Document Type
Article - On Campus Only
Publication Date
2009
Abstract
To downscale climate change scenarios, long-term regional climatologies employing global model forcing are needed for West Africa. As a first step, this work examines present-day integrations (1981–2000) with a regional climate model (RCM) over West Africa nested in both reanalysis data and output from a coupled atmospheric–ocean general circulation model (AOGCM). Precipitation and temperature from both simulations are compared to the Climate Research Unit observations. Their spatial distributions are shown to be realistic. Annual cycles are considerably correlated. Simulations are also evaluated with respect to the driving large-scale fields. RCM offers some improvements compared to the AOGCM driving field. Evaluation of seasonal precipitation biases reveals that RCM dry biases are highest on June–August around mountains. They are associated to cold biases in temperature which, in turn, are connected to wet biases in precipitation outside orographic zones. Biases brought through AOGCM forcing are relatively low. Despite these errors, the simulations produce encouraging results and show the ability of the AOGCM to drive the RCM for future projections.
Original Publication Citation
Sylla, M. B., et al. “High-Resolution Simulations of West African Climate Using Regional Climate Model (RegCM3) with Different Lateral Boundary Conditions.” Theoretical & Applied Climatology, vol. 98, no. 3–4, Oct. 2009, pp. 293–314
Digital Commons @ LMU & LLS Citation
Sylla, M. B.; Gaye, A. T.; Pal, Jeremy S.; Jenkins, G. S.; and Bi, X. Q., "High-resolution simulations of West African climate using regional climate model (RegCM3) with different lateral boundary conditions" (2009). Civil and Environmental Engineering Faculty Works. 33.
https://digitalcommons.lmu.edu/es-ce_fac/33