This review provides a description of morpho-anatomical, biochemical and physiological adaptive mechanisms implemented by ornamental plants to cope with salt stress. Ornamental nursery production is still highly water demanding, which roughly can match with limited availability of high quality irrigation water. Since the irrigation of ornamentals with saline or reclaimed waters may be an alternative, there is a strong need in increasing knowledge of the effects that salinity may exert on shrubs and perennial plants used as ornamentals. At high level of salinity, plants exhibit reductions in growth parameters such as dry biomass or leaf area due to osmotic- and ionic-induced stresses. Growth under saline conditions leads to uptake of Na+ and Cl- by plants, which can result in a nutritional imbalance due to the antagonism between nutrients and saline ions, with possible effects on the foliage. Salinity can affect water relations in plants and photosynthetic capacity by stomatal limitations. These negative effects can be counteracted by the plants through the accumulation of compatible solutes or osmolytes and the activation of the antioxidant machinery. Nevertheless, the performance of these mechanisms is sometimes not enough to avoid damage to the decorative and marketable value of ornamental species. In several plant species, the tolerance to NaCl is implemented through a series of adaptations to acclimate to salinity, including the increase in the root/canopy ratio and in the chlorophyll content, in addition to changes in the leaf anatomical traits. These changes allow plant to maintain the water status in order to limit water loss and protect the photosynthetic process, also preventing harmful effects of ion toxicity on leaves. Finally, we claim that, beside the opportunity of maximizing the sustainability of nursery production of ornamentals, a deeper knowledge of adaptive mechanisms to salinity of ornamental shrubs is still needed to achieve a better selection of species more suitable in landscaping and xeriscaping projects in arid and semi-arid areas of Mediterranean Basin.

Meccanismi di adattamento a stress salino in arbusti ornamentali / Cirillo, Chiara; DE MICCO, Veronica; Caputo, Rosanna; DE PASCALE, Stefania. - In: ITALUS HORTUS. - ISSN 1127-3496. - 25:2(2018), pp. 37-49. [10.26353/j.itahort/2018.1.3749]

Meccanismi di adattamento a stress salino in arbusti ornamentali

Chiara Cirillo
;
Veronica De Micco;Rosanna Caputo;Stefania De Pascale
2018

Abstract

This review provides a description of morpho-anatomical, biochemical and physiological adaptive mechanisms implemented by ornamental plants to cope with salt stress. Ornamental nursery production is still highly water demanding, which roughly can match with limited availability of high quality irrigation water. Since the irrigation of ornamentals with saline or reclaimed waters may be an alternative, there is a strong need in increasing knowledge of the effects that salinity may exert on shrubs and perennial plants used as ornamentals. At high level of salinity, plants exhibit reductions in growth parameters such as dry biomass or leaf area due to osmotic- and ionic-induced stresses. Growth under saline conditions leads to uptake of Na+ and Cl- by plants, which can result in a nutritional imbalance due to the antagonism between nutrients and saline ions, with possible effects on the foliage. Salinity can affect water relations in plants and photosynthetic capacity by stomatal limitations. These negative effects can be counteracted by the plants through the accumulation of compatible solutes or osmolytes and the activation of the antioxidant machinery. Nevertheless, the performance of these mechanisms is sometimes not enough to avoid damage to the decorative and marketable value of ornamental species. In several plant species, the tolerance to NaCl is implemented through a series of adaptations to acclimate to salinity, including the increase in the root/canopy ratio and in the chlorophyll content, in addition to changes in the leaf anatomical traits. These changes allow plant to maintain the water status in order to limit water loss and protect the photosynthetic process, also preventing harmful effects of ion toxicity on leaves. Finally, we claim that, beside the opportunity of maximizing the sustainability of nursery production of ornamentals, a deeper knowledge of adaptive mechanisms to salinity of ornamental shrubs is still needed to achieve a better selection of species more suitable in landscaping and xeriscaping projects in arid and semi-arid areas of Mediterranean Basin.
2018
Meccanismi di adattamento a stress salino in arbusti ornamentali / Cirillo, Chiara; DE MICCO, Veronica; Caputo, Rosanna; DE PASCALE, Stefania. - In: ITALUS HORTUS. - ISSN 1127-3496. - 25:2(2018), pp. 37-49. [10.26353/j.itahort/2018.1.3749]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/787182
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