|||Atinafe E, Assefa E, Belay B, et al. 2020. Floristic diversity and natural regeneration status of entoto mountain and the surrounding area in Addis Ababa, Ethiopia. International Journal of Forestry Research, 2020(2): 1-10.|
|||Chen M L, Wen H H, Wang X P, et al. 2014. Plant species diversity in wetlands in source of Qiupu River. Wetland Science, 12(3): 369-373. (in Chinese)|
|||Dai X L, Xie J P, Wang M, et al. 2015. Characteristics of plant communities and species diversity in wetlands in Yangguan National Nature Reserve in Dunhuang. Wetland Science, 13(3): 381-386. (in Chinese)|
Duan N, Liu X D, Dai J, et al. 2011. Evaluating the environmental impacts of an urban wetland park based on emergy accounting and life cycle assessment: A case study in Beijing. Ecological Modelling, 222(2): 351-359.
|||Etongo D, Monthy M, Vel T. 2020. Floristic composition, diversity and its potential for future regeneration between native and exotic species in the Caiman forest of Seychelles. International Journal of Sustainable Development & World Ecology, 27(4): 358-368.|
Fang J Y, Guo K, Wang G H, et al. 2020. The classification system, classification of vegetation types and arrangement system of Chinese Flora of Vegetation. Chinese Journal of Plant Ecology, 44(2): 96-110. (in Chinese)
|||Ji Q R. 2018. Research on wetland Park protection and landscape planning based on landscape ecology. Diss., Fuzhou, China: Fujian Agriculture and Forestry University, 35-38. (in Chinese)|
|||Lei K, Zhang M X. 2005. The wetland resources in China and the conservation advices. Wetland Science, 3(2): 81-86. (in Chinese)|
|||Li B, Zhu Z X. 2017. Plant species diversity of Long Lake National Wetland Park in Huaiyang County. Wetland Science, 15(3): 411-415. (in Chinese)|
|||Li D L, Wang L, Ding J J, et al. 2011. Ecological functions and resource utilization of aquatic plants. Wetland Science, 9(3): 290-296. (in Chinese)|
|||Li J, Ren X, Li Y F, et al. 2016. Investigation and research on wetland plant in Mianyang City. Ecological Science, 35(3): 165-171. (in Chinese)|
|||Li W J, Shen Y B, Shi F H, et al. 2019. Plant community landscape construction of the Baigui Lake National Wetland Park. Northern Horticulture, 24: 88-93. (in Chinese)|
Li X P, Chen M M, Anderson B C. 2008. Design and performance of a water quality treatment wetland in a public park in Shanghai, China. Ecological Engineering, 35(1): 18-24.
Li Y F, Liu H Y, Zheng N, et al. 2010. Analysis of trophic status and its influence factors of different water body types in Xixi National Wetland Park, China. Procedia Environmental Sciences, 2: 768-780.
|||Liu Z, Li Y, Zhu P, et al. 2020. Diversity and flora of wetland plants of Changxing County, Zhejiang Province. Journal of Zhejiang A&F University, 37(3): 465-471. (in Chinese)|
Mu D, Liang Y H, Zhang W H, et al. 2018. Investigation on tree molecular genome of Arabidopsis thaliana for internet of things. IEEE Access, 2018(1). DOI: 10.1109/ACCESS.2018.2877411.
|||Ri X, Yang J, Zhao L Q, et al. 2020. Establishment, development, and decline of Salix psammophila communities: Changes in soil conditions and floristic composition in dune slacks. Global Ecology and Conservation, 22: 1-13.|
|||Scott D A, Eckhoff K D, Baer S G. 2020. Plant diversity decreases potential nitrous oxide emissions from restored agricultural soil. Pedobiologia, 83: 1-8.|
|||Wang L L, Lu L, Tang Y, et al. 2010. Running status, distribution pattern and type classification of the state-level wetland parks in China. Acta Ecologica Sinica, 30(9): 2406-2415. (in Chinese)|
Wang S W, Boru B H, Njogu A W, et al. 2020. Floristic composition and endemism pattern of vascular plants in Ethiopia and Eritrea. Journal of Systematics and Evolution, 58(1): 33-42.
|||Wei C Z, Zhang J B, Zhou L Y. 2011. Plant community succession and species diversity of lakeshore wetlands along the lower Yellow River. Ecology and Environmental Sciences, 20(1): 30-36. (in Chinese)|
|||Wu Z Y. 2003. Revision of the areal type system of the world seed plant family. Plant Research in Yunnan, 25(5): 535-538. (in Chinese)|
|||Wu Z Y, Zhou Z K, Li D Z, et al. 2003. The areal-types of the world families of seed plants. Acta Botanica Yunnanica, 25(3): 245-257. (in Chinese)|
Xie Z L, Xu X G, Yan L. 2009. Analyzing qualitative and quantitative changes in coastal wetland associated to the effects of natural and anthropogenic factors in a part of Tianjin, China. Estuarine, Coastal and Shelf Science, 86(3): 379-386.
