张冬杰 副教授

发布者:董凯凯发布时间:2023-05-01浏览次数:2837


张冬杰男,19923月出生,河北沧州人,博士,副教授,硕士生导师。20209月毕业于中国科学院东北地理与农业生态研究所。20211月进入山东航空学院山东省黄河三角洲生态环境重点实验室工作。主要从事湿地生态恢复、湿地退化过程与恢复机制、湿地植物生理生态响应研究。在Ecological IndicatorsHydrobiologiaFrontiers in Plant ScienceJournal of Soil Science and Plant NutritionFrontiers in Ecology and EvolutionAquatic Botany、湿地科学、生态学杂志等刊物上发30余篇论文。培养硕士研究生2人。

 

         E-mailzhangdongjie14@126.com
  • 教育经历

2010.9-2014.6  唐山师范学院,地理科学,学士学位

2014.9-2017.6  中国科学院东北地理与农业生态研究所,自然地理学,硕士学位

2017.9-2020.9  中国科学院东北地理与农业生态研究所,自然地理学,博士学位

2019.11-2020.8  美国路易斯安那州立大学农业中心植物、环境和土壤科学学院,联合培养

  • 主要研究方向

湿地生态恢复、湿地退化过程与恢复机制、湿地植物生理生态响应

  • 科研项目

主持项目:

1. 国家自然科学基金青年项目水盐交互作用下黄河口湿地互花米草生长特征与养分分配格局的耦合机制42101111),执行期:2022-2024

2. 山东省自然科学基金青年项目黄河口湿地互花米草生态特性及N:P:K内稳态特征对水盐变化的响应机制ZR2021QD101),执行期:2022-2024

3. 企业委托项目山东省沿黄河区域国家湿地公园植物群落稳定性提升技术研发,执行期:2023-2025

4. 校科研启动项目水盐变化对黄河口湿地互花米草生长及养分运移过程的调控机制2021Y14),执行期:2021-2024

参与项目:

1. 国家重点研发计划“东北典型退化湿地恢复与重建技术及示范”子课题2016YFC0500403

2. 国家自然科学基金黄河三角洲湿地典型盐生植物-土壤系统氮素运转的微生物学机制42171059)

3. 国家自然科学基金“苔草草丘群落对湿地水文变化的响应机制及适应性管理对策”41871101

4. 国家自然科学基金“小叶章湿地植物功能性状对管理模式的响应及优势种群形成机制”41871102

5. 国家科技重大专项研究任务“松花江下游沿江湿地生态功能与生物多样性恢复技术集成与示范”子课题2012ZX07201004-02

6. 科技部基础性工作专项“中国沼泽湿地资源及其主要生态效益综合调查”子课题2013FY111800

7. 吉林省科技发展计划项目“水文条件对苔草草丘群落变化的影响研究”20190201115JC

8. 吉林省自然科学基金项目“扁秆藨草群落对水文变化的响应与群落恢复技术研究”20150101081JC

9. 中国科学院重点部署项目“东北生态安全屏障建设技术研究与示范项目”子课题KFZD-SW-305-003

10. 横向项目“吉林向海国家级自然保护区退化湿地生态恢复实施方案”

11. 横向项目“吉林莫莫格国家级自然保护区退耕还湿生态恢复实施方案”

12. 横向项目山东省湿地生态补偿政策及标准研究

  • 代表性论文

    1. Zhang Mingye, Jiang Ming, Zhang Dongjie#, Liu Shuchen, Qi Qing, Xin Yuan, An Yu, Cui Geng, Lyu Xianguo, Tong Shouzheng. Effects of melatonin priming on the seed germination, seedling growth, and biochemical characteristics of Suaeda Corniculata exposed to salinity and osmotic stresses. Journal of Soil Science and Plant Nutrition, 2024, 1-14. 

    2. Zhang Dongjie, Wang Hui, Liu Xuepeng, Ao Kang, He Wenjun, Wang Tongxin, Zhang Mingye, Tong Shouzheng. Latitudinal patterns and their climate drivers of the δ13C, δ15N, δ34S isotope signatures of Spartina alterniflora across plant life-death status: a global analysis. Frontiers in Plant Science, 2024,15, 1384914.

   3. Zhang Dongjie, Liu Xuepeng, Gao Shiya, Liu Cheng, Xin Yuan, Wang Tongxin, Zhang Mingye, Tong Shouzheng. Ecological and photosynthetic characteristics of Carex schmidtii with respect to hydrological fluctuations. Journal of Freshwater Ecology, 2023, 38(1), 2271502.

   4. Zhang Dongjie, Liu Xuepeng, Tian Junping, Wang Zhuo, Wei Yongxin, Wang Hui, He Wenjun. An experimental study on the growth and physiological responses of Carex schmidtii to excess nitrogen and phosphorus. Applied Ecology & Environmental Research, 2023, 21(6):5107-5118.

  5.Zhang Dongjie, Xia Jiangbao, Sun Jingkuan, Dong Kaikai, Shao Pengshuai, Wang Xuehong, Tong Shouzheng. Effect of wetland restoration and degradation on nutrient trade-off of Carex schmidtii. Frontiers in Ecology and Evolution, 2022, 9, 801608.

  6.Zhang Dongjie, Xia Jiangbao, Sun Jingkuan, Ma Jinzhao, Zhao Dandan, Duan Daixiang, Wang Xuehong, Tong Shouzheng. Nutrient responses of Carex schimidtii to consecutive drought and re-flooding episodes in semi-arid wetlands: implications for tussock restoration. Applied ecology and environmental research, 2022, 20(5), 4039-4060.

