Abstract
The table olive cultivar ‘Meski’ was subjected to two stresses related to water, scarcity, and salinity. Anatomical adaptations of leaves, stems and roots were studied and compared, to value the water use efficiency of the tree. Two stress levels were adopted corresponding to moderate and severe levels. Thus, the trees behaviour was influenced by the stress type and intensity. The aerial part of the trees showed more adaptation modes than the underground part. Under both stresses, plants have fortified the protection of the leaf tissues by developing upper envelope and multiplying the trichomes. Plants reinforced the support tissues by multiplying the collenchyma and sclereids, and have amplified the transport tissues by enhancing vascularity through multiplying the number of conductive vessels. However, different behaviours seemed to be specific to each stress such an enlargement of liber and reduction of wood in the drought stress and a restriction of liber and wood tissues in salt stress. Additionally, a retraction of the palisade parenchyma and an extension of the spongy parenchyma in drought stress inversely to salt stress were noted. In the treated stems and roots, development of stomata, suber, pericyclic fiber and liber, and a restriction of wood especially in severe stress were observed. The plants developed important changes in moderate stresses; however, in the severe, the plants seemed to be stressed, by presenting no significant changes relatively to the control.
Highlights
The Mediterranean is one of the most vulnerable regions in the world to the impacts of global warming (IPPC, 2013)
This vascularization decreased in ‘Meski’ leaves of D2. This variety appeared to be stressed during increased aridity and severe drought characterizing the south of Tunisia (Figure 1 B1, B2 and B3)
‘Meski’ developed significantly its leaf upper envelope, either in the midrib, or in the blade especially when subjected to the moderate salt stress (4 g/L) comparatively to the severe
Summary
The Mediterranean is one of the most vulnerable regions in the world to the impacts of global warming (IPPC, 2013). North Africa is the most exposed to climate change impacts. Scenarios predict an average rise in annual temperatures, higher than the average expected for the planet (Radhouane, 2013). North Africa would be affected by droughts that would be more frequent, more intense and longer-lasting. Rising temperatures associated with climate change are expected to decrease the land areas suitable for agriculture, shorten the length of growing seasons and reduce crop yields. Tunisia is among the top 10 impacted countries showing increasing dramatic effects of climate change (Dasgupta et al, 2007). The number and intensity of droughts are increasing; water resources are declining causing loss of groundwater reserves, loss in arable cropland, and loss of rain-fed forested areas in southern
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