|||Xu G R, Zhang Y X, Zhang S, et al. 2020. Biodiversity associations of soil fauna and plants depend on plant life form and are accounted for by rare taxa along an elevational gradient. Soil Biology and Biochemistry, 140: 1-9.|
|||Xu W D, He X Y, Chen W, et al. 2003. Flora and vegetation types in the downtown area of Shenyang. Journal of Applied Ecology, 14(12): 2095-2102. (in Chinese)|
|||Yan C G, Zhang M X. 2005. Wetland vegetation in China and its conservation advices. Wetland Science, 3(3): 210-215. (in Chinese)|
|||Yang M, Jin Z Z, Ou X K. 2009. Flora of wetland plants in Changhu Lake of Shilin County, Yunnan. Guihaia, 29(3): 348-352. (in Chinese)|
|||Yang Q, Li Y H. 2010. Plant community construction of wetland park—A case study of Xixi Wetland Botanical Garden, Hangzhou. Chinese Landscape Architecture, 26(11): 76-79. (in Chinese)|
|||Yang Y, Zhang Y. 2014. Progress and development of wetland in China. Environmental Engineering, 32(7): 43-48, 78. (in Chinese)|
|||Yang Z Q, Xie W Y, Wang T. 2014. Study on vascular flora of wetland in Zhejiang Province. Journal of Zhejiang Forestry Science and Technology, 34(5): 32-36. (in Chinese)|
|||Yu K J. 2011. The country’s first rain flood park was unveiled at the Qunli National Urban Wetland Park in Harbin. China Homes, (9): 38-39. (in Chinese)|
|||Yuan D, Li Y H. 2011. Landscape design and plant configuration of the Nanhu Park Wetland. Agricultural Science, Technology and Information (Modern Landscape), (1): 44-48. (in Chinese)|
|||TIAN Jinghan, GUO Chenchen, WANG Jianhua. Quantitative Assessment of the Ecological Vulnerability of Baiyangdian Wetlands in the North China Plain [J]. Journal of Resources and Ecology, 2021, 12(6): 814-821.|
|||MIN Qingwen. Agri-cultural Heritage: An Interdisciplinary Field with Development Prospects [J]. Journal of Resources and Ecology, 2021, 12(4): 437-443.|
|||LIU Moucheng, BAI Yunxiao, YANG Lun, WANG Bojie. Calculation of Ecological Compensation Standards for the Kuancheng Traditional Chestnut Cultivation System [J]. Journal of Resources and Ecology, 2021, 12(4): 471-479.|
|||GU Xingguo, JIAO Wenjun, SUN Yehong, WANG Bin. Conservation of the Important Agricultural Heritage Systems in the Economically Developed Area：Experiences, Problems and Solutions—A Case Study of Zhejiang Province [J]. Journal of Resources and Ecology, 2021, 12(4): 513-521.|
|||WANG Guoping, YANG Lun, LIU Moucheng, LI Zhidong, HE Siyuan, MIN Qingwen. The Role of Local Knowledge in the Risk Management of Extreme Climates in Local Communities: A Case Study in a Nomadic NIAHS Site [J]. Journal of Resources and Ecology, 2021, 12(4): 532-542.|
|||ZHANG Yongxun, HE Lulu. Protecting Important Agricultural Heritage Systems (IAHS) by Industrial Integration Development (IID): Practices from China [J]. Journal of Resources and Ecology, 2021, 12(4): 555-566.|
|||HAN Zhiyong, LI Tao, LIU Ximei. Temporal and Spatial Characteristics and Evolution of China’s Inbound Tourism Carbon Footprint [J]. Journal of Resources and Ecology, 2021, 12(1): 56-67.|
|||Sydney M. GREENFIELD, Aliana C. NORRIS, Joseph P. LAMBERT, Wu liji, Se yongjun, ZHAN Jinqi, MA Bing, LI Deng, SHI Kun, Philip RIORDAN. Ungulate Mortality due to Fencing and Perceptions of Pasture Fences in Part of the Future Qilianshan National Park [J]. Journal of Resources and Ecology, 2021, 12(1): 99-109.|
|||ZHONG Yang, LIN Aiwen, ZHOU Zhigao, HE Lijie, YUAN Moxi. Economic Development Status of the Countries along the Belt and Road and Their Correlations with Population and Carbon Emissions [J]. Journal of Resources and Ecology, 2020, 11(6): 539-548.|
|||WANG Xue, LI Xiubin. Impacts of Land Fragmentation and Cropping System on the Productivity and Efficiency of Grain Producers in the North China Plain: Taking Cangxian County of Hebei Province as an Example [J]. Journal of Resources and Ecology, 2020, 11(6): 580-588.|
|||TAO Hui, GAO Jing, CHEN Kaiqiang. Space Changes in the Rural Tourism Area of Mufu Town, Hubei Province, China [J]. Journal of Resources and Ecology, 2020, 11(6): 633-644.|
|||LIU Xianzhao*. A Comparative Decomposition Analysis of the Factors Driving Energy-related Carbon Emissions from Three Typical Provinces in China: Jiangsu, Henan and Inner Mongolia [J]. Journal of Resources and Ecology, 2020, 11(5): 483-498.|
|||LU Chunxia, LIU Aimin, XIAO Yu, LIU Xiaojie, XIE Gaodi, CHENG Shengkui. Changes in China’s Grain Production Pattern and the Effects of Urbanization and Dietary Structure [J]. Journal of Resources and Ecology, 2020, 11(4): 358-365.|
|||LIANG Yuting, HU Yunfeng, HAN Yueqi. Spatial Distribution and Dynamic Changes in Research Hotspots for Desertification in China based on Big Data from CNKI [J]. Journal of Resources and Ecology, 2019, 10(6): 692-703.|
|||JIN Mingming, XU Zengrang. Characteristics of Agricultural and Livestock Products Trade Flows between China and the “Belt and Road” Initiative Region: From the Perspective of Biocapacity [J]. Journal of Resources and Ecology, 2019, 10(6): 584-597.|