许洺山-黑料社

[1] Guangzhi Zhang, Shanshan Wang, Xuingshan Xu(通讯), et al. Saltmarsh reclamation enhances plant species richness and reduces soil macrofaunal biomass by regulating soil properties through elevation. Frontiers in Ecology and Evolution, 2025, 13:1633852. (IF=3.1)

[2] Mingshan Xu, Jiali Gu, Peng Yun, et al. Spatiotemporal dynamics and influencing factors of native and invasive saltmarshes in a rapidly silting bay during 1985–2023. Frontiers in Marine Science, 2025, 11:1459935. (IF=3.8)

[3] Xu MS, Yang X, Shao J, et al. Biogeographic effects shape soil bacterial communities across intertidal zones on island beaches through regulating soil properties. Science of The Total Environment, 2024, 930, 172785. (IF=9.8)

[4] Xu MS, Yang X, Han Y, et al. Variations in macrofaunal communities along sand physico-chemical gradient across the intertidal zones on island beaches. Ecological Indicators, 2024, 161: 111957. (IF=6.9)

[5] Xu MS, Yang AN, Yang XD, et al. Island area and remoteness shape plant and soil bacterial diversity directly and indirectly through land use and biological invasion. Functional Ecology, 2023, 37(5), 1232-1244. (IF=5.2)

[6] Xu MS, Zheng LT, He D, et al. Microenvironment filtering and plant competition jointly structure trait distributions across co-occurring individuals. Ecological Indicators, 2021, 129: 107893. (IF=6.9)

[7] Saiqiang Li, Weiqiang Li, Minfen Yu, Daosheng Chen, Mingshan Xu, Min Ren, Xiaodong Yang. Urban three-dimension green quantity Estimation: An approach utilizing UAV, satellite imagery, and machine learning. Remote Sensing Applications: Society and Environment, 2025, 39: 101691.

[8] Saiqiang Li, Qinqin Pan, Xiaodong Yang, Yongchao Gao, Mingshan Xu. Differential influences of island biogeographic effects on the diversity among three plant life-forms. Global Ecology and Conservation, 2025, 58, e03499.

[9] Weiqiang Li, Min Ren, Haibo Zhang, Yue Duan, Daosheng Chen, Saiqiang Li, Mingshan Xu, Lihua Wang, Xiaodong Yang. Aquaculture, 2025, //doi.org/10.1016/j.aquaculture.2025.743002.

[10] Li Bo-Rui Li, Sun Nan, Xu Ming-Shan, et al. Difference in summer heatwave-induced damage between desert native and urban greening plants in an arid desert region. PLOS ONE. 2024.

[11] Hong-Li Li, Arshad Ali, Xu Luo, Ke Liao, Nan Sun, Ming-Shan Xu, Long-Bin Sha, Dong He, Yan-Jun Du, Wei-Wei Sun, Xiao-Dong Yang. China's subtropical deciduous plants are more sensitive to climate change than evergreen plants by flowering phenology. Global Change Biology, 2024, https: //doi.org/10.1111/gcb.17168.

[12] Yang BY, Ali Arshad, Xu MS, et al. Large plants enhance aboveground biomass in arid natural forest and plantation along differential abiotic and biotic conditions. Frontiers in Plant Science, 2022, 13: 999793.

[13] He D, Biswas SR, Xu MS, et al. The importance of intraspecific trait variability in promoting functional niche dimensionality. Ecography, 2021, 44: 380-390.

[14] Yang XD, Wang J, Xu MS, et al. Effects of the ephemeral stream on plant species diversity and distribution in an alluvial fan of arid desert region: An application of a low altitude UAV. PLoS ONE, 2019, 14(2): e0212057.

[15] Ali A, Xu MS, Zhao YT, et al. Allometric biomass equations for shrub and small tree species in subtropical China. Silva Fennica, 2015, 49(4): 1-10.

[16] Zheng LT, Chen HYH, Hautier Y, Bao DF, Xu MS, Yang BY, Yan ER. Functionally diverse tree stands reduce herbaceous diversity and productivity via canopy packing. Functional Ecology, 2022, 36(4): 950-961.

