Land use intensification alters the relative contributions of plant functional diversity and soil properties on grassland productivity
文献类型: 外文期刊
第一作者: Zhang, Minna
作者: Zhang, Minna;Li, Guangyin;Wang, Yue;Wang, Ling;Pan, Duofeng;Sun, Jinyan
作者机构:
关键词: Plant diversity; Productivity; Land use intensification; Functional traits; Soil properties
期刊名称:OECOLOGIA ( 影响因子:3.298; 五年影响因子:3.644 )
ISSN: 0029-8549
年卷期: 2023 年 201 卷 1 期
页码:
收录情况: SCI
摘要: Understanding the mechanisms of grassland productivity variation is critical for global carbon cycling and climate change mitigation. Heretofore, it is unknown how different environmental factors drive small-scale spatial variation in productivity, and whether land use intensification, one of the most important global changes, can regulate the processes that drive productivity change. Here we performed an 18-year exclosure experiment across six sites with high-intensity mowing/grazing history in northern China to examine the effects of land use intensification on plant functional diversity, soil properties, and their relative contributions to above-ground net primary productivity (ANPP). We found that plant functional diversity and soil properties contributed to the variation in ANPP both independently and equally in enclosed grasslands (plant diversity: 20.6%; soil properties: 19.5%). Intensive land use significantly decreased the Rao's quadratic entropy (RaoQ) and community-weighted mean value (CWM) of plant height, and further suppressed the contributions of plant functional diversity to ANPP. In contrast, intensive land use increased soil available N, P, pH, electrical conductivity, and homogeneity of soil available P, and strengthened their contributions to ANPP (31.5%). Our results indicate that high-intensity land use practices in grasslands decrease the role of plant functional diversity, but strengthen the effects of soil properties on productivity. We, therefore, suggest that plant functional diversity can be used effectively to boost productivity in undisturbed grasslands, while soil properties might be a more critical consideration for grassland management in an areas with increased land use.
分类号:
- 相关文献
作者其他论文 更多>>
-
Gene expression profiles of Chinese medaka ( Oryzias sinensis ) primary hepatocytes in response to estrone (E1 ), 17 i3-estradiol (E2 ) and estriol (E3 )
作者:Wang, Yue;Lu, Junhui;Xie, Zhongtang;Huai, Narma;Zhang, Kailun;Zhou, Ying;Reze, Yilihamu;Li, Xiqing;Zhang, Zhaobin;Zhu, Hua
关键词:Oryzias sinensis; Primary hepatocytes; Natural estrogens; Vitellogenin; toxicogenomics
-
Effect of modified atmosphere package on attributes of sweet bamboo shoots after harvest
作者:Wang, Ling;Liu, Miyang;Luo, Zheng;Chen, Yulong;Qi, Yingwei;Ye, Mingqiang;Chen, Feiping;Dai, Fanwei
关键词:bamboo shoots; postharvest changes; passive atmosphere modified package; lignification; cell wall components
-
Polystyrene nanoplastics in soil impair drought priming-induced low temperature tolerance in wheat
作者:Wang, Ling;Sui, Yuting;Zhang, Peng;Li, Shuxin;Liu, Tianhao;Li, Xiangnan;Wang, Ling;Li, Shuxin;Li, Xiangnan;Wang, Zongshuai
关键词:Nanoplastics; Cold stress; Carbohydrate metabolism; Chloroplasts; Stress memory; Triticum aestivum
-
Transcriptome Analysis of Juvenile Black Rockfish Sebastes schlegelii under Air Exposure Stress
作者:Liu, Changlin;Zhang, Zheng;Wei, Shouyong;Xiao, Wenjie;Xiao, Wenjie;Wang, Yue;Zhao, Chao;Yang, Liguo;Yang, Liguo
关键词:Sebastes schlegelii; transcriptome sequencing; air exposure; stress
-
A mediator of OsbZIP46 deactivation and degradation negatively regulates seed dormancy in rice
作者:Guo, Naihui;Tang, Shengjia;Wang, Yakun;Chen, Wei;An, Ruihu;Ren, Zongliang;Hu, Shikai;Tang, Shaoqing;Wei, Xiangjin;Shao, Gaoneng;Jiao, Guiai;Xie, Lihong;Wang, Ling;Chen, Ying;Zhao, Fengli;Sheng, Zhonghua;Hu, Peisong;Guo, Naihui;Hu, Peisong;Wang, Yakun;Sheng, Zhonghua
关键词:
-
Inhibition of cinnamic acid and its derivatives on polyphenol oxidase: Effect of inhibitor carboxyl group and system pH
作者:Jiang, Hongwei;Zhou, Lei;Wang, Yue;Peng, Shengfeng;Yu, Wenzhi;Tian, Yuqing;Liu, Junping;Liu, Wei;Liu, Guangxian;Liu, Wei
关键词:Polyphenol oxidase; Cinnamic acid; Inhibition; Carboxyl groups; pH
-
Enhancing humoral and mucosal immune response of PED vaccine candidate by fusing S1 protein to nanoparticle multimerization
作者:Li, Minghui;Sun, Xueke;Wang, Siqiao;Wang, Yanan;Wang, Yue;Zhang, Gaiping;Li, Minghui;Sun, Xueke;Chen, Yilan;Wang, Siqiao;Li, Qin;Wang, Yanan;Wang, Yue;Li, Ruiqi;Zhang, Gaiping;Ding, Peiyang;Zhang, Gaiping;Ding, Peiyang;Zhang, Gaiping;Zhang, Gaiping;Zhang, Gaiping
关键词:PEDV; S1 protein; Nanoparticle; Subunit vaccine; Mucosal immunity
