Search results for " salinity tolerance"

showing 3 items of 3 documents

Native-Invasive Plants vs. Halophytes in Mediterranean Salt Marshes: Stress Tolerance Mechanisms in Two Related Species

2016

Dittrichia viscosa is a Mediterranean ruderal species that over the last decades has expanded into new habitats, including coastal salt marshes, ecosystems that are per se fragile and threatened by human activities. To assess the potential risk that this native-invasive species represents for the genuine salt marsh vegetation, we compared its distribution with that of Inula crithmoides, a taxonomically related halophyte, in three salt marshes located in “La Albufera” Natural Park, near the city of Valencia (East Spain). The presence of D. viscosa was restricted to areas of low and moderate salinity, while I. crithmoides was also present in the most saline zones of the salt marshes. Analyses…

0106 biological sciencesWater stress toleranceDrought toleranceBOTANICAdrought tolerancePlant ScienceBiologylcsh:Plant culture010603 evolutionary biology01 natural sciencesInvasive speciesHalophyteBotanyDittrichia viscosaBIOQUIMICA Y BIOLOGIA MOLECULARRuderal specieslcsh:SB1-1110Original ResearchBIOLOGIA VEGETALgeographyInula crithmoidesgeography.geographical_feature_categoryDittrichia viscosabiology.organism_classificationNative-invasive speciesSalinity toleranceSalinityOsmolytesOsmolyteOxidative stressSalt marshToxic ions010606 plant biology & botanyDittrichia viscosa; Inula crithmoides; Native-invasive species; Osmolytes; Oxidative stress; Salinity tolerance; Toxic ions; Water stress tolerance
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Root vacuolar sequestration and suberization are prominent responses of Pistacia spp. rootstocks during salinity stress

2021

Abstract Understanding the mechanisms of stress tolerance in diverse species is needed to enhance crop performance under conditions such as high salinity. Plant roots, in particular in grafted agricultural crops, can function as a boundary against external stresses in order to maintain plant fitness. However, limited information exists for salinity stress responses of woody species and their rootstocks. Pistachio (Pistacia spp.) is a tree nut crop with relatively high salinity tolerance as well as high genetic heterogeneity. In this study, we used a microscopy‐based approach to investigate the cellular and structural responses to salinity stress in the roots of two pistachio rootstocks, Pis…

Plant ScienceBiologyBiochemistry Genetics and Molecular Biology (miscellaneous)salinity tolerancePistacia integerrimasuberizationSuberinExodermispistachio rootstockEcology Evolution Behavior and Systematicsvacuolar sequestrationEcologyPistaciaexodermisfungiBotanyXylemfood and beveragesbiology.organism_classificationendodermisSettore AGR/03 - Arboricoltura Generale E Coltivazioni ArboreeSalinityHorticultureQK1-989EndodermisRootstockendodermis exodermis pistachio rootstock salinity tolerance suberization vacuolar sequestrationPlant Direct
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Plant Response to Saline-Water Irrigation in a Sicilian Vineyard

2012

This chapter presents results of a 3-year field investigation in a vineyard located in Sicily (Mazara del Vallo, Trapani) within the framework of the Project “Evolution of cropping systems as affected by climate change” (CLIMESCO). Soil-plant responses to two saline irrigation waters were determined by measuring soil hydrological characteristics, soil salinity, crop transpiration and stomatal conductance in field plots of a Sicilian vineyard. The results proved that crop transpiration (T r) and stomatal conductance (G s) were significantly affected by soil salinity conditions, expressed by electrical conductivity of soil saturation extract (ECe). Significant reductions in T r and G s were f…

SalinityHorticultureIrrigationStomatal conductanceSoil salinityDeficit irrigation Grapes Salinity tolerance Stomatal conductance TranspirationDeficit irrigationSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-ForestaliEnvironmental scienceSaline waterVineyardTranspiration
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