尊龙凯时 - 人生就是搏!-z6com

科研人员

王清奎研究员

  电话:024-83970206

  地址:沈阳市沈河区文化路72号
  邮箱:qwang@iae.ac.cn
  
  尊龙凯时人生就是搏z6com沈阳应用生态研究所研究员、博士生导师,尊龙凯时人生就是搏z6com森林生态与管理重点实验室骨干成员。曾多次获得尊龙凯时人生就是搏z6com沈阳分院优秀青年学者、尊龙凯时人生就是搏z6com沈阳应用生态研究所先进科技工作者。长期以来主要从事森林生态系统碳氮循环方面的研究,在土壤碳库组成、土壤有机碳分解、凋落物分解等方面取得了一系列原创性研究成果。先后主持国家重点研发计划子课题、尊龙凯时人生就是搏z6com战略性先导科技专项子课题、973项目子课题、国家自然科学基金等12项课题。已在Global Change Biology, Ecology, Soil Biology & Biochemistry, Agricultural and Forest Meteorology, Plant and Soil, Forest Ecology and Management等土壤学、生态学和林学国际主流刊物上发表论文近110篇,包括SCI论文近80余篇,第一作者(通讯作者)SCI论文近60篇;参编专著2部。
  受教育情况:
  2003—2006:尊龙凯时人生就是搏z6com沈阳应用生态所,生态学专业,获博士学位;
  2000—2003:山东农业大学,土壤学专业,获硕士学位;
  1996—2000:山东农业大学,土地管理专业,获学士学位。
  工作经历:
  2021—至今:尊龙凯时人生就是搏z6com沈阳应用生态所研究员,湖南会同森林生态系统国家观测研究站站长;
  2012—2020:尊龙凯时人生就是搏z6com沈阳应用生态所研究员,湖南会同森林生态系统国家观测研究站副站长;
  2008—2012:尊龙凯时人生就是搏z6com沈阳应用生态所副研究员,湖南会同森林生态系统国家观测研究站副站长;
  2006—2008:尊龙凯时人生就是搏z6com沈阳应用生态所助理研究员。
  国际合作与交流:
  2014.11.1—8:参加在美国加州Long Beach 举行的“作物学会、农学会和土壤学会”年会国际会议
  2010—2011:两次到德国卡尔斯鲁厄研究中心大气环境研究部气象与气候研究所进行“大气氮沉降对森林土壤碳氮转化的微生物学影响”合作研究,合作导师为Klaus Butterbach-Bahl。
  承担项目情况:
  先后主持课题主要有:
  1.国家自然科学基金面上项目“杉木林土壤微生物残体积累的分异特征及其凋落物输入的调控机制”,2022.1—2025.12,60万元(直接经费)
  2.国家重点研发计划子课题“几种杉阔混交模式对土壤有机质和养分的影响”,2021.12—2024.11,40万。
  3.尊龙凯时人生就是搏z6com沈阳应用生态研究所创新团队“人工林生态功能与提升”
  4.国家自然科学基金重点项目“杉木人工林SOM形成与转化的生物学调控机制”,2019.1—2023.12,281万元(直接经费)。
  5.国家重点研发计划子课题“氮沉降与升温对北方典型森林SOM分解的影响机理”,2016.7—2021.6,70万元。
  6.国家自然科学基金面上项目“CO2浓度升高和氮沉降对树木光合碳向SOM关键组分转化的影响”,2016.1—2019.12,75万元。
  7.森林与土壤国家重点实验室群体项目“氮沉降对森林土壤有机碳分解的影响及生物学机制”,2015.7—2018.6,75万元。
  8.尊龙凯时人生就是搏z6com沈阳应用生态研究所特色研究所项目“人工林多目标经营的理论与技术研究及示范”,2015.8—2018.12。
  9.尊龙凯时人生就是搏z6com战略性先导科技专项B“土壤-生物系统功能及其调控”子课题“典型森林土壤微生物组成及水平空间格局” 2014.6—2019.5,678万元。
  10.973项目子课题“地下生态系统碳储量与林分蓄积增长对施肥措施的响应”,2012.1—2016.12,100万元。
  11.森林与土壤国家重点实验室项目子课题“会同亚热带森林生态系统大气沉降氮去向:15N示踪研究”,2013.6—2016.5,15万元。
  12.尊龙凯时人生就是搏z6com沈阳应用生态研究所青年创新研究群体基金项目“碳输入对我国主要森林土壤碳库构成与碳循环的影响”,2012.1—2015.12,100万元。
  13.尊龙凯时人生就是搏z6com战略性先导科技专项子课题“杉木林固碳增汇技术实验示范”,2011.1—2015.12,150万元。
  14.国家自然科学基金面上项目“改变碳输入对杉木林土壤碳库构成及CO2通量的影响”,2011.1—2013.12,38万元。
  15.国家自然科学基金重点项目子课题“亚热带人工林SOC主要来源及其相对贡献”,2011.1—2014.12,40万元.
