Litcius/Paper detail

Cloud cooling effects of afforestation and reforestation at midlatitudes

Sara Cerasoli, Jun Yin, Amilcare Porporato

2021Proceedings of the National Academy of Sciences87 citationsDOIOpen Access PDF

Abstract

Because of the large carbon sequestration potential, reforestation and afforestation (R&A) are among the most prominent natural climate solutions. However, while their effectiveness is well established for wet tropics, it is often argued that R&A are less advantageous or even detrimental at higher latitudes, where the reduction of forest albedo (the amount of reflected solar radiation by a surface) tends to nullify or even overcome the carbon benefits. Here, we carefully analyze the situation for R&A at midlatitudes, where the warming effects due to vegetation albedo are regarded to be almost balanced by the cooling effects from an increased carbon storage. Using both satellite data and atmospheric boundary-layer models, we show that by including cloud-albedo effects due to land-atmosphere interactions, the R&A cooling at midlatitudes becomes prevalent. This points to a much greater potential of R&A for wet temperate regions than previously considered.

Topics & Concepts

ReforestationAlbedo (alchemy)AfforestationEnvironmental scienceAtmospheric sciencesMiddle latitudesTemperate climateVegetation (pathology)Cloud albedoAtmosphere (unit)Deforestation (computer science)Carbon sinkCarbon sequestrationClimatologyTropicsClimate changeCloud coverMeteorologyAgroforestryCarbon dioxideGeologyCloud computingGeographyEcologyBiologyOperating systemProgramming languagePerformance artMedicineComputer scienceArt historyArtPathologyClimate variability and modelsPlant Water Relations and Carbon DynamicsAtmospheric aerosols and clouds