coevolutionary
简明释义
英[ˌkəʊɪˈvɛləʊʃənəri]美[ˌkoʊɪˈvɛləʃənəri]
共同进化的
英英释义
Relating to the process by which two or more species influence each other's evolutionary development. | 与两个或多个物种相互影响其进化发展的过程有关。 |
单词用法
共同进化军备竞赛 | |
共同进化互动 | |
共同进化适应 | |
共同进化机制 | |
共同进化模式 | |
共同进化模型 |
同义词
反义词
| 独立的 | The two species evolved independently in different environments. | 这两种物种在不同的环境中独立进化。 | |
| 非同步的 | Asynchronous processes do not rely on each other for development. | 非同步过程的发展不相互依赖。 |
例句
1.The cooperative route planning problem of multiple air vehicles is studied with the proposal of a novel coevolutionary coordinative route planner.
针对多飞行器的协调航迹规划展开研究,提出了一种基于协同进化的多飞行器协调航迹规划算法。
2.Afterwards, a new robot path planning method and a new multi-robots path planning method proposed by author and integrated by the virtue of immune operation and coevolutionary.
接着重点探讨了结合免疫进化和协同进化算法的单机器人和多机器人路径规划问题。
3.On the other hand, why, in this coevolutionary world, is anything at all stable?
另一方面,在这个共同进化的世界里,为何任何事物归根结底都是稳定的?
4.The grand closure of Gaia keeps cycling because all its lesser cycles inform each other in constant coevolutionary communication.
盖亚的大封闭圈里循环不断,是因为其中所有的小循环都在不断的共同进化沟通中互相交流。
5.The assumptions for these fluctuating values are fixed in Limits to Growth model, but in reality the assumptions themselves have coevolutionary mechanisms that flux over time.
在“增长的极限”模型中,这些波动数值的假设都是固定的,但是,在现实生活中,这些假设本身就拥有共同进化的机制,会随着时间的变化而变化。
6.One marvelous result from these experiments bears consideration by anyone hoping to manage coevolutionary forces.
这些实验得出了一个了不起的结果,令所有希望驾驭共同进化力量的人都为之瞩目。
7.The M-elite coevolutionary algorithm (MECA) is proposed for high-dimensional unconstrained numerical optimization problems based on the concept of coevolutionary algorithm and elitist strategy.
本文在其基础上考虑了每个零部件的需求量不同所带来的影响,提出了一种基于精英策略和自适应性的混合遗传算法。
8.Perhaps the most useful lesson of coevolution for "wannabe" gods is that in coevolutionary worlds control and secrecy are counterproductive.
对于“伪神们”[8]来说,从共同进化中获得的最有用的教训就是,在共同进化的世界里,控制和保密只能帮倒忙。
9.In ecology, coevolutionary 共进化的 processes can lead to mutual adaptations between species.
在生态学中,共进化的过程可以导致物种之间的相互适应。
10.The study of coevolutionary 共进化的 interactions helps scientists predict how ecosystems might change.
对共进化的互动的研究帮助科学家预测生态系统可能发生的变化。
11.Some plants and pollinators exhibit a coevolutionary 共进化的 relationship that enhances their survival.
一些植物和授粉者表现出一种共进化的关系,这增强了它们的生存能力。
12.The concept of coevolutionary 共进化的 dynamics is crucial in understanding predator-prey relationships.
理解捕食者与猎物关系中的共进化的动态概念至关重要。
13.Researchers are exploring coevolutionary 共进化的 patterns in bacteria and their hosts.