  16.中科院沈阳应用生态所青年人才领域前沿项目“氮肥对杉木人工林土壤活性有机质的影响”,2007.1—2007.12,5万元。
  获奖情况:
  1.2010年湖南省科技进步二等奖(第三完成人);
  2.2008-2013连续获得尊龙凯时人生就是搏z6com沈阳应用生态所先进工作者;
  3.2008年获尊龙凯时人生就是搏z6com沈阳分院首届优秀青年学者奖。
  
  代表性论著(*为通讯作者):
  已发表学术论文110余篇,其中SCI论文80余篇。
  1.Zhao Xuechao, Tian Peng, Liu Shengen, Yin Pan, Sun Zhaolin, Wang Qingkui*. 2022. Mean annual temperature and carbon availability respectively controlled the contributions of bacterial and fungal residues to organic carbon accumulation in topsoil across China's forests. Global Ecology and Biogeography, DOI: 10.1111/geb.13605
  2.Liu Shengen, Sun Zhaolin, Tian Peng, Zhao Xuechao, Zhou Guiyao, Peter Dietrich, Wang Qingkui*, Manuel Delgado-Baquerizo. 2022. Temperature legacies predict microbial metabolic quotient across forest biomes. Global Ecology and Biogeography, DOI: 10.1111/geb.13609
  3.Zhao Xuechao#, Tian Peng#, Liu Shengen, Sun Zhaolin, Zeng Zhangquan, Wang Qingkui*. 2022. Cunninghamia lanceolata and understory ferns had positive rhizosphere effects on the temperature sensitivity of soil microbial respiration in a subtropical forest. Geoderma 408, 115593.
  4.Zhao Xuechao, Tian Peng, Sun Zhaolin, Liu Shengen, Wang Qingkui*, Zeng Zhangquan*. 2022. Rhizosphere effects on soil organic carbon processes in terrestrial ecosystems: A meta-analysis. Geoderma 412, 115739.
  5.Fan Bo#, Yin Liming#, Dijkstra FA, Lu Jiayu, Shao Shuai, Wang Peng*, Wang Qingkui*, Cheng Weixin. 2022. Potential gross nitrogen mineralization and its linkage with microbial respiration along a forest transect in eastern China. Applied Soil Ecology 171, 104347.
  6.Tian Peng, Zhao Xuechao, Liu Shengen, Wang Qinggui, Zhang Wei, Guo Peng, Razavi BS, Liang Chao, Wang Qingkui*. 2022. Differential responses of fungal and bacterial necromass accumulation in soil to nitrogen deposition in relation to deposition rate. Science of the Total Environment 847, 157645.
  7.Tian Peng#, Zhao Xuechao#, Liu Shengen, Sun Zhaolin, Jing Yanli, Wang Qingkui*. 2022. Soil microbial respiration in forest ecosystems along a north-south transect of eastern China: Evidence from laboratory experiments. Catena 211, 105980.
  8.Jing Yanli, Ding Xueli, Zhao Xuechao, Tian Peng, Xiao Fuming, Wang Qingkui*. 2022. Non-additive effects of nitrogen and phosphorus fertilization on microbial biomass and residue distribution in a subtropical plantation. European Journal of Soil Biology 108, 103376.
  9.Jing Y, Zhao X, Liu S, Tian P, Sun Z, Chen L, Wang Qingkui*. 2022. Microbial Residue Distribution in Microaggregates Decreases with Stand Age in Subtropical Plantations. Forests 13, 1145.
  10.Zheng Sijia, Zhao X, Sun Z, Li J, Jing Y, Wang Qingkui*. 2022. Carbon addition modified the response of heterotrophic respiration to soil sieving in ectomycorrhizal-dominated forests. Forests 13, 1263.
  11.Sun Zhaolin, Wang Qingkui*, Zhu Yifan. 2022. Net carbon balance between priming and replenishment of soil organic carbon with biochar addition regulated by N addition differing in contrasting forest ecosystems. Forests 13, 1710.