[17] Ci H, Guo C, Tuo B, Zheng LT, Xu MS, Sai BL, Cornelissen JH. Tree species with conservative foliar nutrient status and strong phosphorus homeostasis are regionally abundant in subtropical forests. Journal of Ecology, 2022, 110(7): 1497-1507.

[18] Biswas Shekhar, Dong He, Li Jialin, Gong Li, Biswas Prity, Zhuo Ziqing, Xu Ming-Shan, Yan ER. Putting space into trait ecology: trait, environment and biodiversity relationships at multiple spatial scales. Journal of Ecology, 2024, 00:1-16.

[19] Shen GC, Yan ER, Bar-Massada A, Zhang J, Liu HM, Wang XH, Xu MS. Species with moderate intraspecific trait variability are locally abundant within an environmentally heterogeneous subtropical forest. Oecologia, 2019, 190(3), 629-637.

[20] Biswas SR, Biswas PL, Limon SH, Yan ER, Xu MS, Khan MSI. Plant invasion in mangrove forests worldwide. Forest Ecology and Management, 2018, 429, 480-492.

[21] Ali A, Yan ER, Chen HYH, Chang SX, Zhao YT, Yang XD, Xu MS. Stand structural diversity rather than species diversity enhances aboveground carbon storage in secondary subtropical forests in Eastern China. Biogeosciences, 2016, 4627-4635.

[22] Fu Y, Lei Y, Zeng W, Hao R, Zhang G, Zhong Q, Xu MS. Uncertainty assessment in aboveground biomass estimation at the regional scale using a new method considering both sampling error and model error. Canadian Journal of Forest Research, 2017, 47(8), 1095-1103.

[23] 许洺山, 曾剑, 阎恩荣. 基于植物功能性状的海岛研究—以舟山群岛中街山列岛为例. 生态学报, 2025, 45(7):3316-3329.

[24] 张宇, 许洺山, 杨安娜, 等. 浙江舟山群岛食叶昆虫植食率的岛屿生物地理格局及驱动因素. 生态学报, 2025, 45(9):4332-4342.

[25] 许洺山, 李海涛, 刘旭, 等. 浙江舟山群岛单叶蔓荆群落的分布特征及影响因素[J]. 应用与环境生物学报, 2024, 31(4): 527-537.

[26] 许洺山, 黄君宝, 姚文伟, 等. 浙江舟山群岛沙滩植被的地理成分及典型植物群落特征[J]. 安徽农业大学学报, 2024. 10.13610/j.cnki.1672-352x.20250704.011

[27] 许洺山, 李玉芬, 郑忠, 等. 浙江洛迦山岛的植被类型及特有植物群落的物种和功能多样性[J]. 西北林学院学报, 2023, 38 (06): 74-80.

[28] 许洺山, 李亮, 王万胜, 等. 海岛大径级树木健康评价指标体系构建—以上海大金山岛为例[J]. 植物科学学报, 2023, 41 (05): 573-582.

[29] 金乐薇, 郭超, 许洺山, 等. 上海大金山岛植被主要组成种的种群年龄结构和存活特征[J]. 应用与环境生物学报, 2023, 29 (05): 1132-1141.

[30] 石娇星, 许洺山, 方晓晨, 等. 中国东部海岛黑松群落功能多样性的纬度变异及其影响因素[J]. 植物生态学报, 2021, 45 (02): 163-173.

[31] 许洺山, 朱晓彤, 王万胜, 等. 上海大金山岛植被分类与制图—基于网格化清查方法[J]. 广西植物, 2022, 42 (08): 1273-1283.

[32] 许洺山, 郑丽婷, 叶属峰, 刘翔宇, 阎恩荣. 中国东部10个海岛植被近自然度评价[J]. 生态学报, 2021, 41 (09): 3713-3723.

[33] 罗鼎晖, 李翔, 骆蓓菁, 许洺山, 妥彬, 阎恩荣, 由文辉. 大金山岛常绿阔叶林和落叶阔叶林中小型土壤动物群落特征[J]. 生态与农村环境学报, 2020, 36 (03): 349-357.

[34] 妥彬, 田文斌, 郭超, 许洺山, 郑丽婷, 苏田, 刘翔宇, 阎恩荣. 中国东部海岛森林和灌丛土壤碳氮磷养分库的纬度变化[J]. 应用生态学报, 2019, 30 (08): 2631-2638.

