王艳红,女,博士,副教授,硕士生导师。
研究方向
菌根生态学及恢复生态学。
目前主要从事逆境环境下AM真菌对植物生长的调控机理及其植物-土壤反馈调节作用在群落物种共存和生物多样性维持中的作用机理研究。
科研项目
1.荒漠土壤CO2吸收和释放的途径与动态及其碳平衡意义(No. 42471055)。国家自然科学基金(2025-2028, 2/5)。
2.土壤酸化影响下长叶榧和丛枝菌根真菌的共生作用机制(LTY22C030003)。浙江省自然科学基金联合基金项目(2022.01-2024.12,主持)。
3.盐胁迫下接种AM真菌对不同生活型植物生长及养分吸收的作用机理(No. FX2017030)。浙江省教育厅高校访问学者教师专业发展项目(2017.12-2018.12,主持)。
4.风胁迫下AM真菌对毛乌素沙地油蒿群落物种共存的作用机制(No. 31400366)。国家自然科学基金(2015-2017年,主持)。
5.增温和氮沉降对毛竹固碳能力的微生物作用机制(No. CCSFR2013003)。浙江农林大学亚热带森林资源培育研究中心预研项目(2014-2015年,主持)。
6.机械刺激对毛乌素沙地油蒿群落种间关系的影响(No. LVEC-2012kf05)。中科院国家重点实验室开放课题(2012-2014年,主持)。
7.机械刺激和氮沉降复合作用下克隆整合对入侵植物喜旱莲子草入侵性的影响及其机制(No. LQ12C03002)。浙江省自然科学基金(2012-2014年,主持)。
8.稳定性硫同位素在杭州地区酸雨示踪中的研究(No. 2351000915)。浙江林学院人才启动项目(2008-2011年,主持)
9.旱地农田土壤抗生素和抗性基因的污染形成机制、水力迁移行为及其主控因子研究。浙江省自然科学基金重点项目(2020-2023,参与)。
10.香榧产量和品质对模拟氮沉降和施加生物炭的响应及其机理(No. 31570616)。国家自然科学基金(2016-2019年,参与)。
11.施加生物质炭对毛竹林温室气体排放和固碳能力的影响(No. 31470529)。国家自然科学基金(2015-2018年,参与)。
12.基于SPAC理论解析毛竹“爆发式生长”的固碳机制(No. 31270497)。国家自然科学基金(2013-2016年,参与)。
13.多因子气候变化对三种入侵植物入侵性的影响(No. 30770335)。国家自然科学基金(2008-2010年,参与)。
14.风和水分对半干旱区植物群落建成的影响(No. 30870395)。国家自然科学基金(2009-2011年,参与)。
15.克隆整合对两种外来入侵植物入侵性的影响(No. 30860054)。国家自然科学基金(2009-2011年,参与)。
主要论文和专著(#共同一作,*通讯作者)
1.Jin Xia-Huan, Liu Kang, Zhang Nai-Li, Wu Ai-Ping, Dong Li-Jia, Wu Qi-Qian, Zhao Ming-Shui, Li Yan,Wang Yan-Hong*. The combined application of arbuscular mycorrhizal fungi and biochar improves the Cd tolerance ofCinnamomum camphora seedlings. Rhizosphere, 2024, 31:100939.
2.Pan Yu-Mei,Wang Yan-Hong#, He Xiao-Bin, Zhang Si-Rong, Song Xin-Zhang, Zhang Nai-Li*. Plant-soil feedback is dependent on tree mycorrhizal types and tree species richness in a subtropical forest. Geoderma, 2024, 442: 116780.
3.Li Tian-Tian, Yang Huan, Zhang Nai-Li, Dong Li-Jia, Wu Ai-Ping, Wu Qi-Qian, Zhao Ming-Shui, Liu Hua, Li Yan,Wang Yan-Hong*. Synergistic effects of arbuscular mycorrhizal fungi and biochar are highly beneficial toLigustrum lucidum seedlings in Cd-contaminated soil. Environmental Science and Pollution Research, 2024,https://doi.org/10.1007/s11356-024-31870-9.
