TY - JOUR
T1 - Observed shifts in land surface conditions during the North American Monsoon
T2 - Implications for a vegetation-rainfall feedback mechanism
AU - Méndez-Barroso, Luis A.
AU - Vivoni, Enrique
N1 - Funding Information:
We would like to acknowledge funding from the NOAA Climate Program Office (Grant CPPA GC07-019). We also acknowledge Christopher J. Watts, Jaime Garatuza-Payán and Julio C. Rodríguez for providing tower data sets used in this work. L.M.B. acknowledges the Mexican Council of Science and Technology (CONACYT) for a graduate fellowship. E.R.V. thanks the U.S. Fulbright Scholar program for sponsoring a one semester visit to Universidad de Sonora.
PY - 2010/5
Y1 - 2010/5
N2 - The North American Monsoon (NAM) is characterized by seasonal precipitation pulses which produce a considerable impact on land surface conditions. Changes in land surface processes have received less attention among the factors that concurrently influence the NAM. In this study, we utilize remotely-sensed and ground-based measurements to infer land surface changes that can influence the NAM through a vegetation-rainfall feedback mechanism. Our study is focused over the period 2004-2007 in northwest Mexico. Results from the analysis of remote sensing data indicate that the ground observations at an eddy covariance tower are representative of the land surface dynamics in subtropical scrublands. The extensive subtropical scrubland region exhibits a high seasonality in vegetation greenness, albedo and land surface temperature. Given the site representativeness, an analysis of land-atmosphere observations prior to and during the NAM is used to infer the necessary conditions for a vegetation-rainfall feedback mechanism in subtropical scrublands. We find that precipitation during the monsoon onset leads to changes in vegetation that impact land surface states and fluxes. For sunny days, the land surface conditions support the existence of a positive vegetation-rainfall feedback. Persistent cloudiness arising from prior storm events, however, can weaken the feedback mechanism. The land-based inferences on the vegetation-rainfall feedback presented here need to be corroborated with regional atmospheric measurements and modeling.
AB - The North American Monsoon (NAM) is characterized by seasonal precipitation pulses which produce a considerable impact on land surface conditions. Changes in land surface processes have received less attention among the factors that concurrently influence the NAM. In this study, we utilize remotely-sensed and ground-based measurements to infer land surface changes that can influence the NAM through a vegetation-rainfall feedback mechanism. Our study is focused over the period 2004-2007 in northwest Mexico. Results from the analysis of remote sensing data indicate that the ground observations at an eddy covariance tower are representative of the land surface dynamics in subtropical scrublands. The extensive subtropical scrubland region exhibits a high seasonality in vegetation greenness, albedo and land surface temperature. Given the site representativeness, an analysis of land-atmosphere observations prior to and during the NAM is used to infer the necessary conditions for a vegetation-rainfall feedback mechanism in subtropical scrublands. We find that precipitation during the monsoon onset leads to changes in vegetation that impact land surface states and fluxes. For sunny days, the land surface conditions support the existence of a positive vegetation-rainfall feedback. Persistent cloudiness arising from prior storm events, however, can weaken the feedback mechanism. The land-based inferences on the vegetation-rainfall feedback presented here need to be corroborated with regional atmospheric measurements and modeling.
KW - Ecohydrology
KW - North American Monsoon
KW - Remote sensing
KW - Semiarid ecosystems
KW - Sonoran desert
KW - Spatiotemporal variability
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U2 - 10.1016/j.jaridenv.2009.09.026
DO - 10.1016/j.jaridenv.2009.09.026
M3 - Article
AN - SCOPUS:76849086907
SN - 0140-1963
VL - 74
SP - 549
EP - 555
JO - Journal of Arid Environments
JF - Journal of Arid Environments
IS - 5
ER -