Effect of ambient temperature increase on intestinal mucosa amylolytic activity in freshwater fish

I. L. Golovanova; V. K. Golovanov; A. K. Smirnov; D. D. Pavlov

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Effect of ambient temperature increase on intestinal mucosa amylolytic activity in freshwater fish

机译：环境温度升高对淡水鱼肠粘膜淀粉分解活性的影响

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摘要

The relationship between the level of the intestinal mucosa amylolytic activity (AA) of juvenile goldfish Carassius auratus, carp Cyprinus carpio, roach Rutilus rutilus and perch Perca fluviatilis and the rate of water temperature increase was studied. Increase in water heating rate significantly influences AA and the level of upper lethal temperatures defined by critical thermal maximum (CTM) during different seasons. At a low rate of water temperature increase, 0.04 °C/h, AA and the level of CTM are maximal during all seasons. More rapid rates of heating, 4–50 °C/h, increase the AA during the summer and usually decrease it by 2- to 7.5-fold during other seasons. Rapid increase in ambient temperature in the autumn–winter period, unnatural for seasonal dynamics, produces a negative impact upon the fish’s carbohydrate hydrolysis rate and thermal resistance.

机译：研究了幼年金鱼Car鱼，鲤鱼，鲤鱼，util鱼和河鲈的肠道黏膜淀粉分解活性（AA）水平与水温升高速率之间的关系。水加热速率的增加会显着影响AA以及由不同季节的临界热最大值（CTM）定义的最高致死温度的水平。在低的水温升高速度下（0.04°C / h），AA和CTM的水平在所有季节中都是最大的。较快的升温速度为4–50°C / h，在夏季增加了AA，在其他季节通常降低了2到7.5倍。在秋季和冬季，环境温度的快速升高对于季节动态而言是不自然的，会对鱼类的碳水化合物水解速率和耐热性产生负面影响。

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《Fish Physiology and Biochemistry》 |2013年第6期|1497-1504|共8页
作者
I. L. Golovanova; V. K. Golovanov; A. K. Smirnov; D. D. Pavlov;
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作者单位

I.D. Papanin Institute for Biology of Inland Waters The Russian Academy of Sciences">(1);

I.D. Papanin Institute for Biology of Inland Waters The Russian Academy of Sciences">(1);

I.D. Papanin Institute for Biology of Inland Waters The Russian Academy of Sciences">(1);

I.D. Papanin Institute for Biology of Inland Waters The Russian Academy of Sciences">(1);

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正文语种 eng
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关键词
Ambient temperature; Amylolytic activity; Upper lethal temperatures; Fishes;

机译：环境温度淀粉分解活性;最高致死温度;鱼;

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1. Effect of ambient temperature increase on intestinal mucosa amylolytic activity in freshwater fish [J] . Golovanova I. L., Golovanov V. K., Smirnov A. K., Fish Physiology and Biochemistry . 2013,第6期

机译：环境温度升高对淡水鱼肠粘膜淀粉分解活性的影响
2. Amylolytic activity in fish intestinal mucosa: temperature effects [J] . V.Kuzmina, L.Glatman, V.Drabkin, Comparative biochemistry and physiology, Part B. Biochemistry & molecular biology . 2003,第3期

机译：鱼肠粘膜淀粉分解活性：温度效应
3. Effect of Adrenaline on amylolytic Activity of the Intestinal Mucosa,Glycemia Level,and Glycogne Concentration in Tissues of the Golden Carp Carassius auratus and Crucian Carp Carassius carassius [J] . V.V.Kuzmina, D.V.Garina, E.V.Yablochkina Journal of Evolutionary Biochemistry and Physiology: A Journal of Original Papers and Reviews on Evolutionary, Comparative, and Ecological Aspects of Physiology, Biochemistry, and Morphology . 2003,第2期

机译：肾上腺素对a鱼和Cru鱼T肠淀粉样酶活性，血糖水平和组织中甘氨酸浓度的影响
4. IN VITRO AND IN VIVO STUDY OF GASTROINTESTINAL SURVIVAL OF LACTOBACILLUS CASEI ATCC 393, ADHESION TO INTESTINAL MUCOSA AND MODULATION OF INTESTINAL MICROBIAL FLORA [C] . Marianthi Sidira, Petros Ypsilantis, Georgia Saxami, Πανελληνιο Συνεδριο ΤροΦιμων . 2012