4. Xu Wen-Na, Pan Qiu-Yi, Zhang Qian-Ling, Song Dan-Lei, Sun Li-Fu,Wang Yan-Hong, Zhang Jian-Hang, Yang Huan-Yi, Han Xue-Yuan, Dong Li-Jia*. Synergistic changes in AM fungi and soil abiotic properties in rhizosphere soils of invasiveSolidago canadensis may confer its stronger dominance in communities. Plant and Soil, 2024,https://doi.org/10.1007/s11104-023-06454-0.
5.Li Xiao, Zheng Duo, Zhang Nai-Li, Dong Li-Jia, Wu Ai-Ping, Wu Qi-Qian, Liu Hua, Zhao Ming-Shui, Li Yan, Wang Xin-Ping*,Wang Yan-Hong*. Arbuscular mycorrhizal fungi-mediated resistance to salt spray inCinnamomum camphora seedlings enhanced by leaf functional traits. Soil Ecology Letters, 2024, 6: 230211.
6.Wang Yan-Hong, Zhang Nai-Li, Wu Ai-Ping, Lv Zhi-Qiang, Wei Jia, Li Yan*.2023.Effect of benomyl-mediated mycorrhizal association on the salinity tolerance of male and monoecious mulberry clones. Plant Physiology and Biochemistry, 2023, 195: 67-76.
7.Xue Lin, Liu Peng, Wu Ai-Ping,Dong Li-Jia, Wu Qi-Qian, Zhao Ming-Shui, Liu Hua, Li Yan, Zhang Nai-Li*,Wang Yan-Hong*. Resistance of MycorrhizalCinnamomum camphora seedlings to salt spray depends on K+ and P uptake. Journal of Fungi, 2023, 9: 964.
8.Wu Ai-Ping, Bai Zhong-Xi, Li Jian,Liu Hui, Chen Fa-Lin, Zhang Man-Yun,Wang Yan-Hong*, Mohamed Abdelaziz Balah, Wen Ji-Hui*. InvasiveAgeratina adenophora can maintain its ecological advantages over time through releasing its autotoxicity by accumulating a bacteriumBacillus cereus. Heliyon, 2023, 9: e12757.
9.Xu Wen-Na, Huang Xue-Yi, Yuan Jia-Jie,Wang Yan-Hong, Wu Meng-Min, Ni Hong-Tai, Dong Li-Jia*. The potential for synthesized invasive plant biochar with hydroxyapatite to mitigate allelopathy ofSolidagoCanadensis. Ecological Applications, 2023, 34 (1): e2833.
10.Hu Si-Yi, Gao Hui, Li Jian,Wang Yan-Hong, Gao An-Guo, Wen Ji-Hui*, Mohamed Abdelaziz Balah,Wu Ai-Ping*. The latitudinal and longitudinal allelopathic patterns of an invasive alligator weed (Alternanthera philoxeroides) in China. PLoS ONE, 2023, 18: e0280866.
11.Wang Yan-hong*, Li Tian-Tian, Wu Ai-Ping, Li Yan, Zhang Nai-Li*. Mycorrhizal benefits of salt-stressedCinnamomum camphora (L.) Presl. may be related to P and Mn2+ contents in shoots, biomass allocation, and K+/Na+ in roots and shoots. Forests, 2022, 13: 1882.
12.Wang Yan-Hong, Shao Chang-Liang, Qiu Ya-Jing, Yu Shu-Quan, Xia Li-Na, He Xiao-Bin, Wu Ai-Ping*, Zhang Nai-Li*. 2022. Arbuscular mycorrhizal fungi protect a subtropical tree species exposed to simulated acid rain by accelerating photosynthetic ability, antioxidant enzymes and osmolyte accumulation. Journal of Plant Ecology, 15: 1036-1048.
