个人简介
黄志群研究员,1973年7月生,2007年毕业于澳大利亚Griffith University获博士学位,国家杰出青年基金获得者,博士生导师。2011年-2018年分别入选中组部万人计划科技领军人才、百千万人才工程国家级人选、国家有突出贡献的中青年专家、科技部中青年领军人才、教育部新世纪人才、福建省百人计划和闽江学者特聘教授。SCI期刊Plant Growth regulation副主编,Journal of Soils and Sediments责任编委,2015年国际森林土壤学研讨会共同主席(2015年10月,福州)。长期从事人工林经营和森林土壤学研究工作。主持国家自然科学基金等多项科研项目。 发表SCI论文40篇(第一作者和通讯作者30篇),其中I区25篇,II区6篇。特邀参与撰写英文专著1部。
教育:
博士,2004年5月-2008年5月,Griffith University Australian School of Environment, Brisbane Australia
硕士,1995年9月-1998年7月,福建林学院,南平,福建
学士,1991年9月-1995年7月,福建林学院,南平,福建
工作:
(1)研究员/闽江学者特聘教授,2011年-至今,福建师范大学地理学院,福州
(2)博士后,2009年1月-2011年2月,新西兰林业研究所,基督城
(3)研究助理,2008年6月-12月,西澳大利亚大学,珀斯
(4)副研究员,2004年1月-4月,中国科学院沈阳应用生态研究所,沈阳
(5)助理研究员,2001年7月-2003年12月,中国科学院沈阳应用生态研究所,沈阳
(6)研究实习员,1998年7月-2001年6月,中国科学院沈阳应用生态研究所,沈阳
(7)Visiting Professor, 20/07/2018-15/10/2018,Griffith University,Australia
(8)Visiting Scientist, 20/09/2014-15/7/2015,Dept. of Ecology and Evolutionary Biology, Kansas Biological Survey, The University of Kansas, USA..
(9)Visiting Scientist, 21/09/2003-15/2/2004,Griffith University, Australia.
(10)Visiting Scientist, 15/03/2000-15/9/2000,Charles Sturt University, Australia.
研究领域
My research characterizes the features governing nitrogen and carbon fluxes in forest ecosystems, and how these dynamics are influenced by environmental change and tree species. I focus on globalscale perturbations (e.g., elevated carbon dioxide, altered nitrogen availability) in an effort to predict how Earth’s biogeochemical cycles – and their dependencies on each other – will function in the future. Such work is critical for understanding the forest ecosystem production of our planet.
近期论文
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(* indicate students working under my supervision)
1.Shi XZ, Hu HW, Wang JQ, He JZ, Zheng CY, Wan XH*, Huang ZQ. 2018Ammonia-oxidizing archaea outcompete comammox Nitrospira and ammonia-oxidizing bacteria in an acidic subtropical forest soil under elevated nitrogen deposition. Soil Biology and Biochemistry 126:114-122
2. Hu ZH*, Michaletz ST, Johnson DJ, McDowell NG, Huang ZQ, Zhou XH, Xu C. 2018. Traits drive global wood decomposition rates more than climate. Global Change Biology 24:5259-5269
3. Wan XH*, Xiao LJ*, Vadeboncoeur MA, Johnson CE, Huang ZQ. 2018 Response of mineral soil carbon storage to harvest residue retention depends on soil texture: A meta-analysis. Forest Ecology and Management, 408: 9–15
4. Yu ZP*, Wang MH*, Huang ZQ, Lin TC, Vadeboncoeur MA, Searle EB, Chen HYH. 2018 Temporal changes in soil C-N-P stoichiometry over the past 60 years across subtropical China. Global Change Biology, 24: 1308–1320.
5. Huang ZQ, Chang S, Clinton PW, Johnson CE, Wang HL, Xu, ZH. 2017 Preface to the Special Issue for the 8th International Symposium on Forest Soils: Linking Soil Processes to Forest Productivity and Water Protection under Global Change. Journal of Soils and Sediments, 17: 2215-2217.
6. Wang MH*, Xue JM, Huang ZQ, Horswell J, Kimberley MO. 2017 Long-term biosolids application alters soil microbial community composition and nutrient status in a pine plantation. Biology and Fertility of Soils, 53: 799-809
7. Hu ZH*, Xu CG, Mcdowell NG, Johnson DJ, Wang MH, Luo YQ, Zhou XH, Huang ZQ. 2017. Linking microbial community composition to wood C loss during wood decomposition. Soil Biology and Biochemistry, 104: 108–116.
8. Liu RQ*, Huang ZQ, McCormack ML, Zhou XH, Wan XH, Yu ZP, Wang MH, Zheng LJ. 2017. Plasticity of fine-root functional traits in the litter layer in response to nitrogen addition in a subtropical forest plantation. Plant Soil, 415: 317-330.
9.He ZM, Yu ZP*, Huang ZQ,Davis MR, Yang YS. 2016. Litter decomposition, residue chemistry and microbial community structure under two subtropical forest plantations: A reciprocal litter transplant study. Applied Soil Ecology, 101:84-92.
10. Huang ZQ, Liu B, Davis MR, Sardans J, Peñuelas J, Billings S. 2016. Long-term nitrogen deposition linked to reduced water use efficiency in forests with low phosphorus availability. New Phytologist 210: 431-442.
11.Yu ZP*, Huang ZQ, Wang MH, Liu RQ, Zheng LJ, Wan XH, Hu ZH, Davis MR, Lin TC. 2015 Nitrogen addition enhances home-field advantage during litter decomposition in subtropical forest plantations. Soil Biology and Biochemistry90:188-196.
学术兼职
中国林学会森林生态专业委员会常务理事,福建省地理学会常务理事