trophotropic
简明释义
英[ˌtrɒfəˈtrɒpɪk]美[trəfəˈtrɑːpɪk]
向营养的
英英释义
Relating to or characterized by the growth and nutritional processes of an organism, particularly in response to environmental changes. | 与生物体的生长和营养过程相关,特别是对环境变化的反应。 |
单词用法
营养性机制 | |
营养性适应 | |
营养性调节 | |
营养性过程 |
同义词
营养性 | 合成代谢过程有助于构建器官和组织。 |
反义词
能量型 | The ergotropic response is crucial during intense physical activities. | 能量型反应在高强度体育活动中至关重要。 | |
运动诱导的 | Exercise-induced adaptations can significantly improve athletic performance. | 运动诱导的适应可以显著提高运动表现。 |
例句
1.Conclusion The rat cerebellum extract (CE) has a powerful trophotropic effect on the cultured cerebellar neurons.
为此,我们制备不同胎龄小脑提取液,观察了它们对培养小脑神经细胞的作用。
2.Conclusion The rat cerebellum extract (CE) has a powerful trophotropic effect on the cultured cerebellar neurons.
为此,我们制备不同胎龄小脑提取液,观察了它们对培养小脑神经细胞的作用。
3.In ecology, organisms can exhibit trophotropic 营养取向 behavior depending on their environment.
在生态学中,生物体可以根据其环境表现出营养取向行为。
4.The study of trophotropic 营养取向 responses in plants helps us understand their growth patterns.
对植物中营养取向反应的研究帮助我们理解它们的生长模式。
5.Certain animals display trophotropic 营养取向 behaviors during seasonal changes.
某些动物在季节变化期间表现出营养取向行为。
6.Research into trophotropic 营养取向 mechanisms can lead to better agricultural practices.
对营养取向机制的研究可以促进更好的农业实践。
7.The trophotropic 营养取向 nature of fungi allows them to thrive in nutrient-rich environments.
真菌的营养取向特性使它们能够在富含营养的环境中茁壮成长。
作文
In the study of ecology, the term trophotropic refers to a specific type of behavior exhibited by organisms in response to their nutritional needs and environmental conditions. This concept is crucial for understanding how different species adapt to their habitats and manage their energy resources. For instance, many animals display trophotropic behaviors when foraging for food, where they adjust their feeding strategies based on the availability of resources. Such adaptability is essential for survival, especially in fluctuating environments where food sources may vary seasonally or due to other ecological factors. The trophotropic behavior can be observed in various ecosystems, from forests to deserts. In forest ecosystems, certain herbivores may shift their diet from leaves to fruits depending on the time of year and the abundance of these food sources. This flexibility not only helps them meet their nutritional requirements but also plays a role in seed dispersal, which is vital for plant reproduction. Similarly, carnivorous animals may exhibit trophotropic tendencies by altering their hunting techniques based on prey availability, ensuring that they can sustain themselves even when certain prey types are scarce. Moreover, the concept of trophotropic can also extend to human behavior, particularly in the context of nutrition and dietary choices. Individuals often adjust their diets based on what is available or what is deemed healthy at different times. For example, during the summer months, people may gravitate towards lighter foods such as salads and fruits, while in winter, they might prefer heartier meals. This dietary flexibility mirrors the trophotropic adaptations seen in the animal kingdom, highlighting a shared instinct to optimize nutritional intake based on environmental cues. Understanding trophotropic behaviors can also have significant implications for conservation efforts. By recognizing how species adapt their feeding strategies, ecologists can better predict the impacts of habitat loss and climate change on wildlife populations. For instance, if a particular food source becomes scarce due to environmental changes, animals that cannot adjust their trophotropic behaviors may face increased risks of starvation and decline in numbers. Thus, preserving diverse habitats that support a wide range of food sources is critical for maintaining healthy ecosystems. In conclusion, the term trophotropic encapsulates the dynamic relationship between organisms and their environments concerning nutritional needs. From animal foraging strategies to human dietary choices, this concept underscores the importance of adaptability in the face of changing conditions. As we continue to study and understand these behaviors, we gain valuable insights into the intricate web of life that sustains our planet. By fostering a deeper appreciation for trophotropic adaptations, we can also enhance our efforts in conservation and sustainable living, ensuring that both wildlife and humans thrive together in harmony with nature.
在生态学研究中,术语trophotropic指的是生物体在营养需求和环境条件下表现出的特定行为。这一概念对于理解不同物种如何适应其栖息地以及管理其能量资源至关重要。例如,许多动物在觅食时表现出trophotropic行为,它们根据资源的可用性调整觅食策略。这种适应能力对于生存尤为重要,特别是在食物来源可能季节性变化或由于其他生态因素而波动的环境中。 trophotropic行为可以在各种生态系统中观察到,从森林到沙漠。在森林生态系统中,某些食草动物可能会根据季节和这些食物来源的丰度,将饮食从叶子转向水果。这种灵活性不仅有助于它们满足营养需求,还在种子传播中发挥了作用,这对植物繁殖至关重要。同样,肉食动物也可能通过根据猎物的可用性改变捕猎技巧来表现出trophotropic倾向,以确保即使在某些猎物类型稀缺时也能维持生存。 此外,trophotropic的概念也可以扩展到人类行为,特别是在营养和饮食选择的背景下。个体通常根据不同时间的可用性或被认为健康的食物调整饮食。例如,在夏季,人们可能倾向于选择更清淡的食物,如沙拉和水果,而在冬季,他们可能更喜欢丰盛的餐点。这种饮食灵活性反映了动物王国中观察到的trophotropic适应,突显了优化营养摄入的共同本能。 理解trophotropic行为也对保护工作具有重要意义。通过认识到物种如何调整其觅食策略,生态学家可以更好地预测栖息地丧失和气候变化对野生动物种群的影响。例如,如果某种食物来源因环境变化而变得稀缺,无法调整其trophotropic行为的动物可能面临饥饿和数量下降的风险。因此,保护支持广泛食物来源的多样化栖息地对于维持健康生态系统至关重要。 总之,术语trophotropic概括了生物体与其环境之间关于营养需求的动态关系。从动物觅食策略到人类饮食选择,这一概念强调了在变化条件下适应能力的重要性。随着我们继续研究和理解这些行为,我们获得了对维持我们星球生命网的宝贵见解。通过加深对trophotropic适应的欣赏,我们还可以增强在保护和可持续生活方面的努力,确保野生动物和人类能够与自然和谐共存。
文章标题:trophotropic的意思是什么
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