13.He Xiao-Bin, Shao Chang-Liang, Wu Ai-Ping, Xia Li-Na, Li Tian-Tian, Pei Jia, Zhang Nai-Li*,Wang Yan-Hong*. 2022. Arbuscular mycorrhizal fungi enhance nutrient acquisition and reduce aluminum toxicity inLespedeza formosa under acid rain. Environmental Science and Pollution Research, 29: 29904-29916.
14.Wang Xing-Qiang,Wang Yan-Hong, Song Yao-Bin, Dong Ming. 2022.Formation and functions of arbuscular mycorrhizae in coastal wetland ecosystems: A review. Ecosystem health and Sustainability, 8(1):2144465.
15.Yuan Jin-Rui, Bai Zhong-Xi, Ye Shi-Yun, Liu Hui,Wang Yan-Hong, Li Feng, Xie Yong-Yong, Gao An-Guo*, Wu Ai-Ping*. 2022. High-light inhibition of two submerged macrophytes in a shallow water experiment. AoB Plants, 14: 1-9.
16.Wang Yan-Hong, Zhang Nai-Li#, Wang Min-Qiang, He Xiao-Bin, Lv Zhi-Qiang, Wei Jia, Su Xiu, Wu Ai-Ping*, Li Yan*.2021.Sex-specific differences in the physiological and biochemical performance of arbuscular mycorrhizal fungi-inoculated mulberry clones under salinity stress. Frontiers in Plant Science, 12: 614162.
17.Wang Yan-Hong*,Liu Shan-Yan, Shao Chang-Liang, Wu Ai-Ping, He Xiao-Bin, Xia Li-Na, Wang Xu-Dong, Qiu Ya-Jing, Yu Shu-Quan, Pei Jia, Zhang Nai-Li*. 2021. Enhancement of photosynthetic parameters and growth ofZelkova serrata by arbuscular mycorrhizal fungi under simulated sulfuric acid rain. Plant Ecology, 222: 1361-1374.
18.Xia Li-Na, Shao Chang-Liang, Zhang Nai-Li, Wu Ai-Ping, Xie Jiang-Bo, Qiu Ya-Jing, He Xiao-Bin, Pei Jia, Wang Xu-Dong,Wang Yan-Hong*. 2021. Improved tolerance of mycorrhizalTorreya grandis seedlings to sulfuric acid rain related to phosphorus and zinc contents in shoots. Journal of Fungi, 7: 296.
19.Wu Ai-Ping*, Ye Shi-Yun, Yuan Jin-Rui, Qi Liang-Yu, Cai Zheng-Wu, Ye Bi-Bi, Yuan Jing, Chu Zhao-Sheng*, Xie Yong-Hong, Liu Li, Zhong Wen,Wang Yan-Hong. 2021. Therelationship between diversity and productivity from a three-dimensional space in a natural mesotrophic lake. Ecological Indicators, 121: 107069.
20.Qi Liang-Yu, Zeng Hong-Yuan, Bai Zhong-Xi,Wang Yan-Hong, Liu Li, Zhong Wen, Ye Shi-Yun, Fu Hui, Li Feng, Shao Chang-Liang*, Wu Ai-Ping*. 2021. The effects of biodiversity gradient on plant mass and metabolism ofindividual submerged macrophytes. Ecological Processes, 10: 38.
21.Qiu Ya-Jing, Zhang Nai-Li, Zhang Lin-Lin, Zhang Xin-Lei, Wu Ai-Ping, Huang Ju-Ying, Yu Shu-Quan,Wang Yan-Hong*.2020.Mediation of arbuscular mycorrhizal fungi on growth and biochemical parameters ofLigustrum vicaryi in response to salinity. Physiological and Molecular Plant Pathology,112: 101522.
22.Wu Ai-Ping*, He Yu, Ye Shi-Yun, Qi Liang-Yu, Liu Li, Zhong Wen,Wang Yan-Hong, Fu Hui.2020.Negative effects of a piscicide, rotenone, on the growth and metabolism of three submerged macrophytes. Chemosphere, 250: 126246.
