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Effects of Temperature and Salinity on Growth, Metabolism and Digestive Enzymes Synthesis of Goniopora columna .

De-Sing DingAnil Kumar PatelReeta Rani SinghaniaChiu-Wen ChenCheng-Di Dong
Published in: Biology (2022)
Climate change is causing dramatic changes in global ocean temperature and salinity, threatening coral survival. Coral growth and metabolism are greatly affected by the temperature, salinity and feeding time of the environment. In order to explore the threats to coral survival caused by climate change, this study will investigate the changes in body composition, digestive enzymes and metabolism of G. columna at different temperatures and salinities. A maximum G. columna growth rate was observed at 25 °C and 30-35 psu salinity. The G. columna could survive in a wide salinity range of 25-40 psu. However, the maximum number and weight of G. columna polyps was determined at 30-35 psu. Furthermore, 30-35 psu salinity at 25 °C led to the best G. columna growth and survival, mainly because of their enhanced nutrient absorption rate, polyp expansion rate, metabolic rate and adaptability. Comparing various salinity-temperature treatment groups, all obtained values for growth, behavior and metabolism were significantly higher ( p < 0.05) for 30 psu at 25 °C than other treatment groups resulting in maximum G. columna yield. In addition, the optimal timing of G. columna feeding was assessed by studying changes in body composition and digestive enzymes within 24 h of feeding. The results showed that G. columna has higher protein and protease activity between 6:00 a.m. to 12:00 noon. Therefore, at 25 °C, 30-35 psu and feeding will enhance G. columna growth and survival.
Keyphrases
  • body composition
  • climate change
  • microbial community
  • bone mineral density
  • risk assessment
  • physical activity
  • small molecule
  • combination therapy
  • binding protein