adaptation coefficient

简明释义

自适应系数;

英英释义

例句

1.To improve performance, the team adjusted the adaptation coefficient based on feedback from user testing.

为了提高性能，团队根据用户测试的反馈调整了适应系数。

2.In climate studies, the adaptation coefficient helps researchers understand how species respond to changing environments.

在气候研究中，适应系数帮助研究人员理解物种如何对环境变化做出反应。

3.The adaptation coefficient is crucial for assessing the resilience of crops in different soil types.

在不同土壤类型中，适应系数对评估作物的韧性至关重要。

4.The engineer calculated the adaptation coefficient to determine how well the new material would perform under stress.

工程师计算了适应系数以确定新材料在压力下的表现如何。

5.In ecological modeling, the adaptation coefficient indicates how quickly a species can adjust to habitat changes.

在生态建模中，适应系数指示物种能够多快适应栖息地变化。

作文

In the study of ecology and environmental science, the concept of the adaptation coefficient plays a critical role in understanding how organisms adjust to their surroundings. The adaptation coefficient refers to a numerical value that quantifies the ability of an organism to adapt to changes in its environment, such as temperature fluctuations, availability of resources, or changes in habitat. This coefficient can vary widely among species, reflecting their unique evolutionary histories and ecological niches.For instance, consider two species of plants that inhabit different environments: one thrives in arid deserts while the other flourishes in lush rainforests. The adaptation coefficient for the desert plant would be significantly higher when it comes to drought resistance, as it has developed specialized mechanisms to conserve water. Conversely, the rainforest plant’s adaptation coefficient might reflect its ability to maximize photosynthesis in low-light conditions, showcasing its adaptation to a dense canopy.Understanding the adaptation coefficient is essential for conservation efforts. As climate change accelerates, many species are facing unprecedented challenges that threaten their survival. By studying the adaptation coefficient of various species, scientists can predict which organisms are more likely to survive in changing conditions and which may face extinction. This knowledge is invaluable for developing conservation strategies that prioritize the protection of species with lower adaptability.Moreover, the adaptation coefficient is not limited to biological organisms; it can also be applied to human systems. For example, urban planning and infrastructure development must take into account the adaptation coefficient of communities to natural disasters. Cities that have high adaptation coefficients are better equipped to handle floods, earthquakes, and other emergencies due to their resilient infrastructure and effective emergency response systems.In addition, the adaptation coefficient can be utilized in agriculture to enhance food security. By selecting crops with favorable adaptation coefficients for specific climates, farmers can ensure better yields despite adverse weather conditions. This approach not only improves agricultural productivity but also contributes to sustainable farming practices.Ultimately, the adaptation coefficient serves as a vital tool in multiple fields, from ecology to urban planning and agriculture. Its application allows researchers and practitioners to assess the resilience of both natural and human systems, guiding decisions that promote sustainability and conservation. As we face global challenges such as climate change, understanding and leveraging the adaptation coefficient will be crucial in fostering a more adaptable and resilient future for all living organisms on our planet.

在生态学和环境科学的研究中，适应系数这一概念在理解生物如何调整以适应其环境方面起着关键作用。适应系数是一个量化生物适应环境变化（如温度波动、资源可用性或栖息地变化）能力的数值。这个系数在不同物种之间可能差异很大，反映了它们独特的进化历史和生态位。例如，考虑两种生活在不同环境中的植物：一种在干旱沙漠中茁壮成长，而另一种则在郁郁葱葱的雨林中繁盛。沙漠植物的适应系数在抗旱能力方面会显著更高，因为它已经发展出专门的机制来节约水分。相反，雨林植物的适应系数可能反映了它在低光条件下最大化光合作用的能力，展示了其对密集树冠的适应。理解适应系数对保护工作至关重要。随着气候变化的加速，许多物种面临着前所未有的挑战，这些挑战威胁着它们的生存。通过研究各种物种的适应系数，科学家可以预测哪些生物更可能在变化条件下生存，哪些可能面临灭绝。这一知识对于制定优先保护适应能力较低物种的保护策略是非常宝贵的。此外，适应系数不仅限于生物体；它也可以应用于人类系统。例如，城市规划和基础设施建设必须考虑社区对自然灾害的适应系数。具有高适应系数的城市在应对洪水、地震和其他紧急情况时由于其韧性基础设施和有效的应急响应系统而更具应对能力。此外，适应系数还可以用于农业，以增强粮食安全。通过选择适合特定气候的作物，农民可以确保尽管天气条件不利，仍能获得更好的产量。这种方法不仅提高了农业生产力，还促进了可持续农业实践。最终，适应系数在多个领域（从生态学到城市规划和农业）都作为重要工具。它的应用使研究人员和从业者能够评估自然和人类系统的韧性，从而指导促进可持续性和保护的决策。随着我们面临气候变化等全球挑战，理解并利用适应系数对于为我们星球上所有生物创造一个更具适应性和韧性的未来将至关重要。