23.Wu Ai-Ping*, Ye Shi-Yun,Wang Yan-Hong*, Cao Te, Liu Li, Zhong Wen, Qi Liang-Yu, Deng Qiu-Yue, Hu Chu-Ting.2020.Electrofishing as a potential threat to the growth and metabolism of three submerged macrophytes. Marine and Freshwater Research,72(3): 376-382
24.Wu Ai-Ping*, Zhong Wen, Yuan Jin-Rui, Qi Liang-Yu, Chen Fa-Lin, Liang Yun-Shan, He Fei-Fei,Wang Yan-Hong.2019.The factors affecting a native obligate parasite, Cuscuta australis, in selecting an exotic weed,Humulus scandens, as its host. Scientific Reports, 9: 511-518.
25.Wu Ai-Ping*, Liu Li, Qi Liang-Yu, Zhong Wen, Liang Yun-Shan, Chen Fa-Lin, He Fei-Fei,Wang Yan-Hong.2019.Rapid nitrogen and homeostatis transformation inEupatorium adenophorum during invasion. Weed Research, 59: 387-395.
26.Zhang Hua-Kang,Wang Yan-Hong*, Heikki Hänninen,Song Yao-Bin, Huang Ju-Ying. 2019. The effects of mechanical stimuli on the clonal plasticity of stoloniferousDuchesnea indica.Ecological Science, 38(1): 143-151.
27.Wang Yan-Hong*, Wang Min-Qian, Li Yan, Wu Ai-Ping, Huang Ju-Ying. Effectsof arbuscular mycorrhizal fungi on growth and nitrogenuptake ofChrysanthemum morifolium under salt stress. PLoS ONE,2018, 13(4):e0132967.
28.Wu Ai-Ping*,Liu Jian, He Fei-Fei,Wang Yan-Hong, Zhang Xin-Jie, Duan Xiao-Di, Liu Yue, Qian Zi-Yan.2018. Negative relationship between diversity and productivity under plant invasioin.Ecological Research, 33: 949-957.
29.Wu Ai-Ping*, Zhao Ya-Xuan, He Fei-Fei,Wang Yan-Hong, Zhong Wen.2017.Pueraria lobata is expanding and endangering in China ecosystem. Russian Journal of Ecology, 48(3): 196-202.
30.Wu Ai-Ping*, Li Zi-Li, He Fei-Fei,Wang Yan-Hong, Dong Ming*.2015.Screening allelochemical-resistant species of the alien invasiveMikania micrantha for restoration in South China. PLoS ONE, 10(7): e0132967.
31.Wang Yan-Hong, Dong Ming, Yu Fei-Hai, Jiang Hong, Yu Su-Quan, Lin Xi-Qiao, He Wei-Ming*.2011.Mechanical shaking and soil water affect the growth ofPsammochloa villosa in the Mu Us Sandland. Journal of Arid Environments, 75(10): 974-977.
32.Wang Yan-Hong, Yu Fei-Hai, Dong Ming, Lin Xi-Qiao, Jiang Hong, He Wei-Ming*.2010.Growth and biomass allocation ofLolium perenne seedlings in response to mechanical stimulation and water availability.Annales Botanici Fennici, 47(5): 367-372.
33.Wang Yan-Hong, He Wei-Ming*, Yu Fei-Hai, Zhang Li-Li, Cui Qing-Guo, Chu Yu, Dong Ming*.2009.Brushing effects on the growth and mechanical properties ofCorispermum mongolicum vary with water regimes.Plant Biology, 11(5): 694-700.
34.Wang Yan-Hong, He Wei-Ming*, Dong Ming*, Yu Fei-Hai, Zhang Li-Li, Cui Qing-Guo, Chu Yu.2008.Effects of shaking on the growth and mechanical properties ofHedysarum laeve may be independent of water regimes.International Journal of Plant Sciences, 169(4): 503-508.
35.邢福*,郭继勋,王艳红.狼毒种子萌发特性与种群更新机制的研究.应用生态学报, 2003, 14(11): 1851-1854.
36.邢福*,王艳红,郭继勋.内蒙古退化草原狼毒种子的种群分布格局与散布机制.生态学报, 2004, 24(1): 143-148.
