2021
DOI: 10.1007/s10499-021-00649-x
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Increased water temperature interrupts embryonic and larval development of Indian major carp rohu Labeo rohita

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Cited by 27 publications
(16 citation statements)
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“…Recent studies showed that tilapia can tolerate temperatures of up to 34 • C without any significant effect on their growth rate [94,96]. In addition, the cortisol level, which is the stress indicator in tilapia, does not significantly increase even at 36 • C [108], which suggests that tilapia can tolerate high temperatures, whereas for L. rohita, another commonly cultured species in Bangladesh, a temperature of 36 • C may be hazardous for growth and can cause physiological damage [109][110][111]. The balanced sex ratio of O. niloticus does not deviate significantly even up to 36 • C [92].…”
Section: Temperature Fluctuationmentioning
confidence: 99%
“…Recent studies showed that tilapia can tolerate temperatures of up to 34 • C without any significant effect on their growth rate [94,96]. In addition, the cortisol level, which is the stress indicator in tilapia, does not significantly increase even at 36 • C [108], which suggests that tilapia can tolerate high temperatures, whereas for L. rohita, another commonly cultured species in Bangladesh, a temperature of 36 • C may be hazardous for growth and can cause physiological damage [109][110][111]. The balanced sex ratio of O. niloticus does not deviate significantly even up to 36 • C [92].…”
Section: Temperature Fluctuationmentioning
confidence: 99%
“…It is crucial for the continuation of rare sh species, high yield breeding, and sustainable development of shery resources [1]. Since a mismatched culture environment can have a signi cant impact on embryo development, mainly in terms of survival rate and malformation rate, real-time sh embryo detection results are needed to adjust the corresponding culture environment [2][3][4]. Because sh embryos are very small before they are fully developed, the traditional method is to manually operate a microscope to observe the growth of sh embryos [1].…”
Section: Introductionmentioning
confidence: 99%
“…Elevated water temperature resulting from global warming has caused disrupt embryonic metabolism and physiology of rohu fish. Also displayed evidence of damaged embryos and Larvae of rohu showed developmental deformities (Ashaf-Ud-Doulah et al, 2021) [3] . Temperature also changes the physiological functions associated with the stress response of fish.…”
Section: Introductionmentioning
confidence: 99%