%0 Journal Article
%T Din¨¢mica del flujo de bi¨®xido de carbono y de energ¨ªa sobre un pastizal natural del norte de M¨¦xico
%A Zerme£¿o-Gonz¨¢lez
%A Alejandro
%A R¨ªos-Estudillo
%A Jorge Aimir
%A Gil Marin
%A Jos¨¦ Alexander
%A Cadena-Zapata
%A Mart¨ªn
%A Villarreal-Quintanilla
%A Jos¨¦ ¨¢ngel
%J Bioagro
%D 2011
%I Decanato de Agronom¨ªa de la Universidad Centroccidental
%X as the grassland covers a significant fraction of the continental surface, they may have an important contribution to the sequestration of atmospheric carbon dioxide. for this reason, the objective of this research was to use the eddy covariance method to measure the flux of carbon dioxide (co2) and energy (net radiation, sensible heat, latent heat and soil heat flux), above a natural grassland of northern mexico, to evaluate the rate of co2 assimilation by the vegetated surface and the partitioning of the energy fluxes. the co2 assimilation rate by the grassland was up to 18 ¦Ìmol¡¤m-2 s-1. the average daily retention of co2 by the grassland (difference between assimilation during daytime and release during nighttime) was 123,081 mmol¡¤m-2, which corresponded to a daily average of 54.12 kg¡¤ha-1. this shows the importance of this ecosystem in the sequestration of atmospheric carbon dioxide. the intrinsic water use efficiency and the energy use efficiency were higher in cloudy days than under conditions of clear sky. net radiation over the vegetated surface was mainly dissipated in latent heat flux, sensible heat flux and in a smaller rate in soil heat flux. this showed the importance of evapotranspiration on dissipating the absorbed radiation by the vegetated surface.
%K energy balance
%K eddy covariance
%K photosynthesis.
%U http://www.scielo.org.ve/scielo.php?script=sci_abstract&pid=S1316-33612011000100005&lng=en&nrm=iso&tlng=en