Morphological performance and seasonal pattern of water relations and gas exchange in Pistacia lentiscus plants subjected to salinity and water deficit

Abstract: Soil water deficit and salinity represent a major factor impacting plant survival and agricultural production. The frequency and severity of both abiotic stresses are expected to increase in a context of climate change, especially in arid and semi-arid regions. This work studied the growth pattern, biomass and mineral distribution and the seasonal pattern of water status, photosynthetic rate and stomatal conductance in plant of Pistacia lentiscus grown under different levels of water deficit and salinity. P. l… Show more

“…Under salinity stress, the roots constitute the first restriction barrier to avoid the entrance of salinity ions (mainly Na + and Cl − ), which could be translocated to the aerial part (Munns, 2005) and inhibit photosynthesis and other physiological processes (Tavakkoli et al, 2011; Álvarez et al, 2023). Although both ions provoke damage in plant cells, the the energy costs of Na + in plants is higher than Cl − and plant's capacity to limit the Na + transport from roots to leaves is generally correlated with salt tolerance (Munns, 2005; Penella et al, 2015).…”

Differential gene expression patterns and physiological responses improve adaptation to high salinity concentration in pepper accessions

“…Under salinity stress, the roots constitute the first restriction barrier to avoid the entrance of salinity ions (mainly Na + and Cl − ), which could be translocated to the aerial part (Munns, 2005) and inhibit photosynthesis and other physiological processes (Tavakkoli et al, 2011; Álvarez et al, 2023). Although both ions provoke damage in plant cells, the the energy costs of Na + in plants is higher than Cl − and plant's capacity to limit the Na + transport from roots to leaves is generally correlated with salt tolerance (Munns, 2005; Penella et al, 2015).…”

Differential gene expression patterns and physiological responses improve adaptation to high salinity concentration in pepper accessions

Farmland mulching and optimized irrigation increase water productivity and seed yield by regulating functional parameters of soybean (Glycine max L.) leaves