Contributions of radiative factors to enhanced dryland warming over East Asia
Enhanced near‐surface atmospheric warming has occurred over East Asia in recent decades, especially in drylands. Although local factors have been confirmed to provide considerable contributions to this warming, such factors have not been sufficiently analyzed. In this study, we extracted the radiati...
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Veröffentlicht in: | Journal of geophysical research. Atmospheres 2017-08, Vol.122 (15), p.7723-7736 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Enhanced near‐surface atmospheric warming has occurred over East Asia in recent decades, especially in drylands. Although local factors have been confirmed to provide considerable contributions to this warming, such factors have not been sufficiently analyzed. In this study, we extracted the radiatively forced temperature (RFT) associated with the built‐up greenhouse gases, aerosol emission, and various other radiative forcing over East Asia and found a close relationship between RFT and CO2. In addition, using climate model experiments, we explored the responses of temperature changes to black carbon (BC), CO2, and SO4 and found that the enhanced dryland warming induced by CO2 had the largest magnitude and was strengthened by the warming effect of BC. Moreover, the sensitivity of daily maximum and minimum temperature changes to BC, CO2, and SO4 was examined. It showed asymmetric responses of daily maximum and minimum temperature to radiative factors, which led to an obvious change of diurnal temperature range (DTR), especially in drylands. The DTR's response to CO2 is the most significant. Therefore, CO2 not only plays a dominant role in enhanced warming but also greatly affects the decrease of DTR in drylands. However, the mechanisms of these radiative factors' effects in the process of DTR change are not clear and require more investigation.
Key Points
CO2 has a dominant contribution to enhanced dryland warming over East Asia, followed by black carbon (BC)
Daily maximum and minimum temperatures show asymmetrical responses to CO2 and anthropogenic aerosols
CO2 causes the diurnal temperature range (DTR) to decrease in drylands and to increase in humid regions |
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ISSN: | 2169-897X 2169-8996 |
DOI: | 10.1002/2017JD026506 |