Abstract
The aim of this work is to study the actual evapotranspiration and surface resistance of the savannah using the Bowen-ratio method for two contrasted periods, dry and rainy season. The reliability of this method has been assessed by comparison with the Monteith equation and the soil-water balance method in a 90% Loudetia arundinacea dominated savannah (Pointe Noire, Congo). Our results relate to the period from 18 September to 11 October 1998 (24 days): (a) from 18 to 29 September (“dry season”), the soil-water content was less than 70% of the soil-water content at field capacity (63–70% of R FC; large soil-water stress; T/E P from 0.2 to 0.4); (b) from 30 September to 11 October (“rainy season”) soil-water content close to 90–92% of RFC; no soil-water stress; T/E P from 0.73 to 0.77). The mean daily surface resistance reulting from the Bowen-ratio method was 317 s m−1, 355 s m−1 during the “dry season” and 279 s m−1 during the “rainy season”. The total actual evapotranspiration (E a) resulting from the Bowen-ratio method, Penman-Monteith equation and soil-water balance method were, respectively of 58.6–57.8 and 56.2 mm, with the mean daily Ea of 2.4–2.4 and 2.3 mm day−1 (2.4–1.5 and 2.2 mm day−1 in “dry season” and of 2.5–3.4 and 2.5 mm day−1 in “rainy season”). The Bowen-ratio method was used for the assessment of the actual evapotranspiration from the temperature and specific humidity differences, net radiation and the soil heat flux measurement: its advantages are a rapidity of installation, a temporal resolution of measurement in less than one hour and a good integration of the heterogeneousness of the savannah’s latent flux of vaporization. This method is adapted to eco-physiological studies in tropical conditions with reduced teams.
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Nizinski, J.J., Galat, G. & Galat-Luong, A. Actual evapotranspiration and canopy resistance measurement of the savannah in the Kouilou basin (Congo-Brazzaville). Russ J Ecol 45, 359–366 (2014). https://doi.org/10.1134/S1067413614050191
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DOI: https://doi.org/10.1134/S1067413614050191