Widespread seasonal compensation effects of spring warming on northern plant productivity
Résumé
Climate change is shifting the phenological cycles of plants[1], thereby
altering the functioning of ecosystems, which in turn induces feedbacks to the
climate system[2]. In northern (north of 30° N) ecosystems, warmer springs
lead generally to an earlier onset of the growing season[3, 4] and increased
ecosystem productivity early in the season[5]. In situ[6] and regional[7, 8, 9]
studies also provide evidence for lagged effects of spring warmth on plant
productivity during the subsequent summer and autumn. However, our
current understanding of these lagged effects, including their direction
(beneficial or adverse) and geographic distribution, is still very limited. Here
we analyse satellite, terrestrial and model-derived data for the period 1982–
2011 and show that there are widespread and contrasting lagged productivity
responses to spring warmth across northern ecosystems. On the basis of the
observational data, we find that roughly 15 per cent of the total study area of
about 41 million square kilometres exhibits adverse lagged effects and that
roughly 5 per cent of the total study area exhibits beneficial lagged effects
By contrast, current-generation terrestrial carbon-cycle models predict much
lower areal fractions of adverse lagged effects (ranging from 1 to 14 per cent)
and much higher areal fractions of beneficial lagged effects (ranging from 9
to 54 per cent). We find that elevation and seasonal precipitation patterns
largely dictate the geographic pattern and direction of the lagged effects.
Inadequate consideration in current models of the effects of the seasonal
build-up of water stress on seasonal vegetation growth may therefore be able
to explain the differences that we found between our observation-constrained
estimates and the model-constrained estimates of lagged effects associated
with spring warming. Overall, our results suggest that for many northern
ecosystems the benefits of warmer springs on growing-season ecosystem
productivity are effectively compensated for by the accumulation of seasonal
water deficits, despite the fact that northern ecosystems are thought to be
largely temperature- and radiation-limited[
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