Water Supply Changes N and P Conservation in a Perennial Grass Leymus chinensis

Changes in precipitation can influence soil water and nutrient availability, and thus affect plant nutrient conservation strategies. Better understanding of how nutrient conservation changes with variations in water availability is crucial for predicting the potential influence of global climate cha...

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Bibliographic Details
Published in:Journal of integrative plant biology 2009-11, Vol.51 (11), p.1050-1056
Main Authors: Huang, Ju-Ying, Yu, Hai-Long, Li, Ling-Hao, Yuan, Zhi-You, Bartels, Samuel
Format: Article
Language:English
Subjects:
Absorption
Biomass
Cellular Senescence
green-leaf nutrient concentration
Leymus chinensis
Nitrogen - metabolism
nutrient conservation
nutrient resorption
Phosphorus - metabolism
Plant Leaves - cytology
Plant Leaves - metabolism
Poaceae - metabolism
Rain
Soil
Water - metabolism
water supply gradient
保护战略
土壤水分
多年生牧草
植物营养
浓度增加
磷浓度
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Summary:Changes in precipitation can influence soil water and nutrient availability, and thus affect plant nutrient conservation strategies. Better understanding of how nutrient conservation changes with variations in water availability is crucial for predicting the potential influence of global climate change on plant nutrient-use strategy. Here, green-leaf nitrogen (N) and phosphorus (P) concentrations, N- and P-resorption proficiency (the terminal N and P concentration in senescent leaves, NRP and PRP, respectively), and N- and P-resorption efficiency (the proportional N and P withdrawn from senescent leaves prior to abscission, NRE and PRE, respectively) of Leymus chinensis (Trin.) Tzveh, a typical perennial grass species in northern China, were examined along a water supply gradient to explore how plant nutrient conservation responds to water change. Increasing water supply at low levels (〈 9000 mL/year) increased NRP, PRP and PRE, but decreased green-leaf N concentration. It did not significantly affect green-leaf P concentration or NRE. By contrast, all N and P conservation indicators were not significantly influenced at high water supply levels (〉 9000 mL/year). These results indicated that changes in water availability at low levels could affect leaf-level nutrient characteristics, especially for the species in semiarid ecosystems. Therefore, global changes in precipitation may pose effects on plant nutrient economy, and thus on nutrient cycling in the plant-soil systems.
ISSN:1672-9072
1744-7909
DOI:10.1111/j.1744-7909.2009.00872.x