Effect of eucalyptus on blue and green water availability and discharge in the tropical highlands: An interpretation of available literature
Author:
Steenhuis Tammo S.12, Alemie Telashwork C.3, Muche Habtamu2, Tilahun Seifu A.24, Zimale Fasikaw A.2, Mhiret Demesew A.2
Affiliation:
1. 1 Department of Biological and Environmental Engineering , Cornell University Ithaca NY 14853 , USA . 2. 2 Faculty of Civil and Water Resources Engineering , Bahir Dar University , Bahir Dar , Ethiopia . 3. 3 Department of Soil and Water Management , Amhara Regional Agricultural Research Institute , Bahir Dar , Ethiopia . 4. 4 International Water Management Institute , Accra , Ghana .
Abstract
Abstract
The highlands serve as water towers for the blue water in the surrounding area, with often insufficient rainfall for rainfed crops. The population is growing in the highlands, changing the hydrology and blue and green water availability. One of the changes that affect the highlands of Ethiopia is the rapidly expanding areas of small patches of eucalyptus on farmers fields. This manuscript aims to sort through the limited available literature and develop a water balance model as a starting point to discuss how hydrology is affected by increased acreage of eucalyptus in the highlands. We find some evidence in the literature that patches of eucalyptus during the dry phase may withdraw water from the subsoil up to twice the rate of evapotranspiration when the soil water is not limited. Since saturation excess generates surface runoff in the subhumid and humid highlands, water withdrawn during the dry phase should be made up before the area with eucalyptus becomes hydraulically active. The amount of water that can be removed from storage by eucalyptus is greater in areas with a long dry monsoon phase than in temperate climates for the same increase in trees. We also found, as expected, that the eucalyptus water balance model, as developed in this paper, was not valid for areas in semi-arid and arid regions. Soil crusting and water repellency might induce infiltration excess runoff. A tentative implication is that since most blue water is produced in the areas with the highest rainfall, eucalyptus in subhumid and humid monsoon regions will affect the blue water supply downstream but not the plant available green water although shading will decrease yield in the immediate surroundings of the eucalyptus trees.
Publisher
Walter de Gruyter GmbH
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