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Sex‐specific phosphorus acquisition strategies and cycling in dioecious <i>Populus euphratica</i> forests along a natural water availability gradient

Miao Liu, Liyun Ye, Liang‐Liang Chen, Helena Korpelainen, Ülo Niinemets, Chunyang Li

2024Plant Cell & Environment13 citationsDOI

Abstract

Soil phosphorus (P) availability affects plant growth and distribution. However, it is still unknown how sex-specific variation in functional traits affects plants' P acquisition and soil P transformation. On wet sites, female poplars had a greater specific root length (SRL), and a higher diversity of arbuscular mycorrhizal fungi (AMF) and phosphate-solubilizing bacteria (PSB). Male poplars living on wet sites increased the abundance of AMF and PSB communities and enhanced moderately labile and highly resistant organic P mineralisation via increased phosphatase activity. In contrast, on the dry site, the abundance and diversity of AMF and PSB communities increased in females, enhancing moderately labile and highly resistant organic P mineralisation via elevating phosphatase activities. Males maintained greater SRL and promoted Ca-P mobilisation via the release of root carboxylic acids and rhizosphere acidification on the dry site. The AMF community diversity followed a similar pattern as that of the PSB community when altering the P availability of different-sex plants. Our results indicated that organic P and Ca-P are the major sources of plant-available P in natural P. euphratica forests. Seasonal shifts and geographic locations affected the share of organic and inorganic P pools, and AMF and PSB diversities, ultimately altering sex-specific P acquisition strategies of plants.

Topics & Concepts

RhizosphereBiologyCyclingPhosphorusAbundance (ecology)BotanyEcologyAgronomyChemistryBacteriaForestryGeographyOrganic chemistryGeneticsPlant nutrient uptake and metabolismSoil Carbon and Nitrogen DynamicsMycorrhizal Fungi and Plant Interactions
Sex‐specific phosphorus acquisition strategies and cycling in dioecious <i>Populus euphratica</i> forests along a natural water availability gradient | Litcius