Titolo | Impact of atmosphere and land surface initial conditions on seasonal forecasts of global surface temperature |
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Tipo di pubblicazione | Articolo su Rivista peer-reviewed |
Anno di Pubblicazione | 2014 |
Autori | Materia, S., Borrelli A., Bellucci A., Alessandri Andrea, di Pietro P., Athanasiadis P., Navarra A., and Gualdi S. |
Rivista | Journal of Climate |
Volume | 27 |
Paginazione | 9253-9271 |
ISSN | 08948755 |
Parole chiave | Atlantic Ocean, Atlantic Ocean (Tropical), atmosphere-ocean coupling, atmospheric modeling, Atmospheric temperature, Coupled models, Dependent variables, El Nino-Southern Oscillation, Forecast verification/skill, forecasting method, Global surface temperature, Individual components, land surface, Mediterranean region, Model initialization, Pacific Ocean, Pacific Ocean (North), prediction, Seasonal forecasting, Soil moisture, Surface measurement, surface temperature, Weather forecasting |
Abstract | The impact of land surface and atmosphere initialization on the forecast skill of a seasonal prediction system is investigated, and an effort to disentangle the role played by the individual components to the global predictability is done, via a hierarchy of seasonal forecast experiments performed under different initialization strategies.Arealistic atmospheric initial state allows an improved equilibrium between the ocean and overlying atmosphere, increasing the model predictive skill in the ocean. In fact, in regions characterized by strong air-sea coupling, the atmosphere initial condition affects forecast skill for several months. In particular, the ENSO region, eastern tropical Atlantic, andNorth Pacific benefit significantly fromthe atmosphere initialization.Onthemainland, the effect of atmospheric initial conditions is detected in the early phase of the forecast, while the quality of land surface initialization affects forecast skill in the following seasons. Winter forecasts in the high-latitude plains benefit fromthe snow initialization, while the impact of soil moisture initial state is particularly effective in the Mediterranean region and central Asia. However, the initialization strategy based on the full value technique may not be the best choice for land surface, since soil moisture is a strongly model-dependent variable: in fact, initialization through land surface reanalysis does not systematically guarantee a skill improvement. Nonetheless, using a different initialization strategy for land, as opposed to atmosphere and ocean, may generate inconsistencies. Overall, the introduction of a realistic initialization for land and atmosphere substantially increases skill and accuracy.However, further developments in the procedure for land surface initialization are required for more accurate seasonal forecasts. © 2014 American Meteorological Society. |
Note | cited By 10 |
URL | https://www.scopus.com/inward/record.uri?eid=2-s2.0-84919772817&doi=10.1175%2fJCLI-D-14-00163.1&partnerID=40&md5=e10d296ef74ce32ca5786dae5b6a7719 |
DOI | 10.1175/JCLI-D-14-00163.1 |
Citation Key | Materia20149253 |