Potential influence of increased sub-lethal UV-A irradiation on aquatic food production (Aquaculture).

K Winckler, L Fidhiany
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Abstract

In the tropics organisms have permanently adapted to deal with extremely high intensities of light, temperature and other environmental factors. Especially in coastal environments and fish farmings conditions can easily reach and exceed the tolerance limits of an organism. The UV-A band has been shown to be a potent modulator of light induced effects and general physiological functions in organisms. The biological endpoints and underlying mechanisms still have to be investigated. Our experiments were carried out with the easy to handle sub-tropical Convict-Cichlid fish (Cichlasoma nigrofasciatum) as a model organism. In our studies we observed that constant sub-lethal UV-A irradiation had a significant effect on the general metabolism and on the sensitivity towards other environmental stress factors in this fish. We found that, in addition to the depression of the general metabolism, sub-lethal UV-A irradiation in combination with elevated environmental temperature had a deleterious effect on the population. The threshold temperature for a sudden increase in mortality of the fish receiving the additional sub-lethal UV-A irradiation was 32 degree C. The fish were grown and adapted at 27-29 degrees C. A total of 78% of the fish receiving an additional UV-A irradiation died by high temperature stress while the reference population remained at a normal level (3%). The metabolic rate (MR) of the UV-A survivors during temperature stress was less than half the average value obtained in the reference population. After the environmental temperature returned below the apparent upper tolerance limit for this fish, the MR of UV-A population gradually increased to normal. Apparently a constant elevated sub-lethal dose of UV-A leads to the destabilization of an organism, making it more sensitive for other environmental stress factors. These observations seem to be important considerations in fish farming in the tropical and subtropical regions.

增加亚致死UV-A辐照对水产食品生产的潜在影响。
在热带地区,生物已经永久地适应了极高强度的光、温度和其他环境因素。特别是在沿海环境和鱼类养殖条件下,很容易达到并超过生物体的耐受极限。UV-A波段已被证明是生物体内光诱导效应和一般生理功能的有效调节剂。生物学终点和潜在机制仍有待研究。本实验以易处理的亚热带慈鲷(chichlasoma nigrofasciatum)为模式生物。在我们的研究中,我们观察到持续的亚致死UV-A照射对这种鱼的一般代谢和对其他环境应激因素的敏感性有显著影响。我们发现,除了抑制一般代谢外,亚致死UV-A照射结合环境温度升高对种群有有害影响。接受额外亚致死UV-A照射的鱼的死亡率突然增加的阈值温度为32℃。鱼在27-29℃的环境中生长和适应。接受额外UV-A照射的鱼共有78%死于高温胁迫,而参考种群保持在正常水平(3%)。在温度胁迫下,UV-A幸存者的代谢率(MR)不到参考种群平均值的一半。环境温度恢复到该鱼的表观耐受上限以下后,UV-A种群的MR逐渐恢复正常。显然,持续升高的亚致死剂量的UV-A会导致生物体的不稳定,使其对其他环境压力因素更加敏感。这些观察结果似乎是热带和亚热带地区养鱼的重要考虑因素。
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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