Community size, activity and C:N stoichiometry of soil microorganisms following reforestation in a Karst region

文献类型: 外文期刊

第一作者: Hu, Ning

作者: Hu, Ning;Hu, Xiaomin;Li, Hui;Tang, Zheng;Li, Zhongfang;Li, Guichun;Lou, Yilai;Jiang, Yong

作者机构:

关键词: Microbial biomass;Soil respiration;Metabolic quotient;Ecological stoichiometry;Vegetation restoration;Karst

期刊名称:EUROPEAN JOURNAL OF SOIL BIOLOGY ( 影响因子:2.846; 五年影响因子:3.618 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Reforestation has been widely adopted to restore soil fertility and ecosystem service in the rocky-desertifled Karst region of southwestern China. As a key indicator of ecosystem restoration, soil microbial characteristics however remained poorly understood following reforestation on the degraded Karst soils. This study employed site comparisons along a chronosequence of Toona sinensis reforestation in soil microbial biomass carbon (MBC), microbial biomass nitrogen (MBN), basal respiration (BR), microbial metabolic quotient (qCO(2)), microbial quotient (MBC:TOC), and microbial C:N stoichiometry. Results showed that MBC, MBN, BR as well as soil organic C and N contents, moisture and porosity increased with the reforestation age. The 0-yr control of bare soil showed the highest microbial metabolic quotient (qCO(2), 2.48 mg g(-1) h(-1)) and lowest microbial quotient (MBC:TOC, 2.29%), reflecting the disturbed and stressed habitats. After 12-yr reforestation, qCO(2) decreased to 1.49 mg g(-1) h(-1) and MBC:TOC increased to 4.70%, due to the disturbance cessation and the weakened stress. The consistent increases in microbial C:N ratio and soil C:N ratio under the reforestation indicated microbial adaptive response to substrate resource stoichiometry. This study suggested that these microbial indices independently or in combination can be used as the early indicators of the restoration of Karst ecosystems. (C) 2016 Elsevier Masson SAS. All rights reserved.

分类号: S154

  • 相关文献

[1]SOIL BIOLOGICAL AND BIOCHEMICAL QUALITY OF WHEAT-MAIZE CROPPING SYSTEM IN LONG-TERM FERTILIZER EXPERIMENTS. Qi, Ying-Chun,Hu, Cheng.

[2]Spatial variability and patterns of surface soil moisture in a field plot of karst area in southwest China. Zhang, J. G.,Chen, H. S.,Su, Y. R.,Zhang, W.,Zhang, J. G.,Shi, Y.,Liang, H. B.,Shen, G. M.,Chen, H. S.,Su, Y. R.,Zhang, W.,Kong, X. L..

[3]C:N:P stoichiometry in China's forests: From organs to ecosystems. Zhang, Jiahui,Liu, Congcong,Yang, Hao,Li, Meiling,Yu, Guirui,He, Nianpeng,Zhang, Jiahui,Yu, Guirui,He, Nianpeng,Zhao, Ning,Wilcox, Kevin,Yu, Qiang,He, Nianpeng,He, Nianpeng. 2018

[4]Spatial Variability of Surface Soil Moisture in a Depression Area of Karst Region. Zhang, Jiguang,Chen, Hongsong,Su, Yirong,Zhang, Wei,Zhang, Jiguang,Shi, Yi,Chen, Hongsong,Su, Yirong,Zhang, Wei,Kong, Xiangli. 2011

[5]Nitrogen deposition promotes phosphorus uptake of plants in a semi-arid temperate grassland. Long, Min,Wu, Hong-Hui,Lu, Xiao-Tao,Zhang, Hai-Yang,Han, Xing-Guo,Yu, Qiang,Long, Min,Wu, Hong-Hui,Yu, Qiang,Smith, Melinda D.,Smith, Melinda D.,La Pierre, Kimberly J..

[6]The genus Fusariella. Lin, Chuan-Gen,Chen, Yun,Wang, Yong,Lin, Chuan-Gen,Hyde, Kevin D.,McKenzie, Eric H. C.,Bhat, Darbhe J.,Bhat, Darbhe J.,Ariyawansa, Hiran A..