37.邢福*,王艳红,王珂.羊草草原分布区的有毒植物.吉林畜牧兽医, 2004, 8: 15-17.
38.王艳红,王珂,邢福*.匍匐茎草本植物形态可塑性、整合作用与觅食行为研究进展.生态学杂志, 2005, 24(1): 70-74.
39.张丽丽,董鸣,李仁强,王艳红,崔清国,何维明*.土壤养分斑块对比度改变活血丹克隆整合强度和方向.植物生态学报, 2007, 31 (4): 619-624.
40.崔清国,彭华,李仁强,王艳红,张丽丽,何维明*.生境类型对入侵植物肿柄菊种群和个体水平特征的影响.生态学报, 2007, 27 (11): 4671-4677.
41.蒋馥蔚, 江洪*, 李巍, 余树全, 鲁美娟, 李佳, 金清, 王艳红, 曹全. 酸雨胁迫下黑壳楠Lindera megaphylla Hemsl.幼苗在夏季和秋季的生理生态特性. 生态环境, 2008, 17(6): 2374-2380.
42.蒋馥蔚,江洪*,李巍,余树全,曾波,王艳红.不同起源时期的3种被子植物对酸雨胁迫响应的光合生理生态特征.植物生态学报, 2009, 33(1): 125-133.
43.金清,江洪*,余树全,金静,王艳红.酸雨胁迫对亚热带典型树种幼苗生长与光合作用的影响.生态学报, 2009, 29(6): 3322-3327.
44.王艳红,何维明*,于飞海,江洪,余树全,董鸣*.植物响应对风致机械刺激研究进展.生态学报, 2010, 30(3): 794-800.
45.王艳红,江洪*,余树全,李巍,林曦乔.硫稳定同位素技术在生态学研究中的应用.植物生态学报, 2010, 34(2):179-185.
46.杨剑宇,王艳红*,温国胜,伊力塔. AMF和模拟氮沉降对加拿大一枝黄花(Solidago canadensis)幼苗生长和生物量积累的影响.生态学杂志, 2013, 32(11): 2953-2958.
47.陈嘉琦,温国胜*,王艳红,张汝民,李洪吉,袁佳丽.春季毛竹光化学效率空间异质性比较.福建林学院学报, 2014, 34(1): 52-56.
48.周柱峰,龚佳梦,王艳红*,温国胜,伊力塔. KNO3处理对毛乌素沙地4物种种子萌发特性的影响.种子, 2014, 33(9): 19-22.
49.胡洋,王艳红*,温国胜,沈莉芹,吴爱平.基质不同灭菌条件下空心莲子草浸提液对白三叶种子萌发和幼苗生长的影响.生态科学, 2015, 34(4): 21-25.
50.朱丽娜,王艳红*,沈莉芹,吴爱平.空心莲子草浸提液对5种蔬菜种子萌发的影响.安徽农业科学, 2015, 43(3): 96-98.
51.沈莉芹,王艳红*,吴爱平.空心莲子草浸提液对5种蔬菜种子萌发的影响.种子, 2015, 34(5): 80-83.
52.刘星宇,王艳红*,许益燃.模拟酸沉降下汞胁迫对香樟幼苗生理生态特性的影响.生态学杂志, 2017, 36(3): 670-675.
53.金巧,王大伟,吕志强,魏佳,王艳红,苏秀*.从浙江蚕区桑园发生桑黄化型萎缩病植株分离植原体的分子鉴定.蚕业科学, 2017, 43(2): 196-201.
54.王敏强,吴沛鸿,沈益康,宋垚彬,吴爱平,王艳红*.盐胁迫下接种丛枝菌根真菌对甜菊生长和氮磷吸收的影响.应用与环境生物学报, 2018, 24(5): 960-966.
55.孙丹妮,何维明,王艳红*,宋垚彬.水分供应对毛乌素沙地油蒿和羊柴种间关系的影响.生态科学, 2018, 37(2): 11-17.
