Kim Yrjälä

作者:时间:2019-03-06点击数:

Kim Yrjälä(芬兰), 芬兰赫尔辛基大学博士,教授 (外籍教师)

研究方向

-香榧种植园微生物及分子生态与生物炭、有机肥料、植物生长,植物健康和土壤质量的关联。

-热带泥炭分解在土地利用变化中的应用。

-油棕种植园及微生物群落在碳和氮循环中的作用。

-污染和原始生态系统中的内生菌微生物生态学。

-竹子在可持续发展中的分子生物学/生态学。

工作经历

2018.03-今 浙江农林大学 教授

2017.09-2018.03 芬兰赫尔辛基大学,林业系 副教授

2004-2017.08 芬兰赫尔辛基大学,生物科学系 副教授

2002-2017.08 芬兰赫尔辛基大学,生物科学系, MEM研究项目 项目负责人

学习经历

1997 芬兰赫尔辛基大学 博士

1982 芬兰奥博大学(Åbo Akademi University) 硕士

参与科研项目

2017-2021 Tropical peat decomposition under land-use change: adaptation to resources and conditions(TROPDEC), 芬兰科学院,在研。

2015-2019 INSURE, Innovative sustainable remediation. Interreg, Central Baltic,欧盟项目,金额约180万欧元,在研。

2011-2012 Metagenomics of petroleum hydrocarbon polluted soil by deep sequencing: the effect of oil pollution on structural and functional microbial diversity,芬兰Nessling基金会,金额约3万欧元。

2010 Metagenomics of petroleum hydrocarbon polluted soil to benefit bioremediation – capture of pathway networks,芬兰Nessling基金会,金额约3万欧元。

2008-2010 Sustainable cultivation methods for agriculture – increasing soil crop cover and optimizing ecosystem services of soil microorganisms. Henvi,芬兰赫尔辛基大学科研基金。

2006-2009 Functional diversity of microorganisms involved in the methane cycle of peatlands,芬兰科学院。

2006-2008 Endophytic bacteria for enhancement of phytoremediation,芬兰Nessling基金会,金额约8万欧元。

2004-2005 Development of DNA Macro array for the assay of biodegradation genes of environmental pollutants,芬兰Nessling基金会,金额约2万欧元。

论文与专著(按发表年份排列)

1.Feng, Y., Hu, Y., Wu, J., Chen, J.,Yrjälä, K., Yu, W. 2019.Change in microbial communities, soil enzyme and metabolic activity in a Torreya grandis plantation in response to root rot disease.Forest Ecology and Management, 432: 932-941.

2.Juottonen, H, Eiler, A., Biasi, C., Tuittila, E-S,Yrjälä, K.and Fritze, H. 2017.Distinct Anaerobic Bacterial Consumers of Cellobiose-Derived Carbon in Boreal Fens with Different CO2/CH4 Production Ratios.Applied and Environmental Microbiology, 83: e02533-16.

3.Khoeia, NS., Lampis, S., Zonaroa, E.,Yrjälä, K., Bernardic, P., Vallini, G. 2017.Insights into selenite reduction and biogenesis of elemental selenium nanoparticles by two environmental isolates of Burkholderia fungorum.New Biotechnology34:1-11.

4.Batool, R.,Yrjälä, K., Hasnain, S. 2015.Study on cellular changes and potential endotrophy of wheat roots due to colonization of Chromium reducing bacteria,International Journal of Science and Technology, 12: 3263-3272.

5.Mukherjee, S., Sipilä, T., Pulkkinen, P. &Yrjälä, K.2015.Secondary successional trajectories of structural and catabolic bacterial communities in oil-polluted soil planted with hybrid poplar.Molecular Ecology, 24:628-642.

6.Generóa, MM., Juottonen, H., Robroekc, BJM.,Yrjälä, K., Danielsson, Å., Lindgren, PE. and Svensson, BH. 2015. Nitrogen and methanogen community composition within and among three Sphagnum dominated peatlands in Scandinavia.Soil Biology & Biochemistry, 81: 204-2011.