  12.Zheng Wenhua, Li Renshan, Yang Qingpeng*, Zhang Weidong, Huang Ke, Guan Xin, Chen Longchi, Yu Xin, Wang Qingkui*, Wang Silong*. 2022. Allocation patterns of nonstructural carbohydrates in response to CO2 elevation and nitrogen deposition in Cunninghamia lanceolata saplings. Journal of Forestry Research, doi.org/10.1007/s11676-022-01533-x
  13.Liu Shengen, Garcia-Palacios P, Tedersoo L, Guirado E, van der Heijden MGA, Wagg C, Chen Dima, Wang Qingkui, Wang Juntao, Singh BK, Delgado-Baquerizo M. 2022. Phylotype diversity within soil fungal functional groups drives ecosystem stability. Nature Ecology & Evolution 6, 900-909.
  14.Li Renshan, Yang Qingpeng, Guan Xin, Chen Longchi, Wang Qingkui, Wang Silong, Zhang Weidong*. 2022. High quality litters with faster initial decomposition produce more stable residue remaining in a subtropical forest ecosystem. Catena 213, 106134.
  15.Chen Tian, Hong Xiaomin, Hu Yalin, Wang Qingkui, Yu Lizhong, Wang Xianwei. 2022. Effects of litter input on the balance of new and old soil organic carbon under natural forests along a climatic gradient in China. Biogeochemistry, doi.org/10.1007/s10533-022-00970-4
  16.Wei Junlan, Zhang Qianqian, Wang Qingkui, Tian Peng*. 2022. Effects of Litter Input on Temperature Sensitivity of Soil Organic Carbon Mineralization along a Forest Elevation Gradient. Forests 13, 1250.
  17.Yu Xin, Guan Xin, Xiao F, Zhang W, Yang Q, Wang Q, Wang S, Chen L. 2022. Effects of Liming on the Morphologies and Nutrients of Different Functional Fine Roots of Cunninghamia lanceolata Seedlings. Forests 13, 822.
  18.Chen Bohan, Wang J, Duan X, Zhao F, Zhang W, Guan X, Chen L, Wang Q, Wang S, Yang Q. 2022. Nitrogen Addition Decreases Rhizodepositionby Chinese Fir (Cunninghamia lanceolata (Lamb.) Hook) Seedlings and Its Distribution in Soil Aggregates. Forests 13, 1166.
  19.Yu Kailiang, van den Hoogen J, Wang Zhiqiang, Averill C, Routh D, Smith GR, Drenovsky RE, Scow KM, Mo Fei, Waldrop MP, Yang Yuanhe, Tang Weize, De Vries FT, Bardgett RD, Manning P, Bastida F, Baer SG, Bach EM, Garcia C, Wang Qingkui, Ma Linna, Chen Baodong, He Xianjing, Teurlincx S, Heijboer A, Bradley JA, Crowther TW. 2022. The biogeography of relative abundance of soil fungi versus bacteria in surface topsoil. Earth Syst. Sci. Data 14, 4339–4350.
  20.Tian Peng#, Liu Shengen#, Zhao Xuechao#, Sun Zhaolin, Yao Xiong, Niu Shuli, Crowther TW, Wang Qingkui*. 2021. Past climate conditions predict the influence of nitrogen enrichment on the temperature sensitivity of soil respiration. Communications Earth & Environment, 2:251.
  21.Wang Qingkui*#, Zhao Xuechao#, Tian Peng#, Liu Shengen, Sun Zhaolin. 2021. Bioclimate and arbuscular mycorrhizal fungi regulate continental biogeographic variations in effect of nitrogen deposition on the temperature sensitivity of soil organic carbon decomposition. Land Degradation and Development, 32, 936-945.
  22.Jing Y, Tian P, Wang Q*, Li W, Sun Z, Yang H. 2021. Effects of root dominate over aboveground litter on soil microbial biomass in global forest ecosystems. Forest Ecosystems 8: 38.
  23.Zhu Q, Wang N, Duan B, Wang Qingkui, Wang Yanping*. 2021. Rhizosphere bacterial and fungal communities succession patterns related to growth of poplar fine roots. Science of the Total Environment 756, 143839.
  24.Wang Chao, Qu L, Yang L, Liu D, Morrissey E, Miao R, Liu Z, Wang Q, Fang Y, Bai E*. 2021. Large-scale importance of microbial carbon use efficiency and necromass to soil organic carbon. Global Change Biology 27: 2039–2048.
  25.Wang S#, Bao X#, Feng K#, Deng Y*, Zhou W, Shao P, Zheng T, Yao F, Yang S, Liu S., Shi R, Bai Z, Xie H, Yu J, Zhang Y, Zhang Y, Sha L, Song Q, Liu Y, Zhou J., Zhang Y., Li H, Wang Q, Han X, Zhu Y, Liang C*. 2021. Warming-driven migration of core microbiota indicates soil property changes at continental scale, Science Bulletin. Science Bulletin 66: 2025–2035.
