個(gè)人簡(jiǎn)歷

學(xué)士 1983，農(nóng)學(xué)，浙江農(nóng)業(yè)大學(xué)（現(xiàn)浙江大學(xué)）

碩士 1988，農(nóng)學(xué)，浙江農(nóng)業(yè)大學(xué)

博士 1998，土壤學(xué)，浙江農(nóng)業(yè)大學(xué)

工作經(jīng)歷

14-北京大學(xué)特聘教授

04-13 中國農(nóng)業(yè)大學(xué)資源與環(huán)境學(xué)院特聘教授

02-04 德國馬普學(xué)會(huì)陸地微生物學(xué)研究所博士后

00-02 日本名古屋大學(xué)JSPS特別研究員

88-00 中國水稻研究所助理研究員

99 菲律賓國際水稻研究所研究項(xiàng)目顧問

95-98 菲律賓國際水稻研究所博士論文研究生

83-85 浙江省上虞農(nóng)業(yè)局技術(shù)員

學(xué)術(shù)任職

主任 中國土壤學(xué)會(huì)名詞工作委員會(huì)

副主任 中國土壤學(xué)會(huì)土壤生物和生化專業(yè)委員會(huì)

副主任 中國生態(tài)學(xué)會(huì)微生物生態(tài)專業(yè)委員會(huì)

編委 Applied and Environmental Microbiology (ASM)

編委 FEMS Microbiology Ecology (Wiley)

編委 Microbial Ecology (Springer)

編委 ACTA GEOLOGICA SINICA English Edition (GSC)

研究方向：

土壤微生物學(xué)、 微生物地理學(xué)、生物地球化學(xué)。

目前主要興趣包括：

厭氧微生物的過程與機(jī)理；厭氧微生物的環(huán)境適應(yīng)與進(jìn)化；甲烷產(chǎn)生和氧化的微生物機(jī)理；微生物過程的環(huán)境調(diào)控作用；微生物地理分布規(guī)律。所采用的主要研究手段包括：分子生物學(xué)技術(shù)、環(huán)境基因組學(xué)、單細(xì)胞測(cè)序技術(shù)、穩(wěn)定同位素示蹤技術(shù)等。

研究項(xiàng)目舉例：

國家自然科學(xué)基金重點(diǎn)：水稻土甲烷氧化的微生物機(jī)理與關(guān)鍵調(diào)控因子（2012）

國家自然科學(xué)基金重點(diǎn)：干濕交替條件下水稻土的碳循環(huán)特征及微生物學(xué)機(jī)理（2009）

1.Ma K, R Conrad, Y Lu*. 2013. Dry/wet cycles change the activity and population dynamics of methanotrophs in rice field soil. Applied and Environmental Microbiology 79:4932-4939.

2.Cheng L, J Rui, Q Li, H Zhang, Y Lu*. 2013. Enrichment and dynamics of novel syntrophs in a methanogenic hexadecane-degrading culture from a Chinese oilfield. FEMS Microbiology Ecology. 83:757-766

3.Gan Y, Q Qiu, P Liu, J Rui, Y Lu*. 2012. Syntrophic oxidation of propionate in rice field soil at 15 and 30°C under methanogenic conditions. Applied and Environmental Microbiology. 78:4923-4932.

4.Conrad R, K Melanie, Y Lu, A Chidthaisong. 2012. Methanogenic pathway and archaeal communities in three different anoxic soils amended with rice straw and maize straw. Frontiers in Microbiology 3:4. doi: 10.3389/fmicb.2012.00004.

5.Conrad R, K Melanie, Q Yuan, Y Lu, A Chidthaisong. 2012. Stable carbon isotope fractionation, carbon flux partitioning and priming effects in anoxic soils during methanogenic degradation of straw and soil organic matter. Soil Biology and Biochemistry 49:193-199.

6.Lü Z, Y Lu*. 2012. Methanocella conradii sp. nov., a thermophilic, obligate hydrogenotrophic methanogen, isolated from Chinese rice field soil. PLoS ONE 7(4): e35279. doi:10.1371/journal.pone.0035279.

7.Lü Z, Y Lu*. 2012. Complete genome sequence of a thermophilic methanogen, Methanocella conradii HZ254, isolated from Chinese rice field soil. Journal of Bacteriology 194:2398-2399.

8.Ke X, Y Lu*. 2012. Adaptation of ammonia-oxidizing microbes to environment shift of paddy field soil. FEMS Microbiology Ecology 80:87-97.

9.Yuan Q, P Liu, Y Lu*. 2012. Differential responses of nirK- and nirS-carrying bacteria to denitrifying conditions in the anoxic rice field soil. Environmental Microbiology Reports 4:113-122.

10.Ma K, R Conrad, Y Lu*. 2012. Responses of methanogen mcrA genes and their transcripts to an alternate dry/wet cycle of paddy field soil. Applied and Environmental Microbiology 78:445-454.

11.Xu Y, K Ma, S Huang, L Liu, Y Lu*. 2012. Diel cycle of methanogen mcrA transcripts in rice rhizosphere. Environmental Microbiology Reports 4:655-663.

12.Cheng L, L Dai, X Li, H Zhang, Y Lu*. 2011. Isolation and characterization of Methanothermobacter crinale sp. nov., a novel hydrogenotrophic methanogen from the Shengli oil field. Applied and Environmental Microbiology 77:5212-5219.

