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林学院举行学术报告会
发布日期:2016-12-06 16:46:48      发布单位:林学院
林学院举行学术报告会
 
    报告题目一:Carbon storage in forest soils
    报告时间:2016年12月7日(周三) 下午13:30
    报 告 人:Prof. Douglas L. Godbold
    报告题目二:Climate change and forests
    报告时间:2016年12月7日(周三) 下午15:30
    报 告 人:Prof. Douglas L. Godbold
    地 点:丹青楼422(教务处多媒体录播教室)
    报告人简介:
    (一)Prof. Douglas L. Godbold
    维也纳自然资源和生命科学大学(原维也纳农业大学)教授,世界知名的林学家和生态学家。担任林学(Forestry)以及植物营养和土壤科学(Journal of Plant Nutrition & Soil Science)两个期刊的编委。同时是以下国际主流刊物的特约审稿人植物和土壤(Plant & Soil)、加拿大林业研究(Canadian Journal of Forestry Research)、森林生态学和经营(Forest Ecology & Management)、全球变化生物学(Global Change biology)、植物生理学和生物化学(Plant Physiology & Biochemistry)、植物生态学(Plant Ecology)、水、空气和土壤污染(Water Air & Soil Pollution)、树木生理学(Tree Physiology)、加拿大植物学(Canadian Journal of Botany)、臭氧层生态学通讯(Chemosphere Ecology Letters)、环境污染(Environmental Pollution)、干旱环境(Journal of Arid Environments)、环境质量(Journal of Environmental Quality)、实验植物学杂志(Journal of Experimental Botany )、植物生理学(Journal of Plant Physiology)、热带生态学(Journal of Tropical Ecology)、新植物学家(New Phytologist)、土壤生物学(Pedobiologia)、植物细胞和环境(Plant Cell & Environment)、扫描显微镜(Scanning Microscopy)。
    1、主要学习经历
     1976—1979年,英国苏塞克斯大学(University of Sussex)生物系,理学学士;1979—1983,英国利物浦大学(University of Liverpool)植物系,博士;1983—1985,德国哥廷根大学(University of Gõttingen)森林植物研究所,博士后.
    2、主要工作经历
    1984—1986,德国哥廷根大学(University of Gõttingen),森林植物研究所,皇家学会研究奖学金;1986—1997,德国哥廷根大学(University of Gõttingen),森林植物研究所,研究员;其中1992年,加拿大埃德蒙顿阿尔伯塔大学,植物系,访问科学家;1995—1996,美国哈佛大学生物和进化生物学系,Charles Bullard Fellowship奖学金;1998—2011,英国班戈大学(Bangor University),环境、自然资源和地理学院,森林科学教授;2011—至今,维也纳自然资源和生命科学大学,森林生态研究所,森林生态学教授。
    3、近期代表文章
    Mycorrhizas and soil ecosystem function of co-existing woody vegetation islands at the alpine tree line. Plant and Soil, 2016, 1-15 (DOI: 10.1007/s11104-016-3047-2)
    Turbulent energy and carbon dioxide exchange along an early‐successional windthrow chronosequence in the European Alps, Agricultural and Forest Meteorology, 232:576-594 · January 2017(DOI: 10.1016/j.agrformet.2016.10.011)
    Increase in heterotrophic soil respiration by temperature drives decline in soil organic carbon stocks after forest windthrow in a mountainous ecosystem. Functional Ecology Early View · November 2016(DOI: 10.1111/1365-2435.12805
    Elevated Atmospheric CO2 Affects Ectomycorrhizal Species Abundance and Increases Sporocarp Production under Field Conditions. Forests. 2015, 6(4):256-1273.
    Bacterial growth and respiration responses upon rewetting dry forest soils: Impact of drought-legacy. Soil Biol Biochem. 2013, 57: 477-486.
    Elevated atmospheric CO2 and humidity delay leaf fall in Betula pendula, but not in Alnus glutinosa or Populus tremula×tremuloides. Ann Forest Sci. 2014, 71(8): 831-842.
    Elevated CO2 enrichment induces a differential biomass response in a mixed species temperate forest plantation. New Phytol. 2013, 198(1):156-168.
    Effects of Elevated CO2 on Litter Chemistry and Subsequent Invertebrate Detritivore Feeding Responses. Plos One. 2014: 9(1)
    It’s Complicated: Intraroot System Variability of Respiration and Morphological Traits in Four Deciduous Tree Species. Plant Physiol. 2014, 166(2):736-745.
    Deciduous woodland exposed to elevated atmospheric CO2 has species-specific impacts on anecic earthworms. Appl Soil Ecol. 2014, 80: 84-92.
    The production and turnover of extramatrical mycelium of ectomycorrhizal fungi in forest soils: role in carbon cycling. Plant & Soil. 2013, 366(1-2): 1-27.
    Bacterial growth and respiration responses upon rewetting dry forest soils: Impact of drought-legacy. Soil Biol Biochem. 2013, 57: 477-486.
    Drivers of increased soil respiration in a poplar coppice exposed to elevated CO2. Plant & Soil. 2013; 362(1-2): 93-106
    Tree species diversity interacts with elevated CO2 to induce a greater root system response. Global Change Biol. 2013, 19(1): 217-228.
    Evaluation of methods to estimate production, biomass and turnover of ectomycorrhizal mycelium in forests soils - A review. Soil Biol Biochem. 2013, 57: 1034-1047.
    Bacterial salt tolerance is unrelated to soil salinity across an arid agroecosystem salinity gradient. Soil Biol Biochem. 2011, 43, 1881-1887.
    Free atmospheric CO2 enrichment (FACE) did not affect symbiotic N2-fixation or soil carbon content and stabilization in a mixed deciduous stand in Wales. Biogeosciences, 2010, 8, 353-364.
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东北林业大学林学院