  26.Li Renshan, Zhang Y,Yu D, Wang Y, Zhao X, Zhang R, Zhang W, Wang Q, Xu M, Chen L, Wang S, Han J*, Yang Q*. 2021. The decomposition of green leaf litter is less temperature sensitive than that of senescent leaf litter. Geoderma 381, 114691.
  27.Liu Shengen, Wang Hang, Tian Peng, Yao Xiong, Sun Hao, Wang Qingkui*, Delgado-Baquerizo Manuel*. 2020. Decoupled diversity patterns in bacteria and fungi across continental forest ecosystems. Soil Biology & Biochemistry, 144: 107763
  28.Tian Peng, Razavi BS, Zhang Xuechen, Wang Qingkui*, Blagodatskaya E. 2020. Microbial growth and enzyme kinetics in rhizosphere hotspots are modulated by soil organics and nutrient availability. Soil Biology & Biochemistry, 141: 107662
  29.Wang Hang, Liu Shengen, Kuzyakov Yakov, Zhan Pengfei, Wang Qingkui, Hettenhausen Christian, Xiao Derong, Qi Jinfeng, Zhang Zhijian. 2020. Differentiating microbial taxonomic and functional responses to physical disturbance in bulk and rhizosphere soils. Land Degradation and Development, 31, 2858-2871.
  30.Li Renshan, Han Jianming, Guan Xin, Chi Yonggang, Zhang Weidong, Chen Longchi, Wang Qingkui, Xu Ming, Yang Qingoeng*, Wang Silong*. 2020. Crown pruning and understory removal did not change the tree growth rate in a Chinese fir (Cunninghamia lanceolata) plantation. Forest Ecology and Management 464, doi.org/10.1016/j.foreco.2020.118056
  31.Tian Peng, Liu Shengen, Wang Qingkui*, Sun Tao, Evgenia Blagodatskaya. 2019. Organic N deposition favours soil C sequestration by decreasing priming effect. Plant Soil, 445, 439–451.
  32.Sun Z, Liu S, Zhang T, Zhao X, Chen S, Wang Qingkui*. 2019. Priming of soil organic carbon decomposition induced by exogenous organic carbon input: a meta-analysis. Plant Soil, 443, 463-471.
  33.Tian Peng, Mason-Jones Kyle, Liu Shengen, Wang Qingkui*, Sun Tao. 2019. Form of nitrogen deposition affects soil organic matter priming by glucose and cellulose. Biology & Fertility of Soils, 55: 383–391.
  34.Wang Qingkui*, Zhao Xuechao, Chen Longchi, Yang Qingpeng, Chen Shi, Zhang Weidong*. 2019. Global synthesis of temperature sensitivity of soil organic carbon decomposition: Latitudinal patterns and mechanisms. Functional Ecology, 33:514–523.
  35.Wang Qingkui*, Chen Longchi, Yang Qingpeng, Sun Tao, Li Changmeng. 2019. Different effects of single versus repeated additions of glucose on the soil organic carbon turnover in a temperate forest receiving long-term N addition. Geoderma 341, 59–67.
  36.Yang Qingpeng, Zhang Weidong, Li Renshan, Zheng Wenhui, Yang Jinyan, Xu Ming, Guan Xin, Huang Ke, Chen Longchi, Wang Qingkui*, Wang Silong*. 2019. Effects of girdling on stem CO2 efflux and its temperature sensitivity in Chinese fir and sweetgum trees. Agricultural and Forest Meteorology, 268, 116–123 
  37.Chen Longchi, Guan Xin, Li Maimei, Wang Qingkui*, Zhang Weidong, Yang Qingpeng, Wang Silong*. 2019. Spatiotemporal patterns of carbon storage in forest ecosystems in Hunan Province, China. Forest Ecology and Management, 432, 656–666.
  38.Li Renshan, Zheng Wenhui, Yang Qingpeng*, Zhang Weidong, Chi Yonggang, Wang Peng, Xu Ming, Guan Xin, Chen Longchi, Wang Qingkui*, Wang Silong*. 2019. The response of soil respiration to thinning was not affected by understory removal in a Chinese fir (Cunninghamia lanceolata) plantation. Geoderma, 353, 47–54.
