两种改良尼罗罗非鱼(Oreochromis niloticus)的急性高热和缺氧耐受性。

Kwasi Adu Obirikorang, Richard Appiah-Kubi, Daniel Adjei-Boateng, Wonder Sekey, Collins Prah Duodu
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摘要

加纳的罗非鱼生产受到压力和病原体引起的大规模鱼类死亡事件的打击,据说这些事件与非法进口的尼罗罗非鱼(Oreochromis niloticus)的遗传改良养殖罗非鱼(GIFT)品系的养殖有关。因此,本研究旨在全面评估GIFT品系和尼罗罗非鱼本地品系(Akosombo品系)在暴露于高温和低氧胁迫源后的抗逆性。在一系列实验中,评估了耗氧量(MO2)、水生表面呼吸(ASR)、热极限和缺氧耐受性。这些应激源对血液学参数的影响也进行了评估。GIFT菌株对缺氧的耐受性较差,在高氧水平下进行ASR,高于Akosombo菌株。在进行性缺氧条件下,GIFT菌株比Akosombo菌株表现出更高的鳃通气频率(fV)。耐热性试验表明,与GIFT菌株相比,Akosombo菌株具有更高的耐热性,其LT50(45.1℃)和LTmax(48℃)高于GIFT菌株,LT50和LTmax分别为41.5℃和46℃。这些结果表明,考虑GIFT菌株在各种环境条件下的表现和培养过程中的变化是至关重要的。特别是,在富含浮游植物和长期极度缺氧的土池塘中饲养尼罗罗非鱼GIFT品系可能对其生长和福利产生有害的生理影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Acute hyperthermia and hypoxia tolerance of two improved strains of nile tilapia (Oreochromis niloticus).

Tilapia production in Ghana has been hit with episodes of stress and pathogen-induced mass fish kills which have anecdotally been linked to the culture of illegally imported Genetically Improved Farmed Tilapia (GIFT) strains of Nile tilapia, Oreochromis niloticus. This study was thus set up to comprehensively assess the stress tolerance of the GIFT strain and a native strain of Nile tilapia (the Akosombo strain) following exposures to hyperthermic and hypoxic stressors. In a series of experiments, oxygen consumption (MO2), aquatic surface respiration (ASR), thermal limits and hypoxia tolerance were assessed. The effects of these stressors on haematological parameters were also assessed. The GIFT strain was less tolerant of hypoxia and performed ASR at higher O2 levels than the Akosombo strain. Under progressive hypoxia, the GIFT strain exhibited higher gill ventilations frequencies (fV) than the Akosombo strain. The thermal tolerance trial indicated that the Akosombo strain of O. niloticus has higher thermotolerance than the GIFT strain and this was reflective in the higher LT50 (45.1℃) and LTmax (48℃), compared to LT50 and LTmax of 41.5℃ and 46℃ respectively. These results imply that it is crucial to consider how the GIFT strain performs under various environmental conditions and changes during culture. Particularly, raising the GIFT strain of Nile tilapia in earthen ponds rich in phytoplankton and subject to protracted episodes of extreme hypoxia may have a detrimental physiological impact on its growth and welfare.

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