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Climate and atmospheric deposition effects on forest water-use efficiency and nitrogen availability across Britain

Rossella Guerrieri, Elena Vanguelova, Rona Pitman, Sue Benham, Michael P. Perks, James Morison, Maurizio Mencuccini

2020Scientific Reports22 citationsDOIOpen Access PDF

Abstract

Abstract Rising atmospheric CO 2 (c a ) has been shown to increase forest carbon uptake. Yet, whether the c a -fertilization effect on forests is modulated by changes in sulphur (S dep ) and nitrogen (N dep ) deposition and how N dep affects ecosystem N availability remains unclear. We explored spatial and temporal (over 30-years) changes in tree-ring δ 13 C-derived intrinsic water-use efficiency (iWUE), δ 18 O and δ 15 N for four species in twelve forests across climate and atmospheric deposition gradients in Britain. The increase in iWUE was not uniform across sites and species-specific underlying physiological mechanisms reflected the interactions between climate and atmospheric drivers (oak and Scots pine), but also an age effect (Sitka spruce). Most species showed no significant trends for tree-ring δ 15 N, suggesting no changes in N availability. Increase in iWUE was mostly associated with increase in temperature and decrease in moisture conditions across the South–North gradient and over 30-years. However, when excluding Sitka spruce (to account for age or stand development effects), variations in iWUE were significantly associated with changes in c a and S dep . Our data suggest that overall climate had the prevailing effect on changes in iWUE across the investigated sites. Whereas, detection of N dep , S dep and c a signals was partially confounded by structural changes during stand development.

Topics & Concepts

Scots pineEnvironmental scienceDendrochronologyClimate changeEcosystemWater-use efficiencyDeposition (geology)Atmospheric sciencesForest ecologyδ13CEcologyPhysical geographyBiologyGeographyStable isotope ratioPinus <genus>GeologyBotanyIrrigationSedimentPaleontologyPhysicsQuantum mechanicsPlant Water Relations and Carbon DynamicsTree-ring climate responsesPlant responses to elevated CO2
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