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首页> 外文期刊>The Journal of Experimental Biology >EFFECTS OF EXTREME PH ON THE PHYSIOLOGY OF THE AUSTRALIAN YABBY CHERAX DESTRUCTOR - ACUTE AND CHRONIC CHANGES IN HAEMOLYMPH OXYGEN LEVELS, OXYGEN CONSUMPTION AND METABOLITE LEVELS
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EFFECTS OF EXTREME PH ON THE PHYSIOLOGY OF THE AUSTRALIAN YABBY CHERAX DESTRUCTOR - ACUTE AND CHRONIC CHANGES IN HAEMOLYMPH OXYGEN LEVELS, OXYGEN CONSUMPTION AND METABOLITE LEVELS

机译:极端pH对澳洲亚比HER分解物生理的影响-血氧水平,氧消耗和代谢水平的急性和慢性变化。

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Respiration and metabolism of the freshwater crayfish Cherax destructor were investigated with respect to the acidification and alkalization of its environment. Crayfish were exposed for up to 504 h (21 days) to pH 4.5, pH 7.1 (control) or pH 8.0 water and oxygen consumption rate, haemolymph oxygen transport and haemolymph glucose and lactate concentrations were determined, The effect of reducing environmental [Ca2+] in acid water from 500 to 50 mu mol l(-1) was also examined. In acid water (500 mu mol l(-1) Ca2+), oxygen uptake by Cherax was reduced by 79% after 504 h (21 days) compared with 'control' animals (pH 7.1, 500 mu mol l(-1) Ca2+), Haemolymph lactate concentration (mean remained that was not glucose concentrations were regulated within the range of control values (0.32+/-0.01 mmol l(-1)). The arterial-venous Co-2 difference of Cherax haemolymph decreased after 288 h and Pa-O2 increased from 11.1+/-0.5 mmHg to 42.4+/-1.0 mmHg between 96 h and 288 h, Decreased oxygen uptake and delivery without compensatory increases in anaerobiosis or glucose levels describe a hypometabolic response to low pH. The hypometabolic response of Cherax was greater in alkaline water as shown by a 53% reduction in O-2 uptake rate compared with a 44% reduction in acid-exposed (500 mu mol l(-1) Ca2+) animals after 96 h, This decrease in M(O2) Of alkaline-exposed animals was correlated with decreased haemolymph glucose levels (from 0.32+/-0.01 at 0 h to 0.06+/-0.01 mmol l(-1) at 96 h). Lowering the [Ca2+] of the water both increased the magnitude of the effects of acid exposure and elicited further changes in haemolymph oxygen transport, The maintenance of high haemolymph P-O2 during pH stress appears to reduce the involvement of haemocyanin, since this promotes decreased a-v C-O2. Hypometabolism probably permits Cherax to conserve resources that might otherwise be used, however, for growth and reproduction, The implications for the fitness of the animal are discussed, [References: 34]
机译:就其环境的酸化和碱化作用,研究了淡水小龙虾Cherax破坏物的呼吸和代谢。将小龙虾暴露于pH 4.5,pH 7.1(对照)或pH 8.0长达504小时(21天),耗水耗氧率,测定了血淋巴中的氧转运以及血淋巴中的葡萄糖和乳酸浓度,降低环境[Ca2 +]的效果还检查了酸性水中500至50μmol的l(-1)。在酸性水中(500μmol l(-1)Ca2 +),与``对照''动物(pH 7.1,500μmol l(-1)Ca2 +)相比,504 h(21天)后,Cherax吸收的氧气减少了79%。 ),乳酸血淋巴浓度(除葡萄糖浓度外的平均值保持在控制值(0.32 +/- 0.01 mmol l(-1)的范围内)。288 h后Cherax血淋巴的动静脉Co-2差异降低并且Pa-O2在96 h和288 h之间从11.1 +/- 0.5 mmHg增加到42.4 +/- 1.0 mmHg,氧气吸收和输送减少,而厌氧菌或葡萄糖水平没有代偿性增加,这说明了对低pH的低代谢反应。碱水中的Cherax含量更高,这表明96小时后O-2吸收率降低了53%,而酸暴露(500μmolmol((-1)Ca2 +))动物降低了44%,M的降低(O2)暴露于碱性的动物与血淋巴葡萄糖水平降低相关(从0 h的0.32 +/- 0.01降至0.06 +/- 0.01 mmol l(-1)在96小时)。降低水中的[Ca2 +]既增加了酸暴露影响的幅度,又引起了血淋巴中氧运输的进一步变化。在pH胁迫期间维持高血淋巴P-O2似乎减少了血红素的参与,因为这促进了血红素的降低。 AV C-O2。代谢低下可能使Cherax节省本来可以用于生长和繁殖的资源,但是,讨论了对动物适应性的影响,[参考文献:34]

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