Litcius/Paper detail

Phosphorus drives adaptive shifts in membrane lipid pools and synthesis between soils

Charles R. Warren, Orpheus M. Butler

2024Soil Biology and Biochemistry12 citationsDOIOpen Access PDF

Abstract

Phospholipids are key constituents of microbial membranes and account for a substantial fraction of microbial P, while P-free betaine lipids provide a pathway for membrane synthesis independent of P. The aim of this study was to test if modulation of relative amounts of phospholipids vs P-free betaine lipids is a response to P availability. To examine responses of membrane lipids to P availability, we added P or P + C to an extremely P-poor sandstone-derived soil (total P = 41 μg g−1) and a higher P shale-derived soil (total P = 201 μg g−1). By using D2O labelling and LC-MS we were able to disentangle membrane lipid synthesis dependent on P (i.e. 2H incorporation into phospholipids) from membrane lipid synthesis independent of P (i.e. 2H incorporation into P-free betaine lipids). In unamended soils, P-free betaine lipids were almost 60% of the membrane lipid pool of the P-poor sandstone-derived soil, but only 10% of the higher-P shale-derived soil. Hence, to produce a unit of membrane lipid, the microbial population of sandstone soil required only 54% as much P as the microbial population of shale soil. Four days after adding P to the sandstone soil, phospholipids accounted for a larger proportion of the pool and synthesis of membrane lipids while pool and synthesis of P-free betaine lipids decreased. The increased allocation to phospholipids in sandstone soil amended with P likely reflected amelioration of P limitation given that P addition did not affect pools or synthesis of phospholipids versus betaine lipids in the higher-P shale soil. Collectively these data support the idea that having membranes with a high proportion of P-free betaine lipids is a key adaptive trait of microbial populations of P-poor soil, while the plasticity afforded by membrane lipid remodelling enables short-term fine-tuning of membrane lipid composition to P availability.

Topics & Concepts

BetaineMembranePopulationChemistryMembrane lipidsSoil waterPhospholipidBiochemistryBiologyEcologyDemographySociologySoil Carbon and Nitrogen DynamicsSoil and Unsaturated FlowClay minerals and soil interactions