王金亮导师团队论文在SCIE期刊Sustainability上线发表

2023年10月3日，以朱泓（云南师范大学地理学部自然地理学专业2018级硕士研究生）为第一作者，王金亮教授为通讯作者所撰写的题为“Variation in the Ecological Carrying Capacity and its Driving Factors of the Five Lake Basins in Central Yunnan Plateau, China”的学术论文在SCIE三区期刊Sustainability上线发表(https://doi.org/10.3390/su151914442)。

生态承载力是区域可持续发展定量化评估的重要指标，可为区域协调发展提供参考。生态承载力的研究方法较多，但相关研究目前存在的问题包括：长时序动态监测较少；研究过程和结果以数理统计为主，空间像元尺度的研究较少；制图时空分辨率较低，缺乏对区域内部的空间分异、细节变化的详细表达等。为了解决这些问题，我们基于100m×100m像元尺度，利用22个评价指标对滇中五大湖泊流域（Five Lakes Basin of the Central Yunnan Plateau，FLBOCYP）2000、2005、2010、2015、2018年生态承载力进行了评价和监测，分析生态承载力的空间格局分异，并利用地理探测器分析生态承载力影响因素。本研究在精细尺度上将生态承载力空间可视化，可以更加清晰、直观地关注到区域生态承载力的空间分布和内部变化过程，为生态环境保护提供更有针对性、更有价值的参考。通过与相关研究对比进行侧面验证，研究结果与之具有一致性，表明本研究的结果具有真实可靠性。

Figure 1. Location of FLBOCYP.

Figure 2. Average ecological carrying capacities of five lake basins in Yunnan Province, China, from 2000 to 2018.

Figure 3. Categories of ecological carrying capacity within Yunnan Province, China, from 2000 to 2018.

Figure 4. Proportions of areas of five lake basins in Yunnan Province, China, falling within the different categories of ecological carrying capacity from 2000 to 2018.

Figure 5. The proportion of area falling under each category of ecological carrying capacity for each lake basin within Yunnan Province, China, for the years 2000, 2005, 2010, 2015, and 2018.

Figure 6. Spatial distribution of changes to ecological carrying capacity in five lake basins in Yunnan Province, China, from 2000 to 2018.

Figure 7. Aggregation states of local spatial autocorrelation in the ecological carrying capacity of five lake basins within Yunnan Province, China, from 2000 to 2018.

该论文得到了王金亮教授主持的国家重点研发计划政府间国际科技创新合作重点专项：用地理空间技术监测和评估土地利用/土地覆被变化对区域生态安全的影响（2018YFE0184300），国家自然科学基金“基于ULS和TLS云点数据的滇西北天然林生物量估算”（41961060），云南省高校高原山地资源环境遥感监测与评估科技创新团队（IRTSTYN）的资助。

这是朱泓同学硕士期间以第一作者发表的第1篇SCIE学术论文（详见录 1，2），也是王金亮教授导师团队 2023年发表的第5篇 SCI/SCIE 论文(详见录 3)，让我们恭喜朱泓同学！希望她再接再厉！也热烈祝贺团队取好成绩！

附录 1 论文相关信息

标题：Variation in the Ecological Carrying Capacity and its Driving Factors of the Five Lake Basins in Central Yunnan Plateau, China

作者：Hong Zhu ^1,2,3, Feng Cheng ^1,2,3, Jinliang Wang ^1,2,3,*, Yuanmei Jiao ^1,2,3, Jingchun Zhou ^1,2,3, Jinming Sha ⁴, Fang Liu ^1,2,3 and Lanping Nong ^1,2,3

通讯作者：Jinliang Wang

作者单位：

¹  Faculty of Geography, Yunnan Normal University, Kunming 650500 , China; ²  Key Laboratory of Resources and Environmental Remote Sensing for Universities in Yunnan, Kunming 650500, China

³  Center for Geospatial Information Engineering and Technology of Yunnan Province, Kunming 650500 , China

⁴  College of Geographic Sciences, Fujian Normal University, Fuzhou 350117, China;

出版物：Sustainability （2021年12月基础版三区，2022年12月最新升级版三区，2023年最新IF3.889）

摘要：The Five Lakes Basin of Central Yunnan Plateau (FLBOCYP) is located in the core area of Yunnan Province and has a developed economy, but the ecological and environmental problems in the basin are serious and the sustainable economic development is threatened. The analysis of ecological carrying capacity change and the study of influencing factors in the basin is conducive to protecting the ecology of the basin and maintaining the sustainable development of the social economy. Ecological carrying capacity is an important indicator for the quantitative assessment of regional sustainable development, and the assessment of regional ecological carrying capacity based on grid scale can more accurately and vividly reflect the regional sustainable status and provide reference for regional coordinated development. With the support of GIS technology, based on the unique ecosystem characteristics of the river basin itself, the research method of quantifying the ecological carrying capacity from the three perspectives of ecological function elasticity, resource and environmental capacity and socio-economic coordination was carried out, and a relatively complete comprehensive evaluation index system of ecological carrying capacity was constructed. The ecological carrying capacity of the five major lake basins of Qilu Lake and Yangzonghai from 2000 to 2018 was evaluated, and the temporal and spatial changes and driving mechanisms of ecological carrying capacity were analyzed. The results show that: (1) The FLBOCYP has an overall moderate ecological carrying capacity (average of ~0.5). The temporal trend in ecological carrying capacity was an initial rise followed by a fall, but there was an overall increasing trend at a rate of 0.019. (2) Areas with a strong ecological carrying capacity were mainly distributed in the mountainous and semi-mountainous regions outside of the lake area, whereas areas of weaker ecological carrying capacity were mainly distributed in the plain area around the lake. The ecological carrying capacity gradually increased from the area around the lake to the periphery. (3) At a basin scale, the ecological carrying capacities of the Dian, Fuxian, and Yangzong lake basins were relatively high, whereas those of the Xingyun and Qilu lake basins were relatively low. The greatest increase in ecological carrying capacity of Fuxian Lake has occurred since 2000. (4) The spatial pattern of ecological carrying capacity showed clear agglomeration. This agglomeration has been continuously enhanced but remained relatively stable over the past 19 years. The main agglomeration modes were identified as “high-high” (HH), “low-low” (LL), and “not obvious agglomeration”. (5) Among the many driving factors, ecological elasticity, biological abundance index, proportion of forest land, and degree of human disturbance showed the greatest explanatory power for spatial differentiation of ecological carrying capacity, and the interaction of any two factors affected the spatial analysis of ecological carrying capacity even more. In summary, the overall ecological environment of the FLBOCYP has experienced significant improvement since 2000, whereas that of the plain area has deteriorated more seriously in recent years.

