姓名:彭梦文 性别:女
职称:讲 师 办公室:37000cm威尼斯137
邮箱:pengmw2018@163.com 电话:18899532018
学历学位:博士 研究方向:荒漠生态系统保护与修复、植物生理生态
个人简介
工作简历:彭梦文(Dr. Peng Mengwen):博士,讲师,37000cm威尼斯工作。于2017年和2020年在37000cm威尼斯获得农学学士及硕士学位,于2024年在37000cm威尼斯获得工学博士学位,毕业后留校任教。
学术兼职:无
科研领域:主要围绕荒漠化治理、生态恢复及生物多样性保护,针对极端环境条件下,干旱半干旱区荒漠植物与特殊环境之间错综复杂、相互依存的关系,开展植物生理适应性、荒漠环境与植物相互作用机制、适应策略与生态恢复策略等研究工作。
研究成果:以第一作者在《Journal of Environmental Management》、《Land Degradation and Development》、《Plant Physiology and Biochemistry》、《Journal of Plant Interactions》和《Journal of the Science of Food and Agriculture》等期刊发表SCI论文8篇,其中Top期刊5篇。
一、教学情况
暂无
二、科学研究
暂无
三、主要代表性论文:
1. Mengwen Peng, Hao He, Zhongke Wang, Guifang Li, Xinhua Lv, Xiaozhen Pu, Li Zhuang*. Responses and comprehensive evaluation of growth characteristics of ephemeral plants in the desert–oasis ecotone to soil types[J]. Journal of Environmental Management, 2022, 316: 115288.
2. Mengwen Peng, Hao He, Xiushuang Wang, Zhongke Wang, Li Zhuang*. Comparison of network connectivity and environmental driving factors of root-associated fungal communities of desert ephemeral plants in two habitat soils[J]. Journal of Environmental Management, 2023, 332: 117375.
3. Mengwen Peng, Hao He, Meng Jiang, Zhongke Wang, Guifang Li, Li Zhuang*. Morphological, physiological and metabolomic analysis to unravel the adaptive relationship between root growth of ephemeral plants and different soil habitats[J]. Plant Physiology and Biochemistry, 2023, 202: 107986.
4. Mengwen Peng, Hao He, Zhongke Wang, Guifang Li, Xinhua Lv, Xiaozhen Pu, Li Zhuang*. Community distribution of rhizosphere and endophytic bacteria of ephemeral plants in desert‐oasis ecotone and analysis of environmental driving factors[J]. Land Degradation and Development, 2023, 34: 1182-1196.
5. Mengwen Peng, Yaling Chang, Guangming Chu, Mei Wang*. Low-temperature tolerance and transcriptome analyses during seed germination of Anabasis aphylla[J]. Journal of plant interactions. 2019, 14, 254-264.
6. Hao He, Mengwen Peng, Zhenan Hou, Junhua Li*. Unlike chemical fertilizer reduction, organic fertilizer substitution increases soil organic carbon stock and soil fertility in wheat fields[J]. Journal of The Science of Food and Agriculture, 2024, 104: 2798-2808.(共一)
7. Hao He, Mengwen Peng, Weidan Lu, Zhenan Hou, Junhua Li*. Commercial organic fertilizer substitution increases wheat yield by improving soil quality[J]. Science of the Total Environment, 2022, 851: 158132.
8. Hao He, Mengwen Peng, Sibo Ru, Zhenan Hou, Junhua Li *. Organic fertilizer substitution promotes soil organic carbon sequestration by regulating permanganate oxidizable carbon fractions transformation in oasis wheat fields[J]. Catena, 2023, 221: 106784.
9. Hao He, Mengwen Peng, Zhenan Hou, Junhua Li *. Organic amendment substitution improves the sustainability of wheat fields changed from cotton and vegetable fields[J]. Agriculture, Ecosystems and Environment, 2024, 359: 108769.
10. Hao He, Mengwen Peng, Sibo Ru, Zhenan Hou, Junhua Li *. A suitable organic fertilizer substitution ratio could improve maize yield and soil fertility with low pollution risk[J]. Frontiers in Plant Science, 2022, 13: 988663.
四、获奖及荣誉
1. 硕士研究生国家奖学金,2019年
2. 37000cm威尼斯硕士优秀毕业论文,2020年
3. 博士研究生国家奖学金,2023年
4. 37000cm威尼斯“三好学生”,2023