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Changes in the physiological indicators and gene expression for grass carp (Ctenopharyngodon idella) in response to alkaline stress

Qi Chen, Jianbo Zheng, Yi Xu, Fei Li, Shili Liu, Wenping Jiang, Meili Chi, Shun Cheng, Haiqi Zhang

2025Aquaculture International11 citationsDOIOpen Access PDF

Abstract

Alkalinity stress is a significant abiotic factor influencing fish growth and productivity. Understanding the mechanisms underlying fish tolerance to saline–alkaline stress is essential for developing highly resistant fish strains and expanding the potential for freshwater aquaculture. This study examined the impact of alkaline stress on the survival rate, digestive enzyme activities, tissue morphology, and gene expression profiles in juvenile grass carp. Acute stress experiments revealed that the LC 50 value for juvenile grass carp (31.72 ± 8.88 g) exposed to alkalinity for 96 h was 44.11 mM, indicating relatively high tolerance to alkalinity. Furthermore, NaHCO 3 -induced alkaline stress significantly affected digestive enzyme activities and tissue morphology. A tissue-specific transcriptome analysis (gill, liver, and kidney) was conducted at various time points during alkalinity stress exposure, identifying numerous differentially expressed genes and pathways associated with alkaline stress. Notably, several alkali-responsive genes, including serpinh1b , aqp10a , cbr11 , scos3b , and mycb , were differentially regulated across the compared groups in PCR Array. The findings provide valuable insights into the mechanisms of alkaline stress tolerance.

Topics & Concepts

Grass carpBiologyGeneGene expressionFisheryGeneticsFish <Actinopterygii>Physiological and biochemical adaptationsEnvironmental Toxicology and EcotoxicologyAquaculture Nutrition and Growth
Changes in the physiological indicators and gene expression for grass carp (Ctenopharyngodon idella) in response to alkaline stress | Litcius