13.Rui J, Q Qiu, Y Lu*. 2011. Syntrophic acetate oxidation under thermophilic methanogenic condition in Chinese paddy field soil. FEMS Microbiology Ecology 77:264–273.

14.Liu P, Q Qiu, Y Lu*. 2011. Syntrophomonadaceae-affiliated species as active butyrate-utilizing syntrophs in paddy field soil. Applied and Environmental Microbiology 77:3884-3887.

15.Ma K, Y Lu*. 2011. Regulation of microbial methane production and oxidation by intermittent drainage in rice field soil. FEME Microbiology Ecology 75: 446-456.

16.Yuan Y, R Conrad, Y Lu*. 2011. Transcriptional response of methanogen mcrA genes to oxygen exposure of rice field soil. Environmental Microbiology Reports 3:320-328.

17.Fan F, F Zhang, Y Lu*. 2011. Linking plant identity and interspecific competition to soil nitrogen cycling through ammonia oxidizer communities. Soil Biology and Biochemistry 43: 46-54.

18.Lu Y*, R Conrad. 2010. Stable Isotope Probing and Plants. In: JC Murrell and A Whiteley (eds). Stable Isotope Probing and Related Technologies. ASM Press, Washington, DC, pp 151-163.

19.Ma K, Q Qiu, Y Lu*. 2010. Microbial mechanism for rice variety control on methane emission from rice field soil. Global Change Biology 16: 3085-3095.

20.Chen# Y, L Wu#, R Boden, A Hillebrand, D Kumaresan1, H Moussard, M Baciu, Y Lu, JC Murrell. 2009. Life without light: microbial diversity and evidence of sulfur- and ammonium-based chemolithotrophy in Movile Cave. The ISME Journal 3:1094 – 1104. (#shared first author)

21.Qiu Q, R Conrad, Y Lu*. 2009. Cross feeding of methane carbon among bacteria on rice roots revealed by DNA-stable isotope probing. Environmental Microbiology Reports 1:355 – 361.

22.Rui J, J Peng, Y Lu*. 2009. Succession of bacterial populations during plant residue decomposition in rice field soil. Applied & Environmental Microbiology 75: 4879-4886.

23.Wang Y, X Ke, L Wu, Y Lu*. 2009. Community composition of ammonia-oxidizing bacteria and archaea in rice field soil as affected by nitrogen fertilization. Systematic & Applied Microbiology 32: 27-36.

24.Wu L, K Ma, Y Lu*. 2009. Prevalence of betaproteobacterial sequences in nifH gene pools associated with roots of modern rice cultivars. Microbial Ecology 57: 58-68.

25.Wu L, K Ma, Y Lu*. 2009. Rice roots select for type I methanotrophs in rice field soil. Systematic & Applied Microbiology 32: 421-428

26.Wu L, K Ma, Q Li, X Ke, Y Lu*. 2009. Composition of archaeal community in a paddy field as affected by rice cultivar and N fertilizer. Microbial Ecology 58:819 – 826.

27.Yuan Q, Y Lu*. 2009. Response of methanogenic archaeal community to nitrate addition in rice field soil. Environmental Microbiology Reports 1:362 – 369.

28.Yuan Y, R Conrad, Y Lu*. 2009. Responses of methanogenic archaeal community to oxygen exposure in rice field soil. Environmental Microbiology Reports 1:347 – 354.

29.Fan F, F Zhang, Z Qu, Y Lu*. 2008. Plant carbon partitioning below ground in the presence of different neighboring species. Soil Biology & Biochemistry 40:2266-2272.

30.Peng J, Z Lü, J Rui, Y Lu*. 2008. Dynamics of the methanogenic archaeal community during plant residue decomposition in an anoxic rice field soil. Applied & Environmental Microbiology 74:2894-2901.

31.Qiu Q, M Noll, W-R Abraham, Y Lu, R Conrad. 2008. Applying stable isotope probing of phospholipid fatty acids and rRNA in a Chinese rice field to study activity and composition of the methanotrophic bacterial communities in situ. The ISME Journal 2:602-614.

32.Yang L, FS Zhang, RZ Mao, XT Ju, XB Cai, Y Lu*. 2008. Conversion of natural ecosystems to cropland increases the soil net nitrogen mineralization and nitrification in Tibet. Pedosphere 18:699-706.

33.Lu Y, W-R Abraham, R Conrad. 2007. Spatial variation of active microbiota in the rice rhizosphere revealed by in situ stable isotope probing of phospholipid fatty acids. Environmental Microbiology 9:474-481.

34.Lu Y, D Rosencrantz, W Liesack, R Conrad. 2006. Structure and activity of bacterial community inhabiting rice roots and the rhizosphere. Environmental Microbiology 8: 1351-1360.

35.Lu Y, R Conrad. 2005. In situ stable isotope probing of methanogenic archaea in the rice rhizosphere. Science 309:1088-1090.

36.Lu Y, T Lueders, MW Friedrich, R Conrad. 2005. Detecting active methanogenic populations on rice roots using stable isotope probing. Environmental Microbiology 7:326-336.

37.Lu Y*, J Murase, A Watanabe, A Sugimoto, M Kimura. 2004. Linking microbial community dynamics to rhizosphere carbon flow in a wetland rice soil. FEMS Microbiology Ecology 48:179-186.