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Physiological and antioxidant mechamisms to overcome water stress on grafted peppers

Among abiotic stresses affecting crops, water scarcity rises as a major problem in many parts of the world, causing important losses in crop yield and productivity every year (Ashraf, 2010; Farooq et al., 2009; Mastrangelo et al., 2012). Grafting emerges as a sustainable technique that can be used t...

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Main Authors: Gara-Padilla, Yaiza, Gisbert-Mullor, Ramón, López-Serrano, Lidia, López-Galarza, Salvador, Calatayud, Ángeles
Format: conferenceObject
Language:Inglés
Published: SEBP/SPFV 2022
Subjects:
Antioxidant mechanisms
F30 Plant genetics and breeding
F06 Irrigation
F61 Plant physiology - Nutrition
F60 Plant physiology and biochemistry
P10 Water resources and management
Water scarcity
Grafting
Productivity
Water stress
Pepper
Drought tolerance
Physiological response
Online Access:http://hdl.handle.net/20.500.11939/8280
Summary:Among abiotic stresses affecting crops, water scarcity rises as a major problem in many parts of the world, causing important losses in crop yield and productivity every year (Ashraf, 2010; Farooq et al., 2009; Mastrangelo et al., 2012). Grafting emerges as a sustainable technique that can be used to face this threat, particularly in Solanaceae species, usually cultivated in areas suffering from water starvation (Fullana-Pericàs et al., 2020; Kumar et al., 2017; Rouphael et al., 2018). Little has been published about the processes underlying grafted plants tolerance to water stress, especially in pepper plants. This work aimed to unravel several physiological and antioxidant mechanisms responsible for tolerance in pepper grafted plants under water stress.

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