耀*, 宋亮, 武传胜, 李苏, 卢华正. 2015. 光合作用模型在山地森林附生树平藓光合特性研究中的适用性. 东北林业大学学报, 43:142-145.
出版专著:
[1]李苏. 2021. 云南新物种新纪录(1992-2020)(谭运洪主编)地衣部分. 云南省生态环境厅.
[2]宋亮. 2020.中老跨境联合科考. 人与生物圈“老挝科考”专辑, 123: 10-13.
[3] 沈有信(著). 2016. 石林喀斯特地带性植被及其自然演替动力. 昆明: 云南科技出版社. 34万字. 获2017年中国西部地区优秀科技图书三等奖(中国版协科技出版工作委员会)
[4] Liang Song, Wen-Yao Liu. 2013. Potential impacts of global changes on epiphytic bryophytes in subtropical montane moist evergreen broad-leaved forests, SW China. In, Lowman M, Devy S, Ganesh T (eds). Treetops at Risk? Challengens of Global Forest Canopies. Springer-Verlag, pp 155-167.
专利:
[1] 宋亮, 代倩, 李彦昌, 石贤萌, 莫雨轩, 邹璜, 袁浩, 胡海霞. 一种榕树融合扦插繁殖技术及其在热带森林生态修复中的应用. 申请号:202310721730X
[2] 宋亮, 邹璜, 卢华正, 莫雨轩. 一种基于“绞杀”现象的热带森林恢复方法. 申请号:202210518585.0
[3] 沈有信, 夏雪, 朱虹, 徐晓莹, 付珣. 2022. 一种土壤种子库样品处理用洗土装置.实用新型. ZL202221058220.6
[4] 赵志猛, 沈有信, 王电杰. 2018. 一种喀斯特露石的石面自然径流测定装置. 实用新型. ZL: 201820501186.2
[5] 赵高卷, 沈有信, 李振江, 赵志猛, 刘娟. 2020. 一种仿自然植物群落构建的石漠化生态修复方法. 发明. ZL: 201811328717.3
[6] 赵志猛, 沈有信, 王电杰. 一种喀斯特露石的石面自然径流测定装置及测定方法. 申请号: 201810317608.5
[7] 刘娟, 沈有信. 一种精准量测喀斯特地表裸露岩石占比的方法. 申请号: 201810319682.0
获奖:
(1) 2024年宋亮入选云南省中青年学术和技术带头人
(2) 2023年博士生胡海霞荣获中国科学院“朱李月华奖”
(3) 2023年硕士生艾妍雨荣获硕士生国家奖学金
(4) 2023年博士生莫雨轩荣获北京市“优秀毕业生”
(5) 2017年刘文耀获中国科学院“朱李月华优秀教师奖”
(6) 2017年李苏入选中国科学院青年创新促进会
(7) 2015年沈有信获云南省科技进步三等奖(第二完成人)
(8) 2015年李苏获云南省优秀博士学位论文
(9) 2014年宋亮入选中国科学院青年创新促进会
(10) 2013年李苏获中国科学院院长优秀奖、优秀毕业生、中国地衣学赖明洲青年奖
(11) 2012年李苏获博士生国家奖学金
(12) 2012年宋亮获中国科学院院长优秀奖
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