研究人员正在探索细菌及其宿主之间的共进化的模式。
作文
In the intricate web of life, the concept of coevolutionary (共同进化的) relationships plays a crucial role in shaping ecosystems. Coevolution refers to the process by which two or more species influence each other's evolutionary trajectory. This phenomenon is particularly evident in the interactions between predators and their prey, as well as between plants and their pollinators. Understanding these coevolutionary (共同进化的) dynamics is essential for grasping the complexities of biodiversity and the interdependencies that exist within natural systems.One classic example of coevolutionary (共同进化的) relationships can be observed in the interaction between flowering plants and their pollinators, such as bees and butterflies. These organisms have evolved together over millions of years, leading to adaptations that benefit both parties. For instance, many flowers have developed specific shapes, colors, and scents to attract particular pollinators. In turn, these pollinators have evolved specialized mouthparts and behaviors that enable them to access the nectar and pollen of these flowers efficiently. This mutualistic relationship exemplifies how coevolutionary (共同进化的) processes can enhance reproductive success for plants while providing food resources for pollinators.Another striking example of coevolutionary (共同进化的) dynamics is found in predator-prey interactions. The classic case of the cheetah and the gazelle illustrates this relationship vividly. Cheetahs are incredibly fast runners, having evolved to chase down swift prey like gazelles. Conversely, gazelles have developed remarkable speed and agility to escape from predators. This ongoing evolutionary arms race drives both species to adapt continuously, resulting in a fascinating coevolutionary (共同进化的) dance of survival. As each species evolves new traits, the other must respond with its own adaptations, highlighting the interconnectedness of life on Earth.The significance of understanding coevolutionary (共同进化的) relationships extends beyond academic curiosity; it has practical implications for conservation efforts. As human activities increasingly disrupt natural habitats, the delicate balance of coevolutionary (共同进化的) interactions can be thrown into disarray. For example, habitat destruction can lead to the decline of specific plant species, which in turn affects the pollinators that rely on them. This cascading effect can threaten entire ecosystems, emphasizing the importance of preserving biodiversity.Moreover, recognizing coevolutionary (共同进化的) patterns can aid in the development of sustainable agricultural practices. By understanding how crops and their pests coevolve, farmers can implement strategies that promote beneficial insects and reduce reliance on chemical pesticides. This approach not only supports ecosystem health but also enhances food security by fostering resilient agricultural systems.In conclusion, the study of coevolutionary (共同进化的) relationships provides valuable insights into the interconnectedness of life forms on our planet. From the intricate partnerships between plants and pollinators to the dynamic interactions between predators and prey, these relationships illustrate the profound impact that species have on one another's evolution. As we face environmental challenges, recognizing the importance of coevolutionary (共同进化的) dynamics will be crucial for effective conservation and sustainable practices. By fostering a deeper understanding of these interactions, we can work towards a future where both human and ecological communities thrive together.
在生命的复杂网络中,coevolutionary(共同进化的)关系的概念在塑造生态系统方面发挥着至关重要的作用。共同进化是指两个或多个物种相互影响彼此的进化轨迹的过程。这一现象在捕食者与猎物之间以及植物与其授粉者之间的相互作用中尤为明显。理解这些coevolutionary(共同进化的)动态对于掌握生物多样性的复杂性和自然系统中存在的相互依赖性至关重要。一个经典的coevolutionary(共同进化的)关系的例子可以在开花植物与其授粉者(如蜜蜂和蝴蝶)之间的相互作用中观察到。这些生物在数百万年的时间里共同进化,导致了有利于双方的适应性。例如,许多花朵发展出了特定的形状、颜色和气味,以吸引特定的授粉者。反过来,这些授粉者也进化出了专门的口器和行为,使它们能够有效地获取这些花朵的花蜜和花粉。这种互惠关系很好地说明了coevolutionary(共同进化的)过程如何增强植物的繁殖成功,同时为授粉者提供食物资源。另一个引人注目的coevolutionary(共同进化的)动态例子可以在捕食者与猎物的相互作用中找到。猎豹与瞪羚的经典案例生动地展示了这种关系。猎豹是一种速度极快的捕食者,进化出追逐快速猎物(如瞪羚)的能力。相反,瞪羚则发展出了出色的速度和灵活性,以逃避捕食者。这种持续的进化军备竞赛驱动着两个物种不断适应,形成了一种迷人的coevolutionary(共同进化的)生存舞蹈。随着每个物种进化出新的特征,另一个物种必须通过自己的适应做出回应,突显了地球生命的相互联系。理解coevolutionary(共同进化的)关系的重要性超越了学术好奇心;它对保护工作具有实际意义。随着人类活动日益破坏自然栖息地,coevolutionary(共同进化的)相互关系的微妙平衡可能会被打乱。例如,栖息地的破坏可能导致特定植物物种的衰退,这又会影响依赖它们的授粉者。这种连锁反应可能威胁整个生态系统,强调了保护生物多样性的重要性。此外,认识到coevolutionary(共同进化的)模式可以有助于可持续农业实践的发展。通过了解农作物及其害虫的共同进化,农民可以实施促进有益昆虫并减少对化学农药依赖的策略。这种方法不仅支持生态系统健康,还通过促进有韧性的农业系统增强粮食安全。总之,研究coevolutionary(共同进化的)关系为我们提供了关于我们星球上生命形式相互联系的宝贵见解。从植物与授粉者之间复杂的伙伴关系到捕食者与猎物之间动态的相互作用,这些关系展示了物种对彼此进化的深远影响。在面临环境挑战时,认识到coevolutionary(共同进化的)动态的重要性对于有效的保护和可持续实践至关重要。通过加深对这些相互作用的理解,我们可以朝着一个人类和生态社区共同繁荣的未来努力。