[35] 刘翔宇, 赵慈良, 许洺山, 等. 中国东部海岛维管植物的beta多样性及其驱动因素[J]. 生物多样性, 2019, 27 (04): 380-387.

[36] 刘春涛, 欧丹燕, 于再平, 赵慈良, 胡军飞, 刘海, 刘翔宇, 许洺山*. 浙江普陀山岛引种菩提树越冬防寒技术研究[J]. 浙江林业科技, 2018, 38 (06): 45-51.

[37] 许洺山, 赵慈良, 刘翔宇, 阎恩荣. 浙江普陀山岛植被区划方案[J]. 浙江农林大学学报, 2018, 35 (04): 657-663.

[38] 毛海军, 许洺山(通讯作者), 郑丽婷, 等. 普陀山植被景观美学价值[J]. 福建林业科技, 2018, 45 (02): 112-119.

[39] 刘翔宇, 何东, 田文斌, 宋彦君, 尹芳, 许洺山, 程浚洋, 阎恩荣. 浙江普陀山岛森林木本植物的种间关联格局[J]. 植物生态学报, 2017, 41 (12): 1219-1227.

[40] 胡军飞, 许洺山, 田文斌, 等. 浙江普陀山主要林型群落结构特征分析[J]. 浙江农林大学学报, 2016, 33 (05): 768-777.

[41] 赵慈良, 赵延涛, 田文斌, 欧丹燕, 周刘丽, 许洺山, 程浚洋, 朱丹妮, 宋彦君,阎恩荣. 浙江普陀山台湾蚊母树的种群结构与点格局[J]. 福建林业科技, 2016, 43 (03): 39-45.

[42] 田文斌, 周刘丽, 周伟平, 刘春涛, 欧丹燕, 赵延涛, 许洺山, 程浚洋, 朱丹妮,宋彦君, 阎恩荣. 浙江普陀山古树群落木本植物种间关系[J]. 福建林业科技, 2016, 43 (02): 36-40.

[43] 许洺山, 史青茹, 杨晓东, 周刘丽, 阎恩荣. 基于近自然理念的风景林构建与实践—以东钱湖旅游度假区为例[J]. 福建林业科技, 2016, 43 (01): 215-220+229.

[44] 赵延涛, 许洺山, 张志浩, 等. 浙江天童常绿阔叶林不同演替阶段木本植物的水力结构特征[J]. 植物生态学报, 2016, 40 (02): 116-126.

[45] 张晴晴, 周刘丽, 赵延涛, 许洺山, 阎恩荣. 浙江天童常绿阔叶林演替系列植物叶片的凋落节律[J]. 生态学杂志, 2016, 35 (02): 290-299.

[46] 许洺山, 赵延涛, 杨晓东, 等. 浙江天童木本植物叶片性状空间变异的地统计学分析[J]. 植物生态学报, 2016, 40 (01): 48-59.

[47] 周刘丽, 张晴晴, 赵延涛, 许洺山, 程浚洋, 朱丹妮, 宋彦君, 黄海侠, 史青茹,阎恩荣. 浙江天童枫香树群落不同垂直层次物种间的联结性与相关性[J]. 植物生态学报, 2015, 39 (12): 1136-1145.

[48] 许洺山, 黄海侠, 史青茹, 等. 浙东常绿阔叶林植物功能性状对土壤含水量变化的响应[J]. 植物生态学报, 2015, 39 (09): 857-866.

[49] 史青茹, 许洺山, 赵延涛, 等. 浙江天童木本植物Corner法则的检验:微地形的影响[J]. 植物生态学报, 2014, 38 (07): 665-674.

[50] 章建红, 史青茹, 许洺山, 等. 浙江天童木本植物Corner法则的检验:个体密度的影响[J]. 植物生态学报, 2014, 38 (07): 655-664.

[51] 王鹏龙, 张建明, 张春梅, 许洺山, 王磊. 腾格里沙漠典型植物含水率与地物光谱的关系分析[J]. 中国沙漠, 2013, 33 (03): 737-742.

[52] 来婷婷, 王乃昂, 黄银洲, 张建明, 赵力强, 许洺山. 2002年腾格里沙漠湖泊季节变化研究[J]. 湖泊科学, 2012, 24 (06): 957-964.