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Varying snow and vegetation signatures of surface albedo feedback on the Northern Hemisphere land warming

TitoloVarying snow and vegetation signatures of surface albedo feedback on the Northern Hemisphere land warming
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2020
AutoriAlessandri, Andrea, Catalano Franco, De Felice Matteo, van den Hurk Bart, and Balsamo Gianpaolo
RivistaEnvironmental Research Letters
Data di pubblicazione12/2020
Parole chiaveAbsorbed solar radiations, albedo, Global warming, Greenhouse gases, Historical periods, Northern Hemisphere, Northern Hemispheres, Satellite data, Satellite observations, Short-wave radiation, Snow, snow cover, solar radiation, surface temperature, Surface temperatures, Temperature increase, Underlying surface, Vegetation, vegetation cover

Changes in snow and vegetation cover associated with global warming can modify surface albedo (the reflected amount of radiative energy from the sun), therefore modulating the rise of surface temperature that is primarily caused by anthropogenic greenhouse-gases emission. This introduces a series of potential feedbacks to regional warming with positive (negative) feedbacks enhancing (reducing) temperature increase by augmenting (decreasing) the absorption of short-wave radiation. So far our knowledge on the importance and magnitude of these feedbacks has been hampered by the limited availability of relatively long records of continuous satellite observations. Here we exploit a 31 year (1982-2012) high-frequency observational record of land data to quantify the strength of the surface-albedo feedback on land warming modulated by snow and vegetation during the recent historical period. To distinguish snow and vegetation contributions to this feedback, we examine temporal composites of satellite data in three different Northern Hemisphere domains. The analysis reveals and quantifies markedly different signatures of the surface-albedo feedback. A large positive surface-albedo feedback of +0.87 (CI 95%: 0.68, 1.05) W(m2 · K)−1 absorbed solar radiation per degree of temperature increase is estimated in the domain where snow dominates. On the other hand the surface-albedo feedback becomes predominantly negative where vegetation dominates: it is largely negative (−0.91 (−0.81, −1.03) W(m2 · K)−1) in the domain with vegetation dominating, while it is moderately negative (−0.57 (−0.40, −0.72) W(m2 · K)−1) where both vegetation and snow are significantly present. Snow cover reduction consistently provides a positive feedback on warming. In contrast, vegetation expansion can produce either positive or negative feedbacks in different regions and seasons, depending on whether the underlying surface being replaced has higher (e.g. snow) or lower (e.g. dark soils) albedo than vegetation. This work provides fundamental knowledge to model and predict how the surface-albedo feedback will evolve and affect the rate of regional temperature rise in the future. © 2021 The Author(s). Published by IOP Publishing Ltd


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Titolo breveEnviron. Res. Lett.
Citation Key8428