HUANG Heng

Associate Professor / Doctoral supervisor

Direction:Biodiversity

Research Area:植物生态学、全球变化生态学、生态系统生态学

Email: huangh557@mail.sysu.edu.cn

基本信息

姓名:黄恒

性别:  

职称:副教授

导师类型:博士生导师

研究方向:植物生态学、全球变化生态学、生态系统生态学

电子邮箱:huangh557@mail.sysu.edu.cn

 

课题组长期招收:

(1)生态学、自然地理学、环境科学等方向的博士后:提供良好待遇,支持申请国际交流项目和中山大学逸仙博士后项目【综合年薪不低于50万】

(2)生态学、自然地理学、植被遥感等方向的科研助理(硕士学位以上)

(3)生态学博士和硕士研究生

研究内容

基于结合全球数据集(如碳通量数据、树轮数据等)、生态学理论以及野外控制实验探究:

(1)植物功能性状关系及植物生长动态规律

(2)陆地生态系统碳循环过程对气候变化的响应及其机制(聚焦但不局限于森林生态系统)

(3)生态系统稳定性变化规律及其驱动机制 

教育经历

  • 2020/12,美国加州大学伯克利分校,环境科学、政策与管理博士;
  • 2016/06,兰州大学,生态学硕士;
  • 2013/06,兰州大学,生态学学士;

工作经历

  • 2023/12-至今,中山大学,副教授;
  • 2023/03-2023/11,香港大学,博士后;
  • 2021/01-2023/02,美国德州农工大学,博士后;

学术兼职

  • Functional Ecology 编委(2023/05-至今)
  • Journal of Plant Ecology 青年编委(2023/11-至今)

奖励荣誉

  • 2023    美国博物学家学会“青年科学家奖”
  • 2022    美国生态学会亚洲分会“青年生态学家奖”
  • 2022    美国生态学会青年生态学家分会“杰出论文奖”
  • 2021    U.S. Carbon Program Leadership Award
  • 2020    国家优秀自费留学生奖学金

主持项目

  • 国家高层次青年人才项目
  • 中山大学引进人才基本启动费
  • 中央高校基本科研业务费项目
  • 加州大学伯克利分校, Yang & Kuni 环境管理基金
  • 加州大学伯克利分校, Baird 研究生野外研究基金
  • 美国 Sigma Xi 自然科学荣誉学会,Sigma Xi 伯克利分会研究基金资助项目
  • 加州大学伯克利分校, 201C Starter Grant 启动基金
  • 加州大学伯克利分校, 加州大学气候变化生态影响研究所科研基金

代表性论著(*通讯作者)

  1. Huang, H.*, I. Rodriguez-Iturbe, and S. Calabrese*. 2024. Widespread temporal and spatial variability in net ecosystem productivity under climate change. One Earth. 7:473–482.
  2. Huang, H.*, J. Wu, and S. Calabrese*. 2023. Emergent climatic controls on soil carbon turnover and its variability in warm climates. Geophysical Research Letters. 50: e2023GL105291.
  3. Wang Z., H. Huang*, H. Wang, J. Peñuelas, J. Sardans, Ü. Niinemets, K. J. Niklas, Y. Li, J. Xie, and I. Wright. 2022. Leaf water content contributes to global leaf trait relationships. Nature Communications. 13:5525.
  4. Huang, H., S. Calabrese, and I. Rodriguez-Iturbe. 2021. Variability of ecosystem carbon source from microbial respiration is controlled by rainfall dynamics. PNAS. 118:e2115283118.
  5. Huang, H., C. Tu, and P. D’Odorico. 2021. Ecosystem complexity enhances the resilience of plant-pollinator systems. One Earth. 4:1286–1296.
  6. Huang, H.#, J. Ran#, M. Ji, Z. Wang, L. Dong, W. Hu, Q. Du, C. Hou, K. Niklas, and J. Deng. 2020. Water content quantitatively affects metabolic rates over the course of plant ontogeny. New Phytologist. 228:1524–1534. (# contributed equally)
  7. Huang, H.*, L. Anderegg, T. Dawson, S. Mote, and P. D’Odorico. 2020. Critical transition to woody plant dominance in North American coastal ecosystems. Ecology. 101:e03107.
  8. Huang, H.#, J. Ran#, X. Li, Z. Wang, R. Chen, F. Wu, M. Ye, F. Jia, K. J. Niklas, and J. Deng. 2020. A general model for seed and seedling respiratory metabolism. The American Naturalist. 195:534–546. (# contributed equally)
  9. Wang, Z.#, K. Yu#, S. Lv, K. Niklas, T. D. Mipam, T. Crowther, M. Umaña, Q. Zhao*, H. Huang*, and P. Reich. 2019. The scaling of fine root nitrogen versus phosphorus in terrestrial plants: a global synthesis. Functional Ecology. 33:2081–2094.
  10. Huang, H.*, J. Zinnert, L. Wood, D. Young, and P. D’Odorico. 2018. Non-linear shift from grassland to shrubland in temperate barrier islands. Ecology. 99:1671–1681.