  39.Jing Yanli, Wang Yi, Liu Shirong*, Zhang Xudong, Qingkui Wang, Liu Kuan, Yin You, Deng Jifeng. 2019. Interactive effects of soil warming, throughfall reduction, and root exclusion on soil microbial community and residues in warm-temperate oak forests. Applied Soil Ecology, 142, 52–58.
  40.Wang Qingkui*, Liu Shengen, Tian Peng. 2018. Carbon quality and soil microbial property control the latitudinal pattern in temperature sensitivity of soil microbial respiration across Chinese forest ecosystems. Global Change Biology, 24:2841–2849
  41.Wang Qingkui*, Liu Shengen, Wang Yanping*, Tian Peng, Sun Tao. 2018. Influences of N deposition on soil microbial respiration and its temperature sensitivity depend on N type in a temperate forest. Agricultural and Forest Meteorology, 260–261, 240–246.
  42.Liu Shengen, Wang Hang, Deng Ye, Tian Peng, Wang Qingkui*. 2018. Forest conversion induces seasonal variation in microbial β-diversity. Environmental Microbiology, 20(1), 111–123
  43.Sun Tao, Hobbie Sarah E, Berg Bj?rn, Zhang Hongguang, Wang Qingkui, Wang Zhengwen*, H?ttenschwiler Stephan. 2018. Contrasting dynamics and trait controls in first-order root compared with leaf litter decomposition. Proceedings of the National Academy of Sciences of the United States of America, 115, 10392-10397.
  44.Yang Qingpeng, Li Renshan, Zhang Weidong, Zheng Wenhui, Wang Qingkui, Chen Longchi, Xu Ming, Wang Silong*. 2018. Decomposition of harvest residue needles of different needle ages in a Chinese fir (Cunninghamia lanceolata) plantation. Plant Soil, 423, 273–284.
  45.Wang Qingkui*, Yu Youzhi, He Tongxin, Wang Yanping. 2017. Aboveground and belowground litter have equal contributions to soil CO2 emission: an evidence from a 4-year measurement in a subtropical forest. Plant Soil, 421:7–17.
  46.Wang Qingkui*, Tian Peng, Liu Shengen, Sun Tao. 2017. Inhibition effects of N deposition on soil organic carbon decomposition was mediated by N types and soil nematode in a temperate forest. Applied Soil Ecology, 120, 105-110.
  47.Wang Qingkui*, Zhang Weidong, Sun Tao, et al. 2017. N and P fertilization reduced soil autotrophic and heterotrophic respiration in a young Cunninghamia lanceolata forest. Agricultural and Forest Meteorology 232, 66–73.
  48.Wang Qitong, Wang Nian, Wang Yanping*, Wang Qingkui, Duan Baoli. 2017. Differences in root-associated bacterial communities among fine root branching orders of poplar (Populus × euramericana (Dode) Guinier.). Plant Soil, 421, 123–135.
  49.Wang Qingkui*, Zeng Zhangquan, Zhong Mcai. 2016. Soil moisture alters the response of soil organic carbon mineralization to litter addition. Ecosystems, 19(3), 450-460.
  50.Wang Qingkui*, He Tongxin, Liu Jing. 2016. Litter input decreased the response of soil organic matter decomposition to warming in two subtropical forest soils. Scientific Reports 6, 33814; doi: 10.1038/srep33814.
  51.Wang Qingkui*, Zhong Micai. 2016. Composition and mineralization of soil organic carbon pools in four single-tree species forest soils. Journal of Forestry Research 27(6): 1277–1285.
  52.He Tongxin, Wang Qinkui*, Wang Silong, Zhang Fangyue. 2016. Nitrogen addition altered the effect of belowground C allocation on soil respiration in a Subtropical Forest. PLoS ONE 11(5): e0155881. doi:10.1371/journal. pone.0155881. 
  53.Zhang Weidong, Chao Lin, Yang Qingpeng, Wang Qingkui, et al. 2016. Litter quality mediated nitrogen effect on plant litter decomposition regardless of soil fauna presence. Ecology, 97(10), 2834–2843.
  54.Chen Longchi*, Wang Silong*, Wang Qingkui. 2016. Ecosystem carbon stocks in a forest chronosequence in Hunan Province, South China. Plant and Soil, 409, 217-228
  55.Xia Zongwei, Bai Edith*, Wang Qingkui, et al. 2016. Biogeographic distribution patterns of bacteria in typical Chinese forest soils. Frontiers in Microbiology, 7:1106.doi: 10.3389/fmicb.2016.01106.
  56.Wang Yanping*, Li Chuanrong, Wang Qingkui, et al. 2016. Environmental behaviors of phenolic acids dominated their rhizodeposition in boreal poplar plantation forest soils. Journal of Soils and Sediments 16, 1858–1870.
