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Alaskan carbon-climate feedbacks will be weaker than inferred from short-term experiments

Nicholas Bouskill, W. J. Riley, Qing Zhu, Z. A. Mekonnen, R. F. Grant

2020Nature Communications35 citationsDOIOpen Access PDF

Abstract

Climate warming is occurring fastest at high latitudes. Based on short-term field experiments, this warming is projected to stimulate soil organic matter decomposition, and promote a positive feedback to climate change. We show here that the tightly coupled, nonlinear nature of high-latitude ecosystems implies that short-term (<10 year) warming experiments produce emergent ecosystem carbon stock temperature sensitivities inconsistent with emergent multi-decadal responses. We first demonstrate that a well-tested mechanistic ecosystem model accurately represents observed carbon cycle and active layer depth responses to short-term summer warming in four diverse Alaskan sites. We then show that short-term warming manipulations do not capture the non-linear, long-term dynamics of vegetation, and thereby soil organic matter, that occur in response to thermal, hydrological, and nutrient transformations belowground. Our results demonstrate significant spatial heterogeneity in multi-decadal Arctic carbon cycle trajectories and argue for more mechanistic models to improve predictive capabilities.

Topics & Concepts

Environmental scienceEcosystemGlobal warmingCarbon cycleAtmospheric sciencesTerm (time)Climate changeClimatologyArcticSoil carbonEcologySoil scienceSoil waterBiologyGeologyPhysicsQuantum mechanicsClimate change and permafrostGeology and Paleoclimatology ResearchCryospheric studies and observations
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