机译：乳杆菌CASEI ATCC 393胃肠黏膜存活，黏附肠黏膜和调节肠内微生物菌群的体外和体内研究
5. The Effects of Increasing Chloride Concentrations and Temperatures on Freshwater Zooplankton Communities [D] . McClymont, Alexandra Claire. 2020

机译：增加氯浓度和温度对淡水浮游植物社区的影响
6. Ambient temperature reduction extends lifespan via activating cellular degradation activity in an annual fish (Nothobranchius rachovii) [O] . Cheng-Yen Lu, Chin-Yuan Hsu 2015

机译：环境温度的降低通过激活一年生鱼类的细胞降解活性而延长了寿命（Nothobranchius rachovii）
7. Endothermy of dynastine scarab beetles (Cyclocephala colasi) associated with pollination biology of a thermogenic arum lily (Philodendron solimoesense) : Cyclocephala colasi beetles are facultative endotherms that spend most of their adult lives inside the inflorescences of Philodendron solimoesense, where ambient temperature (Ta) averages about 28°C due to floral thermogenesis. Measurements of respiration within a range of Ta showed that active beetles became spontaneously endothermic at Ta below 28°C but were rarely endothermic above it. There was no evidence of endothermy within the inflorescences, indicating that activities in the floral chamber can occur without the high energy expense of endothermy. Bouts of endothermy occurred at lower Ta in respirometer chambers mainly in the evening, when the insects normally fly from one inflorescence to another, and during the night, when they normally eat and mate within the inflorescence. Patterns of endothermy in individual episodes were studied in non-flying beetles with respirometry and infrared thermal imaging. Heat was generated in the thorax by oscillatory waves of respiration that were coupled with thoracic temperature (Tth) increases. Stationary beetles could regulate Tth at about 33°C independently of Ta between 16 and 29°C. At Ta20°C, this represents a 116-fold increase in metabolic rate over resting, ectothermic values. Endothermy was clearly a requirement for flight, and beetles departing inflorescences warmed to about 30°C before take-off. During flight, Tth was dependent on Ta, decreasing from 37 to 28°C at Ta of 37 to 20°C, respectively. The lowest Ta at which flight could occur was about 20°C. Thermal conductance of stationary, endothermic beetles increased at higher metabolic rates, probably because of increased ventilatory heat loss. [O] . Seymour, R.S., White, C.R., Gibernau, Marc 2009

机译：与产热香芋百合（Philodendron solimoesense）授粉生物学相关的动态圣甲虫（Cyclocephala colasi）吸热：Cyclocephala colasi甲虫是兼性吸热体，它们大部分成年生活都在Philodendron solimoesense的花序中，其平均温度（Ta）由于花的生热作用，温度约为28°C。在Ta范围内的呼吸测量表明，活跃的甲虫在Ta低于28°C时会自发吸热，而在Ta高于28°C时很少吸热。在花序中没有吸热的迹象，表明花室中的活动可以在没有高的吸热能量消耗的情况下发生。吸热的爆发主要发生在晚上，当昆虫通常从一个花序飞到另一个花序时，以及在晚上，它们通常在花序中进食并交配时，在呼吸计室的较低Ta处发生。在非飞行甲虫中通过呼吸测定法和红外热成像研究了单个发作中的吸热模式。伴随着胸温（Tth）升高的呼吸振荡波在胸腔中产生热量。固定甲虫可以在约33°C的温度下调节Tth，而与Ta在16至29°C之间的温度无关。在Ta20°C下，这表示其代谢速率比静止的，等温的升高116倍。吸热显然是飞行的要求，离开花序的甲虫在起飞前会升温到约30°C。在飞行过程中，Tth取决于Ta，在Ta从37降至20°C时，Tth分别从37°C降至28°C。可能发生飞行的最低Ta约为20°C。固定的，吸热的甲虫的热导率以较高的代谢率增加，这可能是由于通风热损失增加所致。
8. Enhanced Phospholipase A2 Activity in Rat Plasma, Liver, and Intestinal Mucosa Following Endotoxin Treatment: A Possible Explanation for the Protective Effect of Indomethacin in Endotoxic Shock [R] . Shakir, K. M. M., O'Brian, J. T., Gartner, S. L. 1985

机译：内毒素治疗后大鼠血浆，肝脏和肠粘膜中磷脂酶a2活性的增强：吲哚美辛对内毒素休克的保护作用的可能解释

Effect of ambient temperature increase on intestinal mucosa amylolytic activity in freshwater fish

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