  57.Sun Tao, Dong Lili, Zhang Lili, Wu Zhijie, Wang Qingkui, Li Yuanyuan, Zhang Hongguang, Wang Zhengwen*. 2016. Early stage fine-root decomposition and its relationship with root order and soil depth in a Larix gmelinii plantation. Forests 7, 234; doi:10.3390/f7100234.
  58.Li Weibin, Jin Changjie, Guan Dexin, Wang Qingkui, Wang Anzhi, Yuan Fenghui, Wu Jiabing*. 2015. The effects of simulated nitrogen deposition on plant root traits: A meta-analysis. Soil Biology & Biochemistry 82, 112-118.
  59.Wang Qingkui*, Wang Yanping, Wang Silong*, Tongxin He, Liu Li. 2014. Fresh carbon and nitrogen inputs alter organic carbon mineralization and microbial community in forest deep soil layers. Soil Biology & Biochemistry 72, 145-151.
  60.Wang Qingkui*, Wang Silong, Tongxin He, Liu Li, Wu Jiabing. 2014. Response of organic carbon mineralization and microbial community to leaf litter and nutrient additions in subtropical forest soils. Soil Biology & Biochemistry 71, 13-20. 
  61.Wang Qingkui*, Tongxin He, Wang Silong, Liu Li. 2013. Carbon input manipulation affects soil respiration and microbial community composition in a subtropical coniferous forest. Agricultural and Forest Meteorology 178-179, 152–160. 
  62.Wang Qingkui*, Wang Silong, Zhong Micai. 2013. Ecosystem carbon storage and soil organic carbon stability in pure and mixed stands of Cunninghamia lanceolata and Michelia macclurei. Plant and Soil, 370:295–304. 
  63.Wang Qingkui*, Zhong Micai, Wang Silong. 2013. Home-field advantage of litter decomposition and nitrogen release in forest ecosystems. Biology & Fertility of Soils 49, 427-434. 
  64.Wang Qingkui, Liu Suping, Wang Silong*. 2013. Debris manipulation alters soil CO2 efflux in a subtropical plantation forest. Geoderma 193, 316-322. 
  65.Wang Qingkui*, Fuming Xiao, Tongxin He, Wang Silong. 2013. Responses of labile soil organic carbon and enzyme activity in mineral soils to forest conversion in the subtropics. Annals of Forest Science 70:579–587. 
  66.Wang Qingkui*, Fuming Xiao, Zhang Fangyue, Wang Silong. 2013. Labile soil organic carbon and microbial activity in three subtropical plantations. Forestry 86, 569–574. 
  67.Wang Qingkui*, Zhong Micai, Wang Silong. 2012. A meta-analysis on the response of microbial biomass, dissolved organic matter, respiration, and N mineralization in mineral soil to fire in forest ecosystems. Forest Ecology and Management 271, 91–97. 
  68.Wang Qingkui*, Xiao Fuming, Wang Silong, Xu Guangbiao. 2012. Response of selected soil biological properties to stump presence and age in a managed subtropical forest ecosystem. Applied Soil Ecology 57, 59–64. 
  69.Wang Qingkui*, Wang Silong. 2011. Response of labile soil organic matter to changes in forest vegetation in subtropical regions. Applied Soil Ecology 47, 210–216. 
  70.Wang Qingkui*, Wang Silong, Yu Xiaojun. 2011. Decline of soil fertility during forest conversion of secondary forest to Chinese fir plantations in subtropical China. Land Degradation and Development 22, 444–452. 
  71.Wang Qingkui, Wang Silong*, Xu Guangbiao, Fan Bing. 2010. Conversion of secondary broadleaved forest into Chinese fir plantation alters litter production and potential nutrient returns. Plant Ecology 209, 269-278. 
  72.Liu Yanxin, Wang Silong*, Wang Qingkui, Zhang Jian. 2010. Effects of mixed-species leaf litter on litter decomposition and soil microbial communities in experimental subtropical plantation forest. Journal of Food, Agriculture & Environment 8, 1102–1108. 
  73.Wang Qingkui, Wang Silong*, Zhang Jian. 2009. Assessing the effects of vegetation types on carbon storage fifteen years after reforestation on a Chinese fir site. Forest Ecology and Management 258, 1437–1441. 
  74.Wang Qingkui, Wang Silong*, Huang Yu. 2009. Leaf litter decomposition in the pure and mixed plantations of Cunninghamia lanceolata and Michelia macclurei. Biology & Fertility of Soils 45, 371–377. 
