Gas exchange, photosynthetic pigments, and growth of hydroponic okra under salt stress and salicylic acid

Article Environmental Sciences

Salicylic acid alleviates the effects of salt stress on the physiology, growth, and production of hydroponic okra

Andre Alisson Rodrigues da Silva et al.

Summary: The application of salicylic acid can mitigate the harmful effects of salt stress on the physiology, growth, and production of okra in a hydroponic system. A concentration of 1.2 mM of salicylic acid can effectively attenuate the detrimental impacts of salt stress on hydroponic okra, resulting in increased total production per plant.

ARID LAND RESEARCH AND MANAGEMENT (2023)

添加到收藏夹

Article Agronomy

GAS EXCHANGE AND HYDROPONIC PRODUCTION OF ZUCCHINI UNDER SALT STRESS AND H2O2 APPLICATION

Maila Vieira Dantas et al.

Summary: This study evaluated the effect of foliar application of hydrogen peroxide on the growth and fruit quality of zucchini under salt stress in a hydroponic system. The results showed that hydrogen peroxide was not able to effectively mitigate the effects of salt stress in a high salinity nutrient solution environment.

REVISTA CAATINGA (2022)

添加到收藏夹

Article Agricultural Engineering

Morphophysiology and production of guava as a function of water salinity and salicylic acid

Cassiano N. de Lacerda et al.

Summary: This study evaluated the morphophysiology and production of grafted guava cv. Paluma subjected to irrigation with saline waters and foliar application of salicylic acid. The results showed that irrigation with high electrical conductivity water negatively affected the growth and yield of guava cv. Paluma, and salicylic acid application did not mitigate the effects of salt stress.

REVISTA BRASILEIRA DE ENGENHARIA AGRICOLA E AMBIENTAL (2022)

添加到收藏夹

Review Environmental Sciences

Non-stomatal limitation of photosynthesis by soil salinity

Ting Pan et al.

Summary: This study summaries the impact of salinity on chloroplast metabolism and operation, discusses potential solutions to minimize its effects on plants, and suggests that enhancing plant protection capacity may be a promising way to improve tolerance to salt stress under real-field conditions. By revealing the molecular nature of chloroplast ion transporters and understanding their operation modes, the future sustainability of world agriculture and prospects of biological phytoremediation of salinized land can be ensured.

CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY (2021)

添加到收藏夹

Article Agronomy