其它论著

  1. Huang, H.*, P. A. Tuley, C. Tu*, J. C. Zinnert, I. Rodriguez-Iturbe, and P. D’Odorico*. 2021. Microclimate feedbacks sustain power law clustering of encroaching coastal woody vegetation. Communications Biology. 4:745.
  2. Wang, Z.#, M. Wang#, K. Yu, H. Hu, Y. Yang, P. Ciais, A. Ballantyne, K. Niklas, H. Huang*, B. Yao*, and J. Wright. 2021. Global synthesis for the scaling of soil microbial nitrogen to phosphorus in terrestrial ecosystems. Environmental Research Letters. 16:044034.
  3. Wang Z.#, H. Bu#, H. Huang*, and K. Niklas. 2020. Allocation strategies for seed nitrogen and phosphorus in an alpine meadow along an altitudinal gradient on the Tibetan Plateau. Frontiers in Plant Science. 11:614644.
  4. Huang, H.*, K. Yu, and P. D’Odorico. 2020. CAM plant expansion favored indirectly by asymmetric climate warming and increased rainfall variability. Oecologia. 193:1–13.   
  5. Wang Z.#, S. Lv#, H. Song, M. Wang, Q. Zhao, H. Huang*, and K. Niklas. 2020. Plant type dominates fine-root C:N:P stoichiometry across China: A meta-analysis. Journal of Biogeography. 47:1019–1029.
  6. Huang, H.*, K. Yu, Y. Fan, and P. D’Odorico. 2019. The competitive advantage of C4 grasses over CAM plants under increased rainfall variability. Plant and Soil. 442:483–495.
  7. Huang, H.*, J. C. Zinnert, L. K. Wood, D. R. Young, and P. D’Odorico. 2018. Non-linear shift from grassland to shrubland in temperate barrier islands. Photo Gallery. The Bulletin of the Ecological Society of America. 99:e01421.
  8. Wang, Z., Z. Fan, Q. Zhao, M. Wang, J. Ran*, H. Huang*, and K. J. Niklas. 2018. Global data analysis shows that soil nutrient levels dominate foliar nutrient resorption efficiency in herbaceous species. Frontiers in Plant Science. 9:1431.
  9. Wang, Z#., M. Zhao#, Z. Yan, Y. Yang, K. J. Niklas, H. Huang, T. Donko Mipam, X. He, H. Hu, and S. Joseph Wright. 2022. Global patterns and predictors of soil micrbial biomass carbon, nitrogen, and phosphorus in terrestrial ecosystems. Catena. 211: 106037.
  10. Hu, WG, … H. Huang, … J. Deng. 2021. Aridity-driven shift in biodiversity–soil multifunctionality relationships. Nature Communications. 12:5350.
  11. Wang, Z., H. Huang, B. Yao, J. Deng, Z. Ma, and K. Niklas. 2021. Divergent scaling of fine-root nitrogen and phosphorus in different root diameters, orders and functional categories: A global meta-analysis. Forest Ecology and Management. 495:119384.
  12. Chen R., J. Ran, H. Huang, L. Dong, Y. Sun, M. Ji, W. Hu, S. Yao, J. Lu, H. Gong, S. Xie, Q. Du, Q. Hou, K. J. Niklas, and J. Deng. 2019. Life history strategies drive size-dependent biomass allocation patterns of dryland ephemerals and shrubs. Ecosphere. 10:e02709.
  13. Fan Y., X. Li, H. Huang, X. Wu, K. Yu, J. Wei, C. Zhang, P. Wang and P. D’Odorico. 2019. Does phenology play a role in the feedbacks underlying shrub encroachment? Science of The Total Environment. 657:1064–1073.
  14. Wang, Z., H. Huang, X. Li, K. Mao, J. Ran, and J. Deng. 2018. Allocation of nitrogen and phosphorus within and between needles, stems and roots of Picea seedlings. Nordic Journal of Botany. 36: e01952.
  15. Wang, Z., H. Huang, J. Deng, and J. Liu. 2015. Scaling relationship of respiratory metabolism to phosphorus in plants. Scientific Reports. 5:16377.
  16. Wang, Z., M. Ji, J. Deng, R. I. Milne, J. Ran, Q. Zhang, Z. Fan, X. Zhang, J. Li, H. Huang, D. Cheng, and K. J. Niklas. 2015. A theoretical framework for whole-plant carbon assimilation efficiency based on metabolic scaling theory: a test case using Picea seedlings. Tree Physiology. 35:599–607.
  17. Wang, Z., H. Huang, J. Li, X. Li, R. Chen, B. Yao and J. Deng. 2014. Allometric scaling relationships of Picea seedlings. Pratacultural Science (in Chinese). 31:415–422.