bionomy
简明释义
n. 生态学;生理学;生命学
英英释义
Bionomy is the study of the laws of life and the ecological relationships between organisms and their environments. | 生物法则是研究生命法则以及生物与其环境之间的生态关系的学科。 |
单词用法
动物的生物法则 | |
植物的生物法则 | |
应用生物法则 | |
生物法则与行为 | |
生物法则原则 | |
生物法则与生态学 | |
自然界中的生物法则 | |
作为科学的生物法则 |
同义词
反义词
非生物的 | Abiotic factors such as temperature and sunlight affect ecosystems. | 温度和阳光等非生物因素会影响生态系统。 | |
无机的 | Inorganic compounds are essential for various industrial processes. | 无机化合物对各种工业过程至关重要。 |
例句
1.The latest development and application prospect of Inonotus obliquus is summarized in following aspects: taxology, bionomy, cultivation on manpower and development tendency in medicine.
概述了国内外桦褐孔菌的分类学、生态学、人工栽培及药用研究动态的最新进展和应用前景。
2.Complex networks have penetrated into many fields such as mathematical subject, bionomy, engineering and so on. Now the research on complex networks has become a very challenging subject.
复杂网络研究正渗透到数理学科、生命学科和工程学科等众多不同的领域,对复杂网络的研究已成为网络时代科学研究的一个极其重要的挑战性课题。
3.With the plant bionomy the tree ' s growth mechanism is analysed. tree ' s growth model and data structure are builded, and the way of traversaling is advanced.
本文从植物生态学角度出发,根据树的生长原理,建立生长模型及相应的数据结构,并提出该结构的遍历演算法。
4.Complex networks have penetrated into many fields such as mathematical subject, bionomy, engineering and so on. Now the research on complex networks has become a very challenging subject.
复杂网络研究正渗透到数理学科、生命学科和工程学科等众多不同的领域,对复杂网络的研究已成为网络时代科学研究的一个极其重要的挑战性课题。
5.The principles of bionomy 生物法则 are applied in sustainable agriculture to enhance biodiversity.
在可持续农业中应用bionomy 生物法则的原则以增强生物多样性。
6.Understanding bionomy 生物法则 can lead to better conservation strategies for endangered species.
理解bionomy 生物法则可以为濒危物种提供更好的保护策略。
7.In ecology, bionomy 生物法则 plays a crucial role in determining the health of an ecosystem.
在生态学中,bionomy 生物法则在决定生态系统健康方面起着至关重要的作用。
8.Researchers are exploring how bionomy 生物法则 affects species adaptation to climate change.
研究人员正在探讨bionomy 生物法则如何影响物种适应气候变化。
9.The study of bionomy 生物法则 helps researchers understand the interactions between organisms and their environment.
对bionomy 生物法则的研究帮助研究人员理解生物体与其环境之间的相互作用。
作文
In the vast realm of biological sciences, the term bionomy plays a significant role in understanding the interactions between organisms and their environments. Bionomy refers to the study of the laws that govern the life processes of organisms in their natural habitats. It encompasses various aspects of ecology, physiology, and evolutionary biology, making it an essential concept for comprehending how life forms adapt and thrive in diverse ecosystems.The importance of bionomy can be illustrated through the lens of ecological balance. Every organism, from the tiniest microbe to the largest mammal, has a unique role to play in its ecosystem. For instance, consider the role of bees in pollination. Bees are not only vital for the reproduction of many flowering plants but also contribute to the food supply for numerous animals, including humans. The study of bionomy allows scientists to understand these intricate relationships and the consequences of disrupting them.Moreover, bionomy is crucial in conservation efforts. As human activities continue to impact natural habitats, the knowledge gained from bionomy helps in formulating strategies to protect endangered species and restore damaged ecosystems. By understanding the specific needs and behaviors of various organisms, conservationists can create targeted plans that promote biodiversity and sustainability.For example, the restoration of a wetland habitat requires an understanding of the bionomy of the species that inhabit it. This includes knowing how these species interact with one another and their environment, as well as their reproductive cycles and feeding habits. Without this knowledge, restoration efforts may fail, leading to further loss of biodiversity.Furthermore, bionomy also intersects with human health. Many medicines are derived from compounds found in nature, and understanding the life processes of organisms can lead to the discovery of new pharmaceuticals. For instance, the study of certain plants' bionomy has led to breakthroughs in cancer treatment and pain management. This highlights the importance of preserving natural habitats, as they are potential sources of medical advancements that could benefit humanity.In addition to its practical applications, bionomy also enriches our understanding of life's complexity. It invites us to appreciate the delicate balance that sustains ecosystems and the myriad forms of life that inhabit our planet. By studying bionomy, we gain insights into the evolutionary processes that have shaped life over millions of years, revealing the interconnectedness of all living things.In conclusion, bionomy is a vital field of study that bridges ecology, conservation, and human health. Its principles guide our understanding of how organisms interact within their environments and the importance of maintaining ecological balance. As we face increasing environmental challenges, the insights provided by bionomy will be crucial in developing sustainable practices that protect our planet’s biodiversity for future generations. Embracing the knowledge of bionomy not only enhances our scientific understanding but also fosters a deeper appreciation for the intricate web of life that surrounds us.
在生物科学的广阔领域中,术语bionomy在理解生物体与其环境之间的相互作用方面发挥着重要作用。Bionomy指的是研究生物体在其自然栖息地中的生命过程所遵循的法则。这一概念涵盖了生态学、生理学和进化生物学的各个方面,使其成为理解生命形式如何适应和在多样化生态系统中繁荣的重要概念。Bionomy的重要性可以通过生态平衡的视角来说明。每个生物体,从最微小的微生物到最大的哺乳动物,在其生态系统中都有独特的角色。例如,考虑蜜蜂在授粉中的作用。蜜蜂不仅对许多开花植物的繁殖至关重要,而且还为包括人类在内的众多动物的食物供应做出贡献。对bionomy的研究使科学家能够理解这些复杂的关系以及破坏它们的后果。此外,bionomy在保护工作中也至关重要。随着人类活动继续影响自然栖息地,从bionomy中获得的知识有助于制定保护濒危物种和恢复受损生态系统的策略。通过了解各种生物的具体需求和行为,保护人士可以制定促进生物多样性和可持续性的针对性计划。例如,恢复湿地栖息地需要了解居住在其中的物种的bionomy。这包括了解这些物种如何彼此相互作用及其环境,以及它们的繁殖周期和觅食习惯。如果没有这些知识,恢复工作可能会失败,导致生物多样性的进一步丧失。此外,bionomy还与人类健康交叉。许多药物都是从自然中发现的化合物中提取的,理解生物体的生命过程可以导致新药物的发现。例如,对某些植物的bionomy研究已经导致癌症治疗和疼痛管理的突破。这突显了保护自然栖息地的重要性,因为它们是潜在的医学进步来源,可能惠及人类。除了其实际应用外,bionomy还丰富了我们对生命复杂性的理解。它邀请我们欣赏维持生态系统的微妙平衡以及栖息在我们星球上的无数生命形式。通过研究bionomy,我们获得了对塑造生命的进化过程的洞察,揭示了所有生物体之间的相互联系。总之,bionomy是一个重要的研究领域,连接了生态学、保护和人类健康。它的原则指导我们理解生物体如何在其环境中相互作用以及维护生态平衡的重要性。随着我们面临日益严重的环境挑战,bionomy提供的见解将对制定可持续实践以保护我们星球的生物多样性至关重要。拥抱bionomy的知识不仅增强了我们的科学理解,还培养了我们对围绕我们的生命复杂网络的更深层次的欣赏。