关键字：ecological carrying capacity; ecological function elasticity; resource supply and

environmental capacity; socio-economic coordination; grid scale; plateau lake basin

附录2 朱泓同学发表论文清单

[2] Zhu, H.; Cheng, F.; Wang, J.; Jiao, Y.; Zhou, J.; Sha, J.; Liu, F.; Nong, L. Variation in the Ecological Carrying Capacity and Its Driving Factors of the Five Lake Basins in Central Yunnan Plateau, China. Sustainability 2023, 15, 14442. https://doi.org/10.3390/su151914442 （中科院SCI期刊分区：2021年12月基础版三区，2022年12月最新升级版三区，2023年最新IF3.889）

[1]朱泓,王金亮,程峰*邓欢,张恩伟,李应鑫.滇中湖泊流域生态环境质量监测与评价[J].应用生态学报, 2020, 31(04):1289-1297.

附录 3 王金亮教授团队 2023 年发表论文清单

自2023年01月01日至10月03日，王金亮教授团队发表学术论文9篇，其中SCIE论文5篇，CSCD3篇，普刊1篇。具体信息如下：

[9] Zhu, H.; Cheng, F.; Wang, J.; Jiao, Y.; Zhou, J.; Sha, J.; Liu, F.; Nong, L. Variation in the Ecological Carrying Capacity and Its Driving Factors of the Five Lake Basins in Central Yunnan Plateau, China. Sustainability 2023, 15, 14442. https://doi.org/10.3390/su151914442（中科院SCI期刊分区：2021年12月基础版三区，2022年12月最新升级版三区，2023年最新IF3.889）

[8] 邵大江,叶辉,王金亮*,周京春,角媛,沙晋明. 基于机器学习均值化的地质灾害易发性评价[J]. 云南大学学报（自然科学版）,2023,45(3):653-665. DOI:10.7540/j.ynu.20220109.

[7] Jie Li, Hui Wang, Jinliang Wang*, Jianpeng Zhang, Yongcui Lan, Yuncheng Deng. Combining Multi-Source Data and Feature Optimization for Plastic-Covered Greenhouse Extraction and Mapping Using the Google Earth Engine: A Case in Central Yunnan Province, China [J]. Remote Sensing, 2023, 15, 3287. DOI: https:// doi.org/10.3390/rs15133287. (中科院SCI期刊分区：2021年12月基础版二区，2022年12月最新升级版二区Top，2023年最新IF5.349)

[6]张建鹏;王金亮*;刘广杰;麻卫峰;刘钱威;邓云程. 基于地基雷达点云主方向的林下植被自动滤除[J], 遥感技术与应用, 2023，38（2）：405-412. DOI：10.11873/j.issn.1004-0323.2023.2.0405

[5]何苏玲，贺增红，潘继亚，王金亮*．基于多模型的县域土地利用/土地覆盖模拟[J/OL]．自然资源遥感. 2023-04-03网络首发. https://kns.cnki.net/kcms/detail/10.1759.P.20230331.1810.004.html

[4]成钊，王金亮*，何苏玲，祁兰兰. 基于多源数据的滇中地区生态韧性度研究[J].云南地理环境研究,2023,35(02)：7-16

[3] Jianpeng Zhang, Jinliang Wang*, Weifeng Ma, Yuncheng Deng, Jiya Pan, Jie Li. Vegetation Extraction from Airborne Laser Scanning Data of Urban Plots Based on Point Cloud Neighborhood Features [J]. Forests, 2023, 14(4), 691. DOI: https://doi.org/10.3390/f14040691. (中科院SCI期刊分区：2021年12月基础版三区， 2022年12月最新升级版二区，2022年IF 3.282)

[2] Jun Ma, Jianpeng Zhang, Jinliang Wang *, Vadim Khromykh, Jie Li, Xuzheng Zhong. Global Leaf Area Index Research over the Past 75 Years: A Comprehensive Review and Bibliometric Analysis [J]. Sustainability, 2023. DOI: https://doi.org/10.3390/su15043072. (中科院SCI期刊分区：2021年12月基础版三区，2022年12月最新升级版三区，2022年IF 3.889)

[1] Lei Liang, Jinliang Wang*, Fei Deng, Deyang Kong.Mapping Pu'er tea plantations from GF-1 images using Object-Oriented Image Analysis (OOIA) and Support Vector Machine (SVM)[J]. PLOS ONE, 2023. DOI: https://doi.org/10.1371/journal.pone. 0263969. (中科院SCI期刊分区： 2021年12月基础版三区，2022年12月最新升级版三区，2022年IF 3.752)

（云南高校资源与环境遥感重点实验室  供稿）