[7]Plants adapted to nutrient limitation allocate less biomass into stems in an arid-hot grassland. Yan, Bangguo,Wang, Xuemei,Liu, Gangcai,Yan, Bangguo,Wang, Xuemei,Liu, Gangcai,Yan, Bangguo,Fan, Bo,He, Guangxiong,Shi, Liangtao,Yan, Bangguo,Wang, Xuemei,Ji, Zhonghua.

[8]Contrasting effects of plant inter- and intraspecific variation on community trait responses to restoration of a sandy grassland ecosystem. Zuo, Xiaoan,Yue, Xiyuan,Lv, Peng,Chen, Min,Zhang, Jing,Luo, Yongqing,Wang, Shaokun,Zhang, Jing,Zuo, Xiaoan,Yu, Qiang. 2017

[9]Effect of planting grasses on vegetation restoration on the bare land. Sun, Tiejun,Wu, Juying,Hu, Wei,Kan, Haiming,Pang, Zhuo. 2016

[10]Responses of Soil Seed Bank and Vegetation to the Increasing Intensity of Human Disturbance in a Semi-Arid Region of Northern China. Li, Cui,Wang, Qinghai,Zheng, Ruilun,Wu, Juying,Xiao, Bo. 2017

[11]Ecosystem Services and Ecological Restoration in the Northern Shaanxi Loess Plateau, China, in Relation to Climate Fluctuation and Investments in Natural Capital. Wei, Hejie,Fan, Weiguo,Wang, Xuechao,Lu, Nachuan,Dong, Xiaobin,Wei, Hejie,Fan, Weiguo,Wang, Xuechao,Lu, Nachuan,Dong, Xiaobin,Ding, Zhenyu,Weng, Boqi,Xing, Kaixiong,Ulgiati, Sergio,Dong, Xiaobin. 2017

[12]Effects of vegetation restoration types on soil quality in Yuanmou dry-hot valley, China. Peng, Sili,Wu, Junliang,Liu, Gangcai,Peng, Sili,Wu, Junliang,Liu, Gangcai,Chen, Anqiang,Fang, Haidong,Peng, Sili,Wu, Junliang. 2013

[13]Soil respiration, glomalin content, and enzymatic activity response to straw application in a wheat-maize rotation system. Liang, Guopeng,Wu, Huijun,Houssou, Albert A.,Cai, Dianxiong,Wu, Xueping,Gao, Lili,Wang, Bisheng,Li, Shengping,Liang, Guopeng. 2018

[14]Components of soil respiration and its monthly dynamics in rubber plantation ecosystems. Wu, Zhixiang,Xie, Guishui,Zhou, Zhaode,Wu, Zhixiang,Guan, Limin,Chen, Bangqian,Yang, Chuan,Lan, Guoyu,Xie, Guishui. 2013

[15]Microbial biomass carbon, nitrogen and phosphorus in the soil profiles of different vegetation covers established for soil rehabilitation in a red soil region of southeastern China. Wang, FE,Chen, YX,Tian, GM,Kumar, S,He, YF,Fu, QL,Lin, Q. 2004

[16]Effect of long-term fertilization on soil aggregate-associated dissolved organic nitrogen on sloping cropland of purple soil. Hua, K. K.,Guo, X. S.,Wang, D. Z.,Guo, Z. B.,Hua, K. K.,Zhu, B.,Wang, X. G.. 2014

[17]Does the different photosynthetic pathway of plants affect soil respiration in a subtropical wetland?. Chen, Jingrui,Wang, Qiulin,Li, Ming,Liu, Fan,Chen, Jingrui,Wang, Qiulin,Li, Wei. 2016

[18]CO2 Emission from Acidified Black Soils Amended with Alkaline Ameliorants of Lime and Plant Ash. Han, Zuoqiang,Wang, Lianfeng,Zhang, Xilin,Wang, Lianfeng. 2010

[19]Effects of hexaconazole application on soil microbes community and nitrogen transformations in paddy soils. Xu, Jun,Wu, Xiaohu,Dong, Fengshou,Liu, Xingang,Tian, Chunyan,Zheng, Yongquan.

[20]Carbon budget of a rainfed spring maize cropland with straw returning on the Loess Plateau, China. Hao, Weiping,Mei, Xurong,Gao, Xiang,Gu, Fengxue,Li, Haoru,Gong, Daozhi,Mao, Lili,Zhang, Zuguang.

作者其他论文 更多>>

微信小程序