study ectotherms
研究外冷血动物
observe ectotherms
观察外冷血动物
are ectotherms
是外冷血动物
cold-blooded ectotherms
冷血外冷血动物
containing ectotherms
包含外冷血动物
protecting ectotherms
保护外冷血动物
diverse ectotherms
多样化的外冷血动物
warming ectotherms
温暖外冷血动物
tracking ectotherms
追踪外冷血动物
ecosystems for ectotherms
外冷血动物的生态系统
many ectotherms, like lizards, rely on external heat sources to regulate their body temperature.
许多冷血动物,如蜥蜴,依靠外部热源来调节体温。
ectotherms often exhibit behavioral adaptations to maximize sun exposure and warm their bodies.
冷血动物经常表现出行为适应性,以最大程度地暴露在阳光下并温暖它们的身体。
the metabolic rate of ectotherms is generally lower than that of endotherms.
冷血动物的代谢率通常低于恒温动物。
ectotherms face challenges surviving in cold environments due to their temperature dependence.
由于它们对温度的依赖性,冷血动物在寒冷环境中生存面临挑战。
reptiles and amphibians are well-known examples of ectotherms found worldwide.
爬行动物和两栖动物是世界各地发现的著名冷血动物的例子。
ectotherms demonstrate diverse strategies for avoiding overheating during hot summer days.
冷血动物在炎热的夏季展示了避免过热的各种策略。
the distribution of ectotherms is heavily influenced by climate and temperature patterns.
冷血动物的分布受气候和温度模式的强烈影响。
scientists study ectotherms to understand the physiological limits of life in varying conditions.
科学家研究冷血动物,以了解在不同条件下生存的生理极限。
ectotherms often have lower energy requirements compared to endotherms.
与恒温动物相比,冷血动物通常具有较低的能量需求。
the term "ectotherm" refers to animals that primarily rely on external sources for body heat.
“冷血动物”一词指的是主要依靠外部来源来获取身体热量的动物。
changes in environmental temperature significantly impact the activity levels of ectotherms.
环境温度的变化对冷血动物的活动水平有重大影响。
study ectotherms
研究外冷血动物
observe ectotherms
观察外冷血动物
are ectotherms
是外冷血动物
cold-blooded ectotherms
冷血外冷血动物
containing ectotherms
包含外冷血动物
protecting ectotherms
保护外冷血动物
diverse ectotherms
多样化的外冷血动物
warming ectotherms
温暖外冷血动物
tracking ectotherms
追踪外冷血动物
ecosystems for ectotherms
外冷血动物的生态系统
many ectotherms, like lizards, rely on external heat sources to regulate their body temperature.
许多冷血动物,如蜥蜴,依靠外部热源来调节体温。
ectotherms often exhibit behavioral adaptations to maximize sun exposure and warm their bodies.
冷血动物经常表现出行为适应性,以最大程度地暴露在阳光下并温暖它们的身体。
the metabolic rate of ectotherms is generally lower than that of endotherms.
冷血动物的代谢率通常低于恒温动物。
ectotherms face challenges surviving in cold environments due to their temperature dependence.
由于它们对温度的依赖性,冷血动物在寒冷环境中生存面临挑战。
reptiles and amphibians are well-known examples of ectotherms found worldwide.
爬行动物和两栖动物是世界各地发现的著名冷血动物的例子。
ectotherms demonstrate diverse strategies for avoiding overheating during hot summer days.
冷血动物在炎热的夏季展示了避免过热的各种策略。
the distribution of ectotherms is heavily influenced by climate and temperature patterns.
冷血动物的分布受气候和温度模式的强烈影响。
scientists study ectotherms to understand the physiological limits of life in varying conditions.
科学家研究冷血动物,以了解在不同条件下生存的生理极限。
ectotherms often have lower energy requirements compared to endotherms.
与恒温动物相比,冷血动物通常具有较低的能量需求。
the term "ectotherm" refers to animals that primarily rely on external sources for body heat.
“冷血动物”一词指的是主要依靠外部来源来获取身体热量的动物。
changes in environmental temperature significantly impact the activity levels of ectotherms.
环境温度的变化对冷血动物的活动水平有重大影响。
探索常用高频词汇