  7. Zhang Dongjie, Sun Jingkuan, Cui Qian, Xia Jiangbao, Qi Qing, Wang Xuehong, Tong Shouzheng. Plant growth and diversity performance after restoration in Carex schmidtii tussock wetlands, Northeast China. Community Ecology, 2021, 22(3), 391-401.

  8. Zhang Dongjie, Qi Qing, Tong Shouzheng, Jim Wang, Zhang Mingye, Zhu Guanglei, Lu Xianguo. Effect of hydrological fluctuation on nutrient stoichiometry and trade-offs of Carex schmidtii. Ecological Indicators, 2021, 120: 106924.

  9. Zhang Dongjie, Zhang Mingye, Tong Shouzheng, Qi Qing, Wang Xuehong, Lu Xianguo. Growth and physiological responses of Carex schmidtii to water-level fluctuation. Hydrobiologia, 2020, 847(3): 967-981.

 10. Zhang Dongjie, Qing Qi, Shouzheng Tong. Growth of Carex tussocks as a response of flooding depth and tussock patterning and size in temperate sedge wetland, Northeast China. Russian Journal of Ecology. 2020, 51(2): 144-150.

  11. Zhang Dongjie, Tong Shouzheng, Qi Qing, Zhang Mingye, An Yu, Wang Xuehong, Lu Xianguo. Effects of drought and re-flooding on growth and photosynthesis of Carex schmidtii Meinsh: implication for tussock restoration. Ecological Indicators, 2019, 103: 134-144.

  12. Zhang Dongjie, Qi Qing, Tong Shouzheng, Wang Xuehong, An Yu, Zhang Mingye, Lu Xianguo. Soil degradation effects on plant diversity and nutrient in tussock meadow wetlands. Journal of Soil Science and Plant Nutrition, 2019, 19(3): 535-544.

  13. Zhang Dongjie, Qi Qing, Wang Xuehong, Tong Shouzheng, Lv Xianguo, An Yu, Zhu Xiaoyan. Physiological responses of Carex schmidtii Meinsh to alternating flooding-drought conditions in the Momoge wetland, northeast China. Aquatic Botany, 2019, 153: 33-39.

  14. Zhang Dongjie, Qi Qing, Wang Xuehong, Tong Shouzheng, An Yu. Eco-physiological responses of Carex Schmidtii to soil salinization in a Chinese wetland. Polish Journal of Environmental Studies, 2019, 28(5): 4009-4015.

  15. Wang Xuehong, Zhang Dongjie(共同一作), Qi Qing, Tong Shouzheng, An Yu, Lu Xianguo, Liu Yan. The restoration feasibility of degraded Carex Tussock in soda-salinization area in arid region. Ecological Indicators, 2019, 98: 131-136.

  16. 张冬杰, 梁江涛, 张鹏远, 郭建耀, 卢小军, 王舒淇, 高士雅, 王雪宏. 黄河山东段两侧33座国家湿地公园中植物群落的物种丰富度研究. 湿地科学, 2023, 21(3): 367-374.

  17. 张冬杰齐清佟守正张仲胜王雪宏安雨潘艳文干湿交替对臌囊苔草草丘生理生态的影响生态学杂志, 2018, 37(1): 43-49.

  18.  张冬杰王雪宏佟守正安雨齐清崔明炜张莉松花江下游富锦段沿江恢复湿地植物多样性湿地科学, 2016, 14(6): 883-887.

  • 编著

    1.中国沼泽志(第二版), 科学出版社, 2023年出版. (参编)

    2. 山东省国家湿地公园基础调查与建设质量评估, 山东科学技术出版社, 2023年出版. (主编)

    3. 黄河三角洲生态学野外实习教程, 山东科学技术出版社, 2023年出版. (参编)

    4. 黄河三角洲柽柳技术生态特征与抚育提升技术, 科学技术出版社, 2021年出版. (参编)

  • 专利

   1.利用春季农田退水恢复退化芦苇湿地的方法(3/9), ZL202011191572.4

   2. 基于数据分析的滨海湿地生态系统碳储量调节管理系统(4/5), ZL202210418292.5

   3. 一种利用芦苇茎秆无性繁殖恢复退化湿地植被的方法(3/8), ZL201910851392.5

   4.一种快速恢复退化芦苇湿地的方法(2/5), ZL201611178995.6

   5. 利用微地形构建提高扁秆藨草群落稳定性的恢复方法(2/5), ZL201711160844.2

   6.一种重度苏打盐碱湿地重建扁秆荆三棱植被的方法(11/11), ZL202010227759.9

   7.一种提高出苗率和缩短出苗时间的扁秆荆三棱球茎贮存方法(5/5), ZL201710600779.4

   8. 一种提升扁秆荆三棱种群密度的补水方法(5/5), ZL201710612126.8

   9.一种用于湿地植物群落调查的装置(3/7), ZL201922272280.2

   10.一种便携式样框(3/9), ZL201921931782.5

   11. 一种用于样方调查的计量装置(3/8), ZL201921499181.1

   12.一种测定不同土层枯落物分解速率的装置(4/7), ZL201922267529.0

   13. 一种用于刈割湿地挺水植物装置(3/9), ZL 02021927589.7

   14.一种沙质河床沉积物孔隙水采集装置(9/9), ZL202022106955.9

  • 培养研究生

2024级:张开鹏

2023级:刘雪鹏