Leaf plasticity contributes to plant anti-herbivore defenses and indicates selective foraging: Implications for sustainable grazing
文献类型: 外文期刊
第一作者: Li, Xiliang
作者: Li, Xiliang;Li, Yuanheng;Jimoh, Saheed Olaide;Ding, Yong;Li, Fang;Sun, Shixian;Png, Guochen Kenny;Png, Guochen Kenny;Jimoh, Saheed Olaide
作者机构:
关键词: Grazing; Growth-defense tradeoff; Leaf plasticity; Grassland management
期刊名称:ECOLOGICAL INDICATORS ( 影响因子:4.958; 五年影响因子:5.846 )
ISSN: 1470-160X
年卷期: 2021 年 122 卷
页码:
收录情况: SCI
摘要: More accurate determination of leaf plasticity induced by the legacy effect of grazing and immediate ingestion can provide insights on growth-defense tradeoffs, and are of great importance to understanding valuable indicators for grassland management. Despite the ecological importance of leaf traits, the effectiveness of leaf plasticity as a key physical anti-herbivore trait that may signal grazing disturbance has not yet been assessed. Here, we assessed leaf angle and related functional traits as indicators of the responses of palatable Leymus chinensis and less palatable Carex korshinskyi to five sheep grazing intensities during the early grazing season. Grazing significantly increases leaf angle, paralleled by a decrease in the sizes of both whole plants and leaves, with a stronger response by L. chinensis than C. korshinskyi. Leaf size and angle had higher positive and lower negative allometric slopes with plant size in L. chinensis compared to C. korshinskyi. This pattern reflects that the palatable species had relatively higher adaptability to grazing via stabilizing leaf area and anti-herbivore defense responses. Structural equation modeling shows that historical grazing contributes more than foraging in the current year to leaf plasticity, which is particularly evident in the less palatable species C. korshinskyi. The foraging proportion is positively correlated with the leaf angle for L. chinensis but not C. korshinskyi, suggesting that leaf plasticity can indicate selective foraging. Moreover, plasticity in leaf angle potentially influences net photosynthesis which manifests as a unimodal curve across the grazing intensities under a balance between the gross photosynthetic and respiratory rates. Thus, we demonstrate that palatability-dependent leaf plasticity can indicate selective foraging across grazing intensities, thereby contributing to plant anti-herbivore defense. Our results highlight that grazing legacy and immediate ingestion had a positive interaction effect on leaf traits. These findings show that grazing-induced leaf plasticity represents a key nexus between ecological mechanisms and grassland management.
分类号:
- 相关文献
作者其他论文 更多>>
-
Epigenetics in the modern era of crop improvements
作者:Xue, Yan;Deng, Xing Wang;Cao, Xiaofeng;Deng, Xian;Cao, Xiaofeng;Deng, Xian;Chen, Xiangsong;Yang, Hongchun;Ding, Yong;Dong, Aiwu;Liu, Bing;Ren, Guodong;Zhang, Yijing;Duan, Cheng-Guo;Fang, Xiaofeng;Qi, Yijun;Gong, Lei;Liu, Bao;Xu, Zheng-Yi;Gong, Zhizhong;Gong, Zhizhong;Gu, Xiaofeng;He, Chongsheng;He, Hang;He, Shengbo;He, Xin-Jian;He, Yan;Tian, Zhixi;He, Yuehui;Jia, Guifang;Wang, Yuan;Jiang, Danhua;Song, Xianwei;Jiang, Jianjun;Lai, Jinsheng;Lai, Jinsheng;Lai, Jinsheng;Lai, Jinsheng;Lai, Jinsheng;Lang, Zhaobo;Zhu, Jian-Kang;Li, Chenlong;Li, Qing;Li, Xingwang;Yan, Wenhao;Zhou, Dao-Xiu;Luo, Xiao;Qian, Weiqiang;Song, Qingxin;Wang, Jia-Wei;Xu, Lin;Wu, Liang;Wu, Zhe;Xia, Rui;Xiao, Jun;Zhao, Yusheng;Zhai, Jixian;Zhong, Xuehua;Zhou, Dao-Xiu;Zhou, Ming;Zhou, Yue;Zhu, Bo;Liu, Qikun
关键词:epigenetics; plant development; plant immunity; crop improvement; stress responses
-
Long-term warming and acidification interaction drives plastic acclimation in the diatom Pseudo-nitzschia multiseries
作者:Sun, Yanmin;Zhang, Yanan;Liang, Chengwei;Ye, Naihao;Li, Fang;Sun, Yanmin;Yang, Fan;Xu, Dong;Zhang, Yanan;Liang, Chengwei;Huang, Xintong;Wang, Bingkun;Wang, Yapeng;Sun, Haoming;Ye, Naihao;Duan, Ran;Fu, Fei-Xue;Wang, Zhuonan
关键词:
-
Grazing intensity by sheep affects spatial diversity in botanical composition of Inner Mongolian grassland
作者:Han, Xu;Ochoa-Hueso, Raul;van der Putten, Wim H.;Han, Xu;Struik, Paul C.;Han, Xu;Ding, Yong;Li, Xiliang;Jin, Ke;Ochoa-Hueso, Raul;Han, Xu
关键词:Grassland degradation; Overgrazing; Plant community composition; Vegetation heterogeneity
-
Integration of digital phenotyping, GWAS, and transcriptomic analysis revealed a key gene for bud size in tea plant (Camellia sinensis)
作者:Zhang, Shuran;Chen, Si;Fu, Zhilu;Li, Fang;Chen, Qiyu;Ma, Jianqiang;Chen, Liang;Chen, Jiedan;Chen, Yuanquan
关键词:
-
Genetic dissection of yield and yield-related traits in mungbean based on QTL meta-analysis
作者:Du, Binbin;Wu, Jia;Zhang, Xingen;Li, Fang;Lu, Baowei;An, Fengxia;Wang, Qifei;Gao, Song;Yang, Fan;Zhang, Lei;Zhang, Xiao;Huo, Dongao
关键词:mungbean; yield; QTL meta-analysis; meta-QTL; candidate gene
-
Pathogen-activated Chaetomium globosum G3 enhances iron competition and other antagonistic mechanisms to suppress maize seedling blight causal agent Fusarium verticillioides
作者:Ren, Chunlin;Li, Shiying;Li, Peipei;Wang, Yi;Li, Hui;Li, Fang;Han, Yanlai;Wang, Yi;Han, Yanlai;Yuan, Hongxia;Zhao, Qingyun
关键词:Chaetomium globosum; Biocontrol; Fusarium verticillioides; Iron competition; Fumonisin
-
Responses of fungal communities at different soil depths to grazing intensity in a desert steppe
作者:Tu, Xiangjian;Tu, Xiangjian;Sun, Shixian;Wenbo, Zhang;Zhang, Yong;Jin, Ke;Wang, Zhen;Struik, Paul C.;Wang, Zhen
关键词:Alpha diversity; Fungal communities; Soil depth; Stocking rate
