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Convergence in phosphorus constraints to photosynthesis in forests around the world.

David S EllsworthKristine Y CrousMartin G De KauweLore T VerrycktDaniel S GollSönke ZaehleKeith J BloomfieldPhilippe CiaisLucas A CernusakTomas F DominguesMirindi Eric DusengeSabrina GarciaRossella GuerrieriF Yoko IshidaIvan A JanssensTanaka KenzoTomoaki IchieBelinda E MedlynPatrick MeirRichard J NorbyPeter B ReichLucy RowlandLouis S SantiagoYan SunJohan UddlingAnthony P WalkerK W Lasantha K WeerasingheMartine J van de WegYun-Bing ZhangJiao-Lin ZhangIan J Wright
Published in: Nature communications (2022)
Tropical forests take up more carbon (C) from the atmosphere per annum by photosynthesis than any other type of vegetation. Phosphorus (P) limitations to C uptake are paramount for tropical and subtropical forests around the globe. Yet the generality of photosynthesis-P relationships underlying these limitations are in question, and hence are not represented well in terrestrial biosphere models. Here we demonstrate the dependence of photosynthesis and underlying processes on both leaf N and P concentrations. The regulation of photosynthetic capacity by P was similar across four continents. Implementing P constraints in the ORCHIDEE-CNP model, gross photosynthesis was reduced by 36% across the tropics and subtropics relative to traditional N constraints and unlimiting leaf P. Our results provide a quantitative relationship for the P dependence for photosynthesis for the front-end of global terrestrial C models that is consistent with canopy leaf measurements.
Keyphrases
  • climate change
  • high resolution
  • quality improvement