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Different responses of plant N and P resorption to overgrazing in three dominant species in a typical steppe of Inner Mongolia, China
PeerJ ( IF 2.7 ) Pub Date : 2020-09-18 , DOI: 10.7717/peerj.9915 Zhen Wang 1 , Saheed Olaide Jimoh 1, 2 , Xiliang Li 1 , Baoming Ji 3 , Paul C. Struik 4 , Shixian Sun 1 , Ji Lei 1 , Yong Ding 1 , Yong Zhang 1
PeerJ ( IF 2.7 ) Pub Date : 2020-09-18 , DOI: 10.7717/peerj.9915 Zhen Wang 1 , Saheed Olaide Jimoh 1, 2 , Xiliang Li 1 , Baoming Ji 3 , Paul C. Struik 4 , Shixian Sun 1 , Ji Lei 1 , Yong Ding 1 , Yong Zhang 1
Affiliation
Nutrient resorption from senesced leaves is an important mechanism for nutrient conservation in plants. However, little is known about the effect of grazing on plant nutrient resorption from senesced leaves, especially in semiarid ecosystems. Here, we evaluated the effects of grazing on N and P resorption in the three most dominant grass species in a typical steppe in northern China. We identified the key pathways of grazing-induced effects on N and P resorption efficiency. Grazing increased N and P concentrations in the green leaves of Leymus chinensis and Stipa grandis but not in Cleistogenes squarossa. Both L. chinensis and S. grandis exhibited an increasing trend of leaf N resorption, whereas C. squarrosa recorded a decline in both leaf N and P resorption efficiency under grazing. Structural equation models showed that grazing is the primary driver of the changes in N resorption efficiency of the three dominant grass species. For L. chinensis, the P concentration in green and senesced leaves increased the P resorption efficiency, whereas the senesced leaf P concentration played an important role in the P resorption efficiency of C. squarrosa. Grazing directly drove the change in P resorption efficiency of S. grandis. Our results suggest that large variations in nutrient resorption patterns among plant species depend on leaf nutritional status and nutrient-use strategies under overgrazing, and indicate that overgrazing may have indirect effects on plant-mediated nutrient cycling via inducing shifts in the dominance of the three plant species.
更新日期:2020-09-18
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