Litcius/Paper detail

Tree water uptake enhances nitrogen acquisition in a fertilized boreal forest – but not under nitrogen‐poor conditions

Nils Henriksson, Hyungwoo Lim, John D. Marshall, Oskar Franklin, R. E. McMurtrie, Reimo Lutter, Ruth-Kristina Magh, Tomas Lundmark, Torgny Näsholm

2021New Phytologist40 citationsDOIOpen Access PDF

Abstract

Summary Understanding how plant water uptake interacts with acquisition of soil nitrogen (N) and other nutrients is fundamental for predicting plant responses to a changing environment, but it is an area where models disagree. We present a novel isotopic labelling approach which reveals spatial patterns of water and N uptake, and their interaction, by trees. The stable isotopes 15 N and 2 H were applied to a small area of the forest floor in stands with high and low soil N availability. Uptake by surrounding trees was measured. The sensitivity of N acquisition to water uptake was quantified by statistical modelling. Trees in the high‐N stand acquired twice as much 15 N as in the low‐N stand and around half of their N uptake was dependent on water uptake ( 2 H enrichment). By contrast, in the low‐N stand there was no positive effect of water uptake on N uptake. We conclude that tree N acquisition was only marginally dependent on water flux toward the root surface under low‐N conditions whereas under high‐N conditions, the water‐associated N uptake was substantial. The results suggest a fundamental shift in N acquisition strategy under high‐N conditions.

Topics & Concepts

NitrogenNutrientTaigaEnvironmental scienceBorealAgronomyForest floorChemistryEcologySoil waterBiologySoil scienceOrganic chemistryPlant Water Relations and Carbon DynamicsPlant nutrient uptake and metabolismSoil Carbon and Nitrogen Dynamics