Polyamine Homeostasis and Morphophysiological Responses to Salinity in Dizygostemon riparius: An Endemic Species from Brazilian 'Cerrado' Biome.
Jordanya Ferreira Pinheiro, Sérgio Heitor Sousa Felipe, Irislene Cutrim Albuquerque, Vitória Karla de Oliveira Silva-Moraes, Givago Lopes Alves, Marion Nayon Braga Soares, Juliane Maciel Henschel, Laíse Trugilio Moreira Marinho, Claudete Santa-Catarina, Diego Silva Batista, Fábio Afonso Mazzei Moura de Assis Figueiredo, Fabrício de Oliveira Reis, Tiago Massi Ferraz, Aldilene da Silva Lima, Thais Roseli Corrêa
Abstract
Open AccessDizygostemon riparius is an endemic tropical Brazilian species whose physiological responses to salinity are poorly understood. This study evaluated the effects of NaCl (0, 50, and 100 mM) on in vitro-grown D. riparius by integrating growth, anatomical, photosynthetic, and biochemical analyses. Salinity significantly reduced biomass and growth parameters, indicating impaired development. Photosystem II efficiency declined, as evidenced by decreases in the performance index and chlorophyll content, while anatomical changes such as epidermal thickening and reduced vascular bundles reflected structural adjustments under stress. At the biochemical level, salinity altered polyamine metabolism, with reductions in total free polyamines, suggesting potential limitations in defense mechanisms. Hyperhydricity observed under high salinity indicated a non-adaptive response. Overall, D. riparius displayed limited tolerance to salt stress, with physiological and biochemical impairments outweighing structural plasticity. This study provides the first data-driven characterization of salinity effects in this species and highlights the value of in vitro culture as a tool to investigate stress responses.