  75.Zhang Jian, Wang Silong*, Feng Zongwei, Wang Qingkui. 2009. Carbon mineralization of soils from native evergreen broadleaf forest and three plantations in mid-subtropic China. Communications in Soil Science and Plant Analysis. 40, 1964–1982. 
  76.Zhang Jian, Wang Silong*, Feng Zongwei, Wang Qingkui. 2009. Stability of soil organic carbon changes in successive rotations of Chinese fir (Cunninghamia lanceolata (Lamb.) Hook) plantations. Journal of Environmental Sciences 21, 352–359.
  77.Wang Qingkui, Wang Silong*, Liu Yanxin. 2008. Responses to N and P fertilization in a young Eucalyptus dunnii plantation: microbial properties, enzyme activities and dissolved organic matter. Applied Soil Ecology 40, 484–490. 
  78.Wang Qingkui, Wang Silong*, Huang Yu. 2008. Comparisons of litterfall, litter decomposition and nutrient return in a monoculture Cunninghamia lanceolata and a mixed stand in southern China. Forest Ecology and Management 255, 1210–1218. 
  79.Wang Qingkui, Wang Silong*. 2007. Soil organic matter under different forest types in Southern China. Geoderma 142, 349–356. 
  80.Wang Qingkui, Wang Silong*, Fan Bing, Yu Xiaojun. 2007. Litter production, leaf litter decomposition and nutrient return in Cunninghamia lanceolata plantations in south China: effect of planting conifers with broadleaved species. Plant and Soil 297, 201–211.
  81.Wang Qingkui, Wang Silong*. 2008. Soil microbial properties and nutrients in pure and mixed Chinese fir plantations. Journal of Forestry Research 19, 131–135. 
  82.Wang Qingkui, Wang Silong*. 2006. Microbial biomass in subtropical forest soils: effect of conversion of natural secondary broad-leaved forest to Cunninghamia lanceolata plantation. Journal of Forestry Research 17, 197–200. 
  83.Wang Qingkui, Wang Silong*, Deng Shijian. 2005. Comparative study on active soil organic matter in Chinese fir plantation and Native broad-leaved forest in subtropical China. Journal of Forestry Research 16, 23–26. 
  84.王清奎*, 田鹏, 孙兆林, 赵学超. 2020. 森林土壤有机质研究的现状与挑战. 生态学杂志 39 (11): 3829-3843.
  85.朱依凡, 孙兆林, 王清奎*. 2020. 生物炭和氮添加对亚热带常绿阔叶林土壤有机碳分解与平衡的影响. 生态学杂志39(9): 2851-2859.
  86.赵学超, 徐柱文, 刘圣恩, 王清奎*. 2020. 氮添加对多伦草原土壤微生物呼吸及其温度敏感性的影响. 生态学报40(5): 1551-1561.
  87.俞有志, 王清奎*, 于小军, 郑文辉. 2018. 施氮磷肥对杉木人工林土壤活性有机碳的影响. 生态学杂志37: 3053-3060
  88.程云云, 孙涛, 王清奎, 梁文举, 张晓珂. 2018. 模拟氮沉降对温带森林土壤线虫群落组成和代谢足迹的影响. 生态学报 38: 475-484.
  89.刘静, 孙涛, 程云云, 王清奎*. 2017. 氮沉降和土壤线虫对落叶松人工林土壤有机碳矿化的影响. 生态学杂志 36:2085–2093.
  90.贺同鑫, 孙建飞, 李艳鹏, 胡宝清, 王清奎*. 2017. 环割对杉木和马尾松人工林土壤微生物群落结构的影响. 林业科学 53: 77–84.
  91.李艳鹏, 贺同鑫, 王清奎*. 2016. 施肥对杉木林土壤酶和活性有机碳的影响. 生态学杂志35(10):2722–2731.
  92.王清奎*, 李艳鹏, 张方月, 贺同鑫. 2015. 短期施氮肥降低杉木幼林土壤的根系和微生物呼吸. 植物生态学报39 (12): 1166–1175.
  93.贺同鑫, 李艳鹏, 张方月, 王清奎*. 2015. 林下植被剔除对杉木林土壤呼吸和微生物群落结构的影响. 植物生态学报39: 797–806.
  94.张方月, 王清奎*, 于小军. 2015. CO2浓度升高和N沉降对中亚热带森林土壤呼吸的短期影响. 生态学杂志34:1638–1643.
  95.仲米财, 王清奎*, 高洪, 于小军. 2013. 中亚热带主要树种凋落叶在杉木人工林中分解及氮磷释放过程. 生态学杂志 32, 1653–1659.
