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首页> 外文期刊>The Science of the Total Environment >Metabolic and NH_4 excretion rate of fresh water species, Chondrostoma regium in response to environmental stressors, different scenarios for temperature and pH
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Metabolic and NH_4 excretion rate of fresh water species, Chondrostoma regium in response to environmental stressors, different scenarios for temperature and pH

机译:新鲜水物种的代谢和NH_4排泄率,伴有环境压力源的软骨瘤Regium,温度和pH值不同的场景

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Changes in water temperature and pH levels have substantial adverse effects on aquatic organisms, hence causing physiological constraint on their well-being. To understand the physiological responses of Chondrostoma regium to temperature or pH changes, standard metabolic rate (SMR), maximum metabolic rate (MMR), absolute and factorial aerobic scope (AS&FAS) as well as the specific rate of ammonia excretion (J(amm)) were measured at following temperatures: acute low (35-4.5 degrees C), 24 h low (5.5-6.5 degrees C), 7 d low (5.5-6.5 degrees C), acute high (30-31 degrees C), 24 h high (29-30 degrees C), 7 d high (28-29 degrees C), and different pH treatments: acute low (4.3-4.4), 24 h low (4.3-4.4), 7 d low (6.3-6.4), acute high (9.8-9.9), 24 h high (9.8-9.9), 7 d high (8.8-8.9). A control group was also assigned to optimum temperature = 22-23 degrees C and pH 7.8-7.9. These experimental ranges for each treatment were obtained based on critical thermal and pH thresholds, i.e., 1.9 to 31.7 degrees C and 2.7 to 11.1, respectively. SMR was enhanced significantly (P 0.05) following pH treatments, except for 24 h low pH treatment. Results showed significant (P 0.05) changes in both SMR and MMR at low and high temperature treatments. The AS was elevated following pH treatments except for acute low pH treatment in which AS significantly was declined (P 0.05). Low temperature treatments resulted in lower AS while no significant changes in AS were observed in high temperatures. In all treatments, FAS value did not differ significantly from control, except for acute and 24 h low treatments of both temperature and pH. All high pH and temperature treatments showed a significant increase (P 0.05) in J(amm) Histopathological results of gills indicated hyperplasia and fusion of secondary lamella and kidneys histopathology revealed necrosis and loss of tubular lumen in the most treatments. Results indicated that increases in water temperature or pH are more stressful than the lower ranges of them, suggesting higher capability of fish to adjust to the low levels of temperature or pH. (C) 2018 Elsevier B.V. All rights reserved.
机译:水温和pH水平的变化对水生生物具有很大的不利影响,因此导致他们幸福的生理限制。要了解软骨瘤Regium对温度或pH的变化,标准代谢率(SMR),最大代谢率(MMR),绝对和阶乘促进率(AS&FAS)以及氨排泄的特定速率(J(AMM)的特定速率(J(AMM)在下面的温度下测量:急性低(35-4.5℃),24小时低(5.5-6.5℃),7d低(5.5-6.5℃),急性高(30-31℃),24 H高(29-30℃),7 d高(28-29℃),以及不同的pH处理:急性低(4.3-4.4),24小时低(4.3-4.4),7d低(6.3-6.4 ),急性高(9.8-9.9),24小时高(9.8-9.9),7天高(8.8-8.9)。还分配对照组至最佳温度= 22-23摄氏度和pH 7.8-7.9。基于临界热和pH阈值,即,1.9至31.7摄氏度和2.7至11.1,得到这些治疗的这些实验范围。在pH处理后,SMR显着增强(P <0.05),除了24小时低pH处理。结果表明,低温和高温处理的SMR和MMR中的显着(P <0.05)变化。除了急性低pH处理外,如下pH治疗的如下,如显着下降(P <0.05)。低温处理导致低于在高温下观察到的显着变化。在所有治疗中,除了急性和24小时的治疗外,FAS值与温度和pH的低治疗不同,FAS值没有显着差异。所有高pH和温度处理表明J(AMM)鳃的巨大增加(p <0.05)鳃的组织病理学结果表明增生和次级薄片和肾脏组织病理学的融合揭示了在最多治疗中的坏死和管状腔的丧失。结果表明,水温或pH的增加比它们的下部范围更加压力,表明鱼类的较高能力以适应低水平的温度或pH。 (c)2018年elestvier b.v.保留所有权利。

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