Correlations between root phosphorus acquisition and foliar phosphorus allocation reveal how grazing promotes plant phosphorus utilization

根际 缺磷 农学 放牧 赖草 分蘖(植物学) 营养物 草原 植物 生物 化学 生态学 细菌 有机化学 遗传学
作者
Jirui Gong,Liangyuan Song,Zihe Zhang,Jiaojiao Dong,Siqi Zhang,Weiyuan Zhang,Xuede Dong,Yuxia Hu,Yingying Liu
出处
期刊:Plant Physiology and Biochemistry [Elsevier BV]
卷期号:208: 108467-108467 被引量:5
标识
DOI:10.1016/j.plaphy.2024.108467
摘要

Overgrazing and phosphorus (P) deficiency are two major factors limiting the sustainable development of grassland ecosystems. Exploring plant P utilization and acquisition strategies under grazing can provide a solid basis for determining a reasonable grazing intensity . Both foliar P allocation and root P acquisition are crucial mechanisms for plants to adapt to environmental P availability; however, their changing characteristics and correlation under grazing remain unknown. Here, we investigated foliar P fractions, root P-acquisition traits and gene expression, as well as rhizosphere and bulk soil properties of two dominant plant species, Leymus chinensis (a rhizomatous grass) and Stipa grandis (a bunchgrass), in a field grazing intensity gradient site in Inner Mongolia. Grazing induced different degrees of compensatory growth in the two dominant plant species, increased rhizosphere P availability, and alleviated plant P limitation. Under grazing, the foliar metabolite P of L. chinensis increased, whereas the nucleic acid P of S. grandis increased. Increased P fractions in L. chinensis were positively correlated with increased root exudates and rapid inorganic P absorption. For S. grandis , increased foliar P fractions were positively correlated with more fine roots , more root exudates, and up-regulated expression of genes involved in defense and P metabolism. Overall, efficient root P mobilization and uptake traits, as well as increases in leaf metabolic activity-related P fractions, supported plant compensatory growth under grazing, a process that differed between tiller types. The highest plant productivity and leaf metabolic activity-related P concentrations under medium grazing intensity clarify the underlying basis for sustainable livestock production . • Grazing induces plant compensatory growth and alleviates P limitation. • L. chinensis increases leaf metabolite P while S. grandis increases nucleic acid P. • Plant P-acquisition strategies differ between tiller types. • Root traits correlate with leaf P fractions by enhancing P mobilization and uptake. • Plant P utilization can be an important basis for sustainable grazing management.
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