  96.王清奎*. 2011. 碳输入方式对森林土壤碳库和碳循环的影响研究进展. 应用生态学报 22, 1075–1081.
  97.杨明, 汪思龙*, 张伟东, 王清奎. 2010. 杉木人工林生物量与养分积累动态. 应用生态学报 21, 1674–1680.
  98.王清奎*, 范冰, 徐广标. 2009. 亚热带地区阔叶林与杉木林土壤活性有机质比较. 应用生态学报 20, 1536–1542.
  99.张剑, 汪思龙*, 王清奎, 刘燕新. 2009. 不同森林植被下土壤活性有机碳含量极其季节变化. 中国生态农业学报 17, 41–47.
  100.李荣华, 汪思龙*, 王清奎. 2008. 不同林龄马尾松针叶凋落前后养分含量及回收特征. 应用生态学报 19, 1443–1447.
  101.王清奎, 汪思龙*, 于小军, 张剑, 刘燕新. 2007. 常绿阔叶林与杉木林的土壤碳矿化潜力及其对土壤活性有机碳的影响. 生态学杂志 26, 1918–1923.
  102.王清奎, 汪思龙*, 于小军, 张剑, 刘燕新. 2007. 杉木与阔叶树叶凋落物混合分解对土壤活性有机质的影响. 应用生态学报 18, 1203–1207.
  103.王清奎, 汪思龙, 冯宗炜. 2006. 杉木纯林与常绿阔叶林土壤活性有机碳库的比较. 北京林业大学学报 28(5), 1–6.
  104.何友军, 王清奎, 汪思龙*, 于小军. 2006. 杉木人工林土壤微生物生物量碳氮特征及其与土壤养分的关系. 应用生态学报 17, 2292–2296.
  105.王清奎, 汪思龙*, 高洪, 刘艳, 于小军. 2005. 土地利用方式对土壤有机质的影响. 生态学杂志 24(4), 360–363.
  106.王清奎, 汪思龙*, 冯宗炜, 黄宇. 2005. 土壤活性有机质及其与土壤质量的关系. 生态学报 25, 513–519.
  107.王清奎, 汪思龙*, 冯宗炜. 2005. 杉木人工林土壤可溶性有机质及其与土壤养分的关系. 生态学报 25, 1299–1305.
  108.王清奎, 汪思龙, 高洪, 于小军. 2005. 杉木人工林土壤活性有机质变化特征. 应用生态学报 16, 1270–1274.
  109.王清奎, 汪思龙*. 土壤团聚体形成与稳定机制及影响因素. 土壤通报 36, 415–421.
  110.汪思龙*, 黄志群, 王清奎, 于小军. 2005. 凋落物的树种多样性与杉木人工林土壤生态功能. 生态学报 25, 474–480.
  111.王清奎, 汪思龙, 冯宗炜, 邓仕坚, 高洪. 2004. 杉木人工林土壤有机质研究. 应用生态学报 15, 1947–1952.
  112.黄宇, 汪思龙, 冯宗炜*, 高洪, 王清奎, 胡亚林, 颜绍馗. 2004. 不同人工林生态系统林地土壤质量评价. 应用生态学报 15, 2199–2205.
  113.黄宇, 冯宗炜*, 汪思龙, 于小军, 高洪, 王清奎. 2004. 杉木与固氮和非固氮树种混交对林地质量和土壤水化学的影响. 生态学报 24, 2192–2199.
  参编专著:
  汪思龙,陈楚莹编著《森林残落物生态学》,科学出版社,2010;
  朱永官主编《中国土壤微生物组》,浙江大学出版社
  专利:
  王清奎,井艳丽. 一种森林凋落物原位分解器. 实用新型. 专利号:ZL 201920337023.X。
  王清奎,关欣,江黎黎. 陶瓷杯土壤溶液取样器. 实用新型. 专利号:ZL 201721789676.9。 
  审  稿:
  目前主要为Global Change Biology, Soil Biology & Biochemistry, Plant and Soil, Geoderma, Forest Ecology and Management, Ecosystems, Journal of Forestry Research, 植物生态学报,应用生态学报,生态学杂志,生态环境学报,亚热带资源与环境学报等学术期刊审稿。
  国内外学术任职:
  Frontiers in Forests and Global Change、《生态学杂志》等学术期刊编委。中国林学会土壤学会森林土壤专业委员会委员、中国自然资源学会森林资源专业委员会委员、中国生态学学会生态系统专业委员会委员、中国生态学学会长期生态专业委员会委员。
  
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