56.牛玉斌,余海龙,王攀,樊瑾,王艳红,黄菊莹*. 2019.氮磷添加对荒漠草原植物群落多样性和土壤C:N:P生态化学计量特征的影响.生态学报, 39(22): 8462-8471.
57.吴沛鸿, 邱雅静, 张欣磊, 苏秀, 王小赛, 王艳红*. AM真菌对加拿大一枝黄花与菌根植物和非菌根植物种间作用的影响. 植物保护学报, 2020, 47(2): 312-323.
58.张欣磊, 邱雅静, 王艳红*,宋垚彬, 吴爱平, 苏秀. AM真菌对盐胁迫下白芨生长和养分吸收的影响. 生态科学, 2020, 39(5): 1-8.
59.汪鹞雄,李全,沈益康,杨强,张君波,王艳红,宋新章*.模拟氮沉降对杉木丛枝菌根真菌侵染率和球囊霉素的影响.生态学报, 2020, 40(23):
60.裴佳,梁瑾,金夏焕,夏丽娜,贺晓斌,王艳红*.两种从枝菌根真菌和黄瓜花叶病毒复合作用对烟草生长和光合特性的影响.生态科学, 43(1): 55-62.
教改项目及教改文章
(1)教改项目
1.生态学课程群课程思政构建——基于“生命共同体”的生态文明理论(浙江省教育厅课程思政教研项目SZJY210004,主持)
2.《生态学》(项目类别:课程思政课程)(校级教改项目KC2020139,2020.9-2021.9,主持)
3.生态学线上与线下教学效果对比(“停课不停教”线上教学教改专项)(校级教改项目,2020.2-2020.6,主持)
4.《基于混合式学习模式的生态学专业英语教学改革探索》(校级教改项目KG2019011,2019.12-2020.12,主持)
5.生态文明教育引领下的生态学课程思政构建(校级教改项目KGBA18008,2018.9-2019.9,主持)
6.植物生理生态学课程研究型教学模式研究(校级教改项目,2014.9-2015.9,主持)
7.全球变化通识核心课程(校级教改项目、2012.9-2014.9), 主持)
8.生物科学本科实验教学的创新研究与实践(校级教改项目、2011.9-3013.9,2/5)
9.生态学教学团队(校级教学团队、2011.9-2014.10,参与)
10.基于混合式学习模式的生态学专业英语教学改革探索(校级一般,主持,)
(2)教改论文
1.温国胜,张明如,伊力塔,刘美华,王艳红,俞飞.生态学专业人才培养模式的改革研究.现代农业科技, 2012, (6): 30, 39.
2.王艳红,温国胜,伊力塔,张琳琳.“生态学”双语教学研究探讨.教育教学论坛, 2013,(50): 72-73.
3.王艳红,温国胜.基于“全球变化”通识课程的教学研究.教育教学论坛, 2014,(46):195-196.
4.张琳琳,王艳红,于超. PBL教学法在种子生物学教学中的应用于思考.教育教学论坛, 2014(16): 128-129.
5.王艳红,温国胜,陈健.植物生理生态学研究型教学模式探讨.教育教学论坛, 2015, (48): 147-148.
6.王艳红,陈健,曾燕如.混合式教学在生态学双语教学中的应用.科教导刊, 2019, (11): 124-125.
7.王艳红, 伊力塔, 曾燕如. 《生态学》教学中“课程思政”教育探索. 高教学刊, 2020, (9): 170-172.
8.王艳红,陈健,王忠媛,伊力塔.生态学课程线上与线下教学效果对比研究.高教学刊, 2022, (27): 67-70.
参编的相关教材
参编《药用植物生理学》和“十二五”国家规划教材《城市生态学》。
联系方式
通讯地址:浙江省杭州市临安区武肃街666号浙江农林大学林业与生物技术学院生态学科
邮编:311300
邮箱:linwangyh@126.com
Personal ORCID: https://orcid.org/0000-0002-8193-9727
Personal profile in Research gate:https://www.researchgate.net/profile/Yanhong-Wang-4
