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Long-term organic-inorganic fertilization ensures great soil productivity and bacterial diversity after natural-to-agricultural ecosystem conversion
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Long-term organic-inorganic fertilization ensures great soil productivity and bacterial diversity after natural-to-agricultural ecosystem conversion
Weibing Xun 1,2†, Zhihui Xu 1†, Wei Li 1, Yi Ren 1, Ting Huang 3, Wei Ran 1, Boren Wang 4, Qirong Shen 1, Ruifu Zhang 1,2
Journal of Microbiology 2016;54(9):611-617
DOI: https://doi.org/10.1007/s12275-016-6143-3
Published online: August 31, 2016
1Jiangsu Key Lab for Organic Waste Utilization, Nanjing Agricultural University, Nanjing 210095, P. R. China , 2Ministry of Agriculture, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing 100081, P. R. China, 3Hanlin College, Nanjing University of Chinese Medicine, Taizhou 225300, P. R. China, 4Qiyang red soil experimental station, Chinese Academy of Agricultural Sciences, Qiyang 426182, P. R. China,1Jiangsu Key Lab for Organic Waste Utilization, Nanjing Agricultural University, Nanjing 210095, P. R. China , 2Ministry of Agriculture, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing 100081, P. R. China, 3Hanlin College, Nanjing University of Chinese Medicine, Taizhou 225300, P. R. China, 4Qiyang red soil experimental station, Chinese Academy of Agricultural Sciences, Qiyang 426182, P. R. China,
Corresponding author:  Ruifu Zhang , Tel: -, 
Received: 28 March 2016   • Revised: 25 July 2016   • Accepted: 2 August 2016
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Natural ecosystems comprise the planet’s wild plant and animal resources, but large tracts of land have been converted to agroecosystems to support the demand for agricultural products. This conversion limits the number of plant species and decreases the soil biological diversity. Here we used highthroughput 16S rRNA gene sequencing to evaluate the responses of soil bacterial communities in long-term converted and fertilized red soils (a type of Ferralic Cambisol). We observed that soil bacterial diversity was strongly affected by different types of fertilization management. Oligotrophic bacterial taxa demonstrated large relative abundances in chemically fertilized soil, whereas copiotrophic bacterial taxa were found in large relative abundances in organically fertilized and fallow management soils. Only organic-inorganic fertilization exhibited the same local taxonomic and phylogenetic diversity as that of a natural ecosystem. However, the independent use of organic or inorganic fertilizer reduced local taxonomic and phylogenetic diversity and caused biotic homogenization. This study demonstrated that the homogenization of bacterial communities caused by natural-to-agricultural ecosystem conversion can be mitigated by employing rational organic-inorganic fertilization managemen

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    Long-term organic-inorganic fertilization ensures great soil productivity and bacterial diversity after natural-to-agricultural ecosystem conversion
    J. Microbiol. 2016;54(9):611-617.   Published online August 31, 2016
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