赵化德

赵化德

职称/头衔：副研究员/硕士研究生导师。

E-mail：hdzhao@hainanu.edu.cn

●个人简介

主要研究方向包括海洋碳源汇格局及其控制机制、海洋缺氧与海洋酸化及其生态环境效应、适应气候变化战略研究等。先后承担过国家自然科学基金、国家重点研发计划项目、国家海洋局青年基金等多项课题，发表SCI文章20余篇，获浙江省科学技术进步奖1项。长期负责国家部委我国海洋碳源汇监测与评估体系的规划、建设及产品开发等工作，主持及参与相关国家行业标准编制10余项；作为温室气体与海洋碳循环领域专家参与多项国家及部委五年规划的编制，包括：《生态环境监测规划（纲要）（2020-2035年）》、《国家适应气候变化战略2035》、《“十四五”海洋生态环境保护规划》等。

●研究方向

1） 河口与海洋碳循环研究

2） 海洋缺氧与酸化研究

3） 适应气候变化战略研究

●科研项目与课题

1.国家自然科学基金委员会,青年项目，4170060589,季节性层化对北黄海海气CO₂交换通量的影响，201801~202012, 18万元,主持

2.中华人民共和国科学技术部,国家重点研发计划子课题, 2017YFA0603003,海洋碳循环关键参数遥感产品真实性检验与质量评估, 201707~ 202112, 135万元,主持

●科研奖励

1.赵化德(11)，浙江省科技进步一等奖：陆源入海碳通量动态监测关键技术及应用示范,科技进步一等奖, 2020.

●论文与专著

[1] Liu, S. M.; Liang, W.; Guo, X.; Wu, N.; Zhang, W.; Shan, X.; Zhao, H.; Wang, J.; Huang, J.; Biogeochemistry-ecosystem-social interactions on the Chinese continental margins, Oceanologia, 2023,  65 (1):  278-296.

[2] Zhao, H.; Zhou, Y.; Wu, H.; Kutser, T.; Han, Y.; Ma, R.; Yao, Z.; Zhao, H.; Xu, P.; Jiang, C.; Gu, Q.; Ma, S.; Wu, L.; Chen, Y.; Sheng, H.; Wan, X.; Chen, W.; Chen, X.; Bai, J.; Wu, L.; Liu, Q.; Sun, W.; Yang, S.; Hu, M.; Liu, C.; Liu, D.; Potential of Mie–Fluorescence–Raman Lidar to Profile Chlorophyll a Concentration in Inland Waters,Environmental Science & Technology, 2023, 57 (38): 14226-14236.

[3] Gao, F.; Zhao, H.; Zhao, P.; Zhang, C.; Xu, G.; Liu, G.; Guo, X.; Benthic Microbial Communities and Environmental Parameters of Estuary and Hypoxic Zone in the Bohai Sea, China,Journal of Marine Science and Engineering, 2022, 10 (12): 1-14.

[4] Zhang, H.; Wei, H.; Zhao, L.; Zhao, H.; Guo, S.; Zheng, N.; Seasonal evolution and controlling factors of bottom oxygen depletion in the Bohai Sea, Marine Pollution Bulletin, 2022,  174:  113199.

[5] Zhao, H.; Dai, M.; Gan, J.; Zhao, X.; Lu, Z.; Liang, L.; Liu, Z.; Su, J.; Cao, Z.; River-dominated pCO2 dynamics in the northern South China Sea during summer: A modeling study,Progress in Oceanography, 2021, 190: 102457.

[6] Cao, Z.; Yang, W.; Zhao, Y.; Guo, X.; Yin, Z.; Du, C.; Zhao, H.; Dai, M.; Diagnosis of CO2 dynamics and fluxes in global coastal oceans,National Science Review, 2020, 7 (4): 786-797.

[7] Li, X.; Lu, C.; Zhang, Y.; Zhao, H.; Wang, J.; Liu, H.; Yin, K.; Low dissolved oxygen in the Pearl River estuary in summer: Long-term spatio-temporal patterns, trends, and regulating factors,Marine Pollution Bulletin, 2020, 151: 110814.

[8] Zang, K.; Zhang, G.; Zhao, H.; Xu, X.; Zheng, N.; Wang, J.; Zhang, G.; Multiple factors dominate the distribution of methane and its sea-to-air flux in the Bohai Sea in summer and autumn of 2014,Marine Pollution Bulletin, 2020, 154: 111049.

[9] Zhai, W.; Zhao, H.; Su, J.; Liu, P.; Li, Y.; Zheng, N.; Emergence of Summertime Hypoxia and Concurrent Carbonate Mineral Suppression in the Central Bohai Sea, China,Journal of Geophysical Research: Biogeosciences, 2019, 124 (9): 2768-2785.

[10] Xu, X.; Zheng, N.; Zang, K.; Huo, C.; Zhao, H.; Mu, J.; Wang, J.; Sun, B.; Aragonite saturation state variation and control in the river-dominated marginal BoHai and Yellow seas of China during summer,Marine Pollution Bulletin, 2018, 135: 540-550.

[11] Zhao, H.; Kao, S.; Zhai, W.; Zang, K.; Zheng, N.; Xu, X.; Huo, C.; Wang, J.; Effects of stratification, organic matter remineralization and bathymetry on summertime oxygen distribution in the Bohai Sea, China,Continental Shelf Research, 2017, 134: 15-25.