7.Mukherjee, S., Juottonen, H., Siivonen, P., Lloret Quesada, C., Tuomi, P., Pulkkinen, P. andYrjälä, K.2014.Spatial patterns of microbial diversity and activity in an aged creosote contaminated site.The ISME Journal8: 2131–2142.

8.Mukherjee S., M. Heinonen, M. Dequivre, T. Sipilä, P. Pulkkinen,K. Yrjälä.2013. Secondary succession of bacterial communities and co-occurrence of phylotypes in oil-polluted Populus rhizosphere.Soil Biology and Biochemistry58: 188-197.

9.Sipilä, T.,Yrjälä, K., Alakukku, L., Palojärvi, A. 2012.Cross-site soil microbial communities under tillage regimes: fungistasis and microbial biomarkers.Applied and Environmental Microbiology. 78: 8191–8201.

10.Galand, P.E.,Yrjälä, K.& Conrad, R. 2010.Stable carbon isotope fractionation during methanogenesis in three boreal peatland ecosystems.Biogeosciences, 7: 3893–3900.

11.Sipilä T., Väisänen, P., Paulin L. &Yrjälä, K.2010.Sphingobium sp. HV3 is a degrader of PAHs and herbicides containing the ortho- and meta-degradation pathways of aromatics.Biodegradation, 21: 771-784.

12.Putkinen, A., Juottonen, H., Juutinen, S.,Tuittila, E-S, Fritze,H. &Yrjälä, K.2009.Archaeal rRNA diversity and methane production in deep boreal peat. FEMS microbiology ecology 70, 87-98.

13.Sipilä, T.P., Keskinen, A-K., Åkerman, M-L., Fortelius, C., Haahtela,K. &Yrjälä, K.2008. High aromatic ring-cleavage diversity in birch rhizosphere: PAH-treatment specific changes of I.E.3 extradiol dioxygenase- and 16S rRNA bacterial communities in soil.The ISME Journal, Nature Publishing Group (NPG) 2: 968-982.

14.Juottonen, H., Juutinen, S., Tuittila, E-S.&Yrjälä, K.2008. Seasonality of methane production and communities of methanogenic Archaea in a boreal fen.The ISME Journal, 2: 1157–1168.

15.Juottonen H, Galand PE, Fritze H, &Yrjälä K.2005.Methanogen communities and bacteria along ecohydrological gradient in northern raised bog complex.Environmental Microbiology7: 1547-1557.

16.Galand, PE., H., Fritze, H., Conrad, R. &Yrjälä, K.2005. Pathways for Methanogenesis and Diversity of Methanogenic Archaea in Three Boreal Peatland Ecosystems.Applied and Environmental Microbiology71: 2195-2198.

17.Yrjälä, K., Katainen, R., Jurgens, G., Saarela, U., Saano, A., Romantschuk, M. & Fritze, H. 2004.Wood ash fertilization alters the forest humus Archaea community.Soil Biology & Biochemistry36:199-201.

18.Galand, P., Fritze, H. &Yrjälä, K.2003.Microsite-dependent changes in Methanogenic Populations in a Boreal Oligotrophic Fen.Environmental Microbiology5:1133-1143.

19.Galand, P., Saarnio, S., Fritze, H. &Yrjälä, K.2002.Depth related diversity of methanogen archaea in Finnish oligotrophic fen.FEMS Microbiology Ecology42: 441-449.

联系方式

通讯地址

浙江省杭州市临安区武肃街666号,浙江农林大学智能楼S204室,邮编311300

Room S204, State Key Laboratory of Subtropical Silviculture, Zhejiang A&F University, 666 Wusu Road, Lin'an District, Hangzhou, Zhejiang, 311300, China

电子邮件 email:kim.yrjala@zafu.edu.cn

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