Dr. Silong Wang

Professor
Chinese Academy of Sciences, China

Highest Degree
Ph.D. in Forest Ecology from Chinese Academy of Sciences, China

My URL
https://livedna.org/86.8648

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Biography

Dr. Silong Wang is currently working as Research Professor at Institute of Applied Ecology and Director Huitong National Research Station of Forest Ecosystem, Chinese Academy of Sciences. He obtained his Ph.D. Degree in Forest Ecology from Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang, China in 2000. His area of research interest focuses on Restoration of Degraded Plantation Forest Soil, Basic processes of Soil Organic Matter, and Management of Soil Organic Matter, Turnover of Fine Roots, Interaction of Fine Roots of Different Species Interaction of Intercropped Tree Species. He also worked as Visiting Scholar at University of California at Berkeley, USA, and Lawrence Berkeley National Laboratory, USA. He has published 42 articles in journals and 4 papers in conferences contributed as author/co-author.

Area of Interest:

Plant and Soil Sciences
Plantation Forest Soil
Soil Organic Matter
Fine Roots
Intercropped Tree Species

Selected Publications

  1. Zhao, S., J. Ling, Z. Li, S. Wang, J. Hu and N. Wang, 2015. Nine new diterpenes from the leaves of plantation-grown Cunninghamia lanceolata. Bioorg. Med. Chem. Lett., 25: 1483-1489.
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  2. Zhang, W., S. Yuan, N. Hu, Y. Lou and S. Wang, 2015. Predicting soil fauna effect on plant litter decomposition by using boosted regression trees. Soil Biol. Biochem., 82: 81-86.
    CrossRef  |  Direct Link  |  

  3. Zhang, W., X. Wang and S. Wang, 2014. Fate of Chinese-fir litter during decomposition as a result of inorganic N additions. Applied Soil Ecol., 74: 30-36.
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  4. Wang, Q., Y. Wang, S. Wang, T. He and L. Liu, 2014. Fresh carbon and nitrogen inputs alter organic carbon mineralization and microbial community in forest deep soil layers. Soil Biol. Biochem., 72: 145-151.
    CrossRef  |  Direct Link  |  

  5. Chen, L.C., S.L. Wang, P. Wang and C.H. Kong, 2014. Autoinhibition and soil allelochemical (cyclic dipeptide) levels in replanted Chinese fir (Cunninghamia lanceolata) plantations. Plant Soil, 374: 793-801.
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  6. Zhang, W., X. Wang and S. Wang, 2013. Addition of external organic carbon and native soil organic carbon decomposition: A meta-analysis. PLoS ONE, Vol. 8. 10.1371/journal.pone.0054779.
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  7. Wang, Q.K., S.L. Wang and M.C. Zhong, 2013. Ecosystem carbon storage and soil organic carbon stability in pure and mixed stands of Cunninghamia lanceolata and Michelia macclurei. Plant Soil, 370: 295-304.
    CrossRef  |  Direct Link  |  

  8. Wang, Q.K., F.M. Xiao, F.Y. Zhang and S.L. Wang, 2013. Labile soil organic carbon and microbial activity in three subtropical plantations. Forestry, 86: 569-574.

  9. Wang, Q., T. He, S. Wang and L. Liu, 2013. Carbon input manipulation affects soil respiration and microbial community composition in a subtropical coniferous forest. Agric. For. Meteorol., 178-179: 152-160.
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  10. Wang, Q., S. Liu and S. Wang, 2013. Debris manipulation alters soil CO2 efflux in a subtropical plantation forest. Geoderma, 192: 316-322.
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  11. Wang, Q., F. Xiao, T. He and S. Wang, 2013. Responses of labile soil organic carbon and enzyme activity in mineral soils to forest conversion in the subtropics. Ann. For. Sci., 70: 579-587.
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  12. Li, Z.X., Y. Sha, L.C. Chen, J.C. Hu, S.L. Wang, D.L. Meng and N. Wang, 2013. Two lignans from the fine roots of Cunninghamia lanceolata. Chem. Nat. Compounds, 49: 229-231.

  13. Zhang, W. and S. Wang, 2012. Effects of NH4+ and NO3- on litter and soil organic carbon decomposition in a Chinese fir plantation forest in South China. Soil Biol. Biochem., 47: 116-122.
    CrossRef  |  Direct Link  |  

  14. Yan, S., A.N. Singh, S. Fu, C. Liao and S. Wang et al., 2012. A soil fauna index for assessing soil quality. Soil Biol. Biochem., 47: 158-165.
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  15. Wang, Q., M. Zhong and S. Wang, 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. For. Ecol. Manage., 271: 91-97.
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  16. Wang, Q., F. Xiao, S. Wang and G. Xu, 2012. Response of selected soil biological properties to stump presence and age in a managed subtropical forest ecosystem. Applied Soil Ecol., 57: 59-64.
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  17. Yang, H., S. Wang, J. Zhang, B. Fan and W. Zhang, 2011. Biomass and nutrients of Pinus massoniana plantations in southern China: Simulations for different managing practices. J. Food Agric. Environ., 9: 689-693.
    Direct Link  |  

  18. Wang, Q. and S. Wang, 2011. Response of labile soil organic matter to changes in forest vegetation in subtropical regions. Applied Soil Ecol., 47: 210-216.
    CrossRef  |  Direct Link  |  

  19. Wang, S., W. Zhang and F. Sanchez, 2010. Relating net primary productivity to soil organic matter decomposition rates in pure and mixed Chinese fir plantations. Plant Soil, 334: 501-510.
    CrossRef  |  Direct Link  |  

