Please use this identifier to cite or link to this item: http://hdl.handle.net/11189/2848
Title: Photosynthetic adaptation of two semi-arid species of Gethyllis (Kukumakranka) to drought-and-shade stress
Authors: Daniels, CW 
Mabusela, W.T. 
Marnewick, Jeanine L 
Valentine, AJ 
Keywords: Geophytes;Photon yield;Specific leaf mass;Stomatal conductance;Succulent Karoo;Transpiration rates
Issue Date: 2013
Source: Daniels, C. W., Mabusela, W. T., Marnewick, J. L., & Valentine, A. J. (2013). Photosynthetic adaptation of two semi-arid species of Gethyllis (Kukumakranka) to drought-and-shade stress. South African Journal of Botany, 88, 36-41.
Abstract: Gethyllis multifolia and Gethyllis villosa are winter-growing, summer-blooming, deciduous and bulbous geophytes that grow naturally in the semi-arid ‘Succulent Karoo Biome’ of South Africa. G. multifolia is threatened in its natural habitat and resides in the ‘Vulnerable’ category of the ‘Red Data List of Southern African Plants’. Previous investigations suggested that G. multifolia is more sensitive to drought stress than G. villosa and that both species adopted certain morphological changes in their leaves during shade stress. Current models indicate that this biome is being exposed to increasingly drier conditions and shading from encroaching indigenous plant species. In this study, the photosynthetic gas exchange responses of both species to drought and shade stresses were investigated and the ‘Vulnerable’ conservation status of G. multifolia. This investigation found that during drought stress G. villosa had a more enhanced photosynthetic performance than G. multifolia which appears not to be related to foliar adaptations such as specific leaf mass (SLM), but to the G. villosa's leaves maintaining their stomatal conductance (Gs), photosynthetic light compensation (LCP) and photon yields. Furthermore, during shade stress G. villosa also had an improved photosynthetic performance by not altering its photosynthetic LCP during reduced light conditions. It can be concluded that G. multifolia has a lower capacity than G. villosa to adapt its photosynthetic apparatus to changing environments such as increasing drought and shaded conditions. This may be a contributing factor to the threatened conservation status of G. multifolia.
URI: http://dx.doi.org/10.1016/j.sajb.2013.03.018
http://hdl.handle.net/11189/2848
Appears in Collections:HWSci - Journal Articles (DHET subsidised)

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