Disentangling the Consequences of Growth Temperature and Adult Acclimation Temperature on Starvation and Thermal Tolerance in the Red Flour Beetle

Inon Scharf; Netta Galkin; Snir Halle

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Disentangling the Consequences of Growth Temperature and Adult Acclimation Temperature on Starvation and Thermal Tolerance in the Red Flour Beetle

机译：解开生长温度和成年适应温度对红粉甲虫饥饿和耐热性的影响

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Temperature affects most aspects of animal life, and impacts particularly strongly on ectotherms. We studied the combined effects of growth temperature and adult acclimation temperature on starvation tolerance, cold tolerance, and heat tolerance in the red flour beetle. A lower adult acclimation temperature enhanced starvation tolerance and cold tolerance and impaired heat tolerance. This is an expected outcome of short-term plasticity and of the beneficial acclimation hypothesis. The higher growth temperature led to improved performance of all three measured traits: beetles raised under higher temperature tolerated starvation longer and showed better cold and heat tolerance. While this result fits well the rule “hotter is better”, it is nonetheless surprising that the same temperature had opposite effects when experienced by juveniles and adults (i.e., the effect of the warm temperature on cold tolerance). We emphasize the importance of separating between the juvenile growth temperature (developmental plasticity) and adult temperature (acclimation), as they can have opposite effects on adult performance.

机译：温度会影响动物生命的大多数方面，尤其会对外热产生很大影响。我们研究了生长温度和成年适应温度对红粉甲虫饥饿耐受性，耐寒性和耐热性的综合影响。较低的成年适应温度会提高饥饿耐受性和寒冷耐受性，并降低耐热性。这是短期可塑性和有益的适应假设的预期结果。较高的生长温度导致所有三个已测性状的性能提高：在较高温度下生长的甲虫对饥饿的耐受时间更长，并且表现出更好的耐寒性和耐热性。尽管这一结果很好地符合“越热越好”的规则，但令人惊讶的是，当青少年和成年人经历相同的温度时，其效果相反（即，温暖的温度对耐寒性的影响）。我们强调区分青少年的生长温度（发育可塑性）和成人的温度（适应环境）的重要性，因为它们会对成人的表现产生相反的影响。

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《Evolutionary Biology》 |2015年第1期|54-62|共9页
作者
Inon Scharf; Netta Galkin; Snir Halle;
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Department of Zoology Faculty of Life Sciences Tel Aviv University">(1);

Department of Zoology Faculty of Life Sciences Tel Aviv University">(1);

Department of Zoology Faculty of Life Sciences Tel Aviv University">(1);

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正文语种 eng
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Chill-coma recovery; Heat knockdown; Hotter is better; Starvation endurance; Stress; Survival; Tribolium;

机译：昏迷恢复;热击倒;越热越好;饥饿耐力;强调;生存;Tribolium;

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1. Disentangling the Consequences of Growth Temperature and Adult Acclimation Temperature on Starvation and Thermal Tolerance in the Red Flour Beetle [J] . Scharf Inon, Galkin Netta, Halle Snir Evolutionary biology . 2015,第1期

机译：解开生长温度和成年适应温度对红粉甲虫饥饿和耐热性的影响
2. The negative effect of starvation and the positive effect of mild thermal stress on thermal tolerance of the red flour beetle, Tribolium castaneum [J] . Inon Scharf, Yonatan Wexler, Heath Andrew MacMillan, Naturwissenschaften . 2016,第3a4期

机译：饥饿的负面影响和温和的热胁迫对赤粉甲虫Tribolium castaneum耐热性的正效应
3. Thermal preference, tolerance and oxygen consumption of adult white shrimp Litopenaeus vannamei (Boone) exposed to different acclimation temperatures [J] . Gonzalez Ricardo A., Diaz Fernando, Licea Alexei, Journal of Thermal Biology . 2010,第5期

机译：暴露在不同适应温度下的成年白对虾凡纳对虾的热偏好，耐受性和耗氧量
4. The efficacy of high temperature and diatomaceous earth combinations against adults of the red flour beetle Tribolium castaneum (Coleoptera: Tenebrionidae) and the grain weevil Sitophilus granarius (Coleoptera: Curculionidae) [C] . D A Cook British Crop Protection Council International Congress of the Crop Science and Technology . 2003

机译：高温和硅藻土组合对红面粉甲虫呋喃虫（COLEOPTERA：TENEBRIONIDAE）的疗效和血清紫薇谷胱甘肽（COLEOPTERA：CURCULIONADAE）
5. MECHANISMS OF ACCLIMATION TO LOWERED GROWTH TEMPERATURES IN ISOLATES OF ARCTIC AND TEMPERATE ECTOMYCORRHIZAL FUNGI. [D] . ANTIBUS, ROBERT KENNETH. 1980

机译：北极和温带生态霉菌真菌分离株对低生长温度的适应机制。
6. Thermal Preference of Juvenile Dover Sole (Solea solea) in Relation to Thermal Acclimation and Optimal Growth Temperature [O] . Edward Schram, Stijn Bierman, Lorna R. Teal, -1

机译：少年多佛尔的热偏好（Solea solea）与热适应和最佳生长温度的关系
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. Thermal Tolerance of Zebra Mussels (Dreissena polymorpha) Relative to Rate ofTemperature Increase and Acclimation Temperature [R] . MaMahon, R. F., Ussary, T. A. 1995

机译：斑马贻贝（Dreissena polymorpha）的耐热性与温度升高和驯化温度的关系

Disentangling the Consequences of Growth Temperature and Adult Acclimation Temperature on Starvation and Thermal Tolerance in the Red Flour Beetle

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