  20. Wang, Q., S. Wang, G. Xu and B. Fan, 2010. Conversion of secondary broadleaved forest into Chinese fir plantation alters litter production and potential nutrient returns. Plant Ecol., 209: 269-278.
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  21. Zhang, J., S.L. Wang, Z.W. Feng and Q.K. Wang, 2009. Carbon mineralization of soils from native evergreen broadleaf forest and three plantations in mid-subtropic China. Commun. Soil Sci. Plant Anal., 40: 1964-1982.
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  22. Wang, Q., S. Wang and Y. Huang, 2009. Leaf litter decomposition in the pure and mixed plantations of Cunninghamia lanceolata and Michelia macclurei in subtropical China. Biol. Fertil. Soils, 45: 371-377.
    CrossRef  |  Direct Link  |  

  23. Wang, Q., S. Wang and J. Zhang, 2009. Assessing the effects of vegetation types on carbon storage fifteen years after reforestation on a Chinese fir site. For. Ecol. Manage., 258: 1437-1441.
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  24. Qian, H., S. Wang, Y. Li and X. Wang, 2009. Breeding bird diversity in relation to environmental gradients in China. Acta Oecol., 35: 819-823.
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  25. Wang, Q., S. Wang and Y. Huang, 2008. Comparisons of litterfall, litter decomposition and nutrient return in a monoculture Cunninghamia lanceolata and a mixed stand in southern China. For. Ecol. Manage., 255: 1210-1218.
    CrossRef  |  Direct Link  |  

  26. Wang, Q.K. and S.L. Wang, 2007. Soil organic matter under different forest types in Southern China. Geoderma, 142: 349-356.
    CrossRef  |  Direct Link  |  

  27. Wang, Q., S. Wang, B. Fan and X. Yu, 2007. Litter production, leaf litter decomposition and nutrient return in Cunninghamia lanceolata plantations in south China: Effect of planting conifers with broadleaved species. Plant Soil, 297: 201-211.
    CrossRef  |  Direct Link  |  

  28. Qian, H., S. Wang, J.S. He, J. Zhang, L. Wang, X. Wang and K. Guo, 2006. Phytogeographical analysis of seed plant genera in China. Ann. Bot., 98: 1073-1084.

  29. Hu, Y.L., S.L. Wang and D.H. Zeng, 2006. Effects of single Chinese fir and mixed leaf litters on soil chemical, microbial properties and soil enzyme activities. Plant Soil, 282: 379-386.
    CrossRef  |  Direct Link  |  

  30. Huang, Y., S.L. Wang and Z.W. Feng, 2005. Effects of different forest management models on soil properties following a clear-cutting of Chinese-fir plantation forest. Commun. Soil Sci. Plant Anal., 36: 1-19.

  31. Chen, L., S. Wang and X. Yu, 2005. Effects of phenolics on seedling growth and 15N nitrate absorption of Cunninghamia lanceolata. Allelopathy J., 15: 57-66.
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  32. Huang, Y., S.L. Wang, Z.W. Feng, Z.Y. Ouyang, X.K. Wang and Z.Z. Feng, 2004. Changes in soil quality due to introduction of broad-leaf trees into clear-felled Chinese fir forest in the mid-subtropics of China. Soil Use Manage., 20: 418-425.
    CrossRef  |  Direct Link  |  

  33. Wang, S., L. Chen, L. Liao and Z. Huang, 2002. Effects of three kinds of allelochemicals on growth of Chinese fir seedlings. Chin. J. Environ. Biol., 8: 588-591.
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  34. Huang, Z., S. Wang, L. Liao and H. Gao, 2002. Effects of plant litter species composition on the growth of Chinese fir seedling and the availability of (15NH4)2SO4. Chin. J. Applied Ecol., 13: 1287-1290.

  35. Huang, Z., H. Terry, S. Wang and S. Han, 2001. Autotoxicity of Chinese fir on seed germination and seedling growth. Allelopathy J., 9: 187-193.

  36. Wang, S.L., S.J. Deng and L.P. Liao, 2000. Effect of different types of site preparation on soil nutrient erosion and on the growth of Cunninghamia lanceolata plantation stands. Chin. J. Applied Ecol., 11: 203-206.

  37. Wang, S.L., L.P. Liao, X.J. Yu, S.J. Deng and Y.D. Liu, 2000. CO2 release and net nitrogen mineralization in the restoration process of degraded soils caused by Cunninghamia lanceolata plantation. Chin. J. Applied Ecol., 11: 197-202.

  38. Wang, S.L., L.P. Liao, X.J. Yu, H. Gao and Y.D. Liu, 2000. Changes of nutritional nitrogen and phosphrous during ecological restoration of degraded Chinese fir plantation soil. Chin. J. Applied Ecol., 11: 185-190.

  39. Wang, S.L., L.P. Liao, X.J. Yu and Z.Q. Huang, 2000. Accumulation of organic carbon and changes of soil structure in ecological restoration processes of degraded Cunninghamia lanceolata plantation soil. Chin. J. Applied Ecol., 11: 191-196.

  40. Wang, S.L., H. Gao, L.P. Liao, J.W. Zhang, D.K. Huang, C.R. Feng and S.Q. He, 2000. Nutrient concentration and distribution in the roots of main types of plantation in Yulin, Guangxi. Chin. J. Applied Ecol., 11: 179-181.

  41. Wang, S., L. Liao, S. Deng, H. Gao and Z. Huang, 2000. [Mixing of Cunninghamia lanceolata with Michelia macclurei and restoration of self-sustaining mechanism in G. lanceolata plantation]. J. Applied Ecol., 11: 33-36, (In Chinese).
    PubMed  |  
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