Journal
TREE PHYSIOLOGY
Volume 41, Issue 5, Pages 697-707Publisher
OXFORD UNIV PRESS
DOI: 10.1093/treephys/tpaa139
Keywords
C-13; carbon allocation; drought; isotopes; N-15; nitrogen allocation; Pinus sylvestris
Categories
Funding
- Swiss National Fund grant [31003A_157126/1]
- Swiss National Fund [31003A_159866]
- SNF Ambizione grant 'TreeCarbo' [PZ00P2_179978]
- Swiss National Science Foundation (SNF) [31003A_157126, 31003A_159866, PZ00P2_179978] Funding Source: Swiss National Science Foundation (SNF)
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Drought can affect the allocation of carbon and nutrients in trees, but elevated soil nutrient availability may help trees respond better to drought stress. Fertilization can improve root metabolism and function, stimulating carbon allocation to belowground tissues, thus mitigating the impact of drought on trees.
Drought alters allocation patterns of carbon (C) and nutrients in trees and eventually impairs tree functioning. Elevated soil nutrient availability might alter the response of trees to drought. We hypothesize that increased soil nutrient availability stimulates root metabolism and C allocation to belowground tissues under drought stress. To test this hypothesis, we subjected 3-year-old Pinus sylvestris L. saplings in open-top chambers during two subsequent years to drought using three different water treatments (100, 20 and 0% plant available water in the soil) and two soil nutrient regimes (ambient and nitrogen-phosphorus-potassium (N-P-K) fertilization corresponding to 5 g N m(-2) year(-1)) and released drought thereafter. We conducted a N-15 and C-13 labeling experiment during the peak of the first-year drought by injecting N-15 labeled fertilizer in the soil and exposing the tree canopies to C-13 labeled CO2. The abundance of the N and C isotopes in the roots, stem and needles was assessed during the following year. Carbon uptake was slightly lower in drought-stressed trees, and extreme drought inhibited largely the N uptake and transport. Carbon allocation to belowground tissues was decreased under drought, but not in combination with fertilization. Our results indicate a potential positive feedback loop, where fertilization improved the metabolism and functioning of the roots, stimulating C allocation to belowground tissues. This way, soil nutrients compensated for drought-induced loss of root functioning, mitigating drought stress of trees.
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