| Abstract: | The oil palm (Elaeis guineensis Jacq.) maintains a large leafarea throughout the year, but its productivity is limited bya low rate of dry matter production per unit leaf area. Stomatalclosure, at times of low soil water availability and high atmosphericvapour pressure deficit, is an important factor limiting photosynthesisand hence dry matter production. In this paper, laboratory andfield data are used to prepare a model of the relationshipsbetween net photosynthetic rate and stomatal conductance, andbetween stomatal conductance and environmental variables. Resultsshow that high atmospheric vapour pressure deficits may limitproduction even in parts of the world where oil palms are notnormally considered to suffer from water stress. The model canbe used to design and evaluate irrigation systems, and to helpquantify the potential value of oil palm genotypes with lowstomatal sensitivity to either VPD or available soil water foruse where irrigation is impractical. Key words: Elaeis guineensis Jacq., drought, irrigation, plant breeding |
