bionomics
简明释义
英[ˌbaɪəˈnɒmɪks]美[ˌbaɪəˈnɑːmɪks]
n. 生态学;[生态] 个体生态学
英英释义
单词用法
生态经济学的研究 | |
生态经济学的应用 | |
生态经济学与生态学 | |
生态经济学的原则 |
同义词
反义词
例句
1.To date, the research on L. paeta is quite limited. Only few papers on the taxonomy and bionomics has been published, and the research on physiological and biochemical aspects of L. paeta is lack.
目前,国内外对小眼书虱的研究非常少,仅有少量对其分类及生物学特性的报道,而对其生理生化机制的研究极为缺乏。
2.The occurrence and bionomics of the 3 species were described. The reasons of occurrence were analysed and the control measures were provided.
文章描述了橄榄害虫发生情况和3种主要害虫的生物学特性,并分析了害虫发生严重为害的原因,提出了适宜的防治对策。
3.Objective: to investigate the culture method in vitro and the bionomics of masticatory muscle satellite cells.
目的:探讨咀嚼肌卫星细胞的体外培养方法并研究其生物学特性。
4.DATA EXTRACTION: a total of 50 papers about the bionomics of AT2 receptors and the renovation of damaged tissue especially on heart, kidney as well as renovation of brain tissue injury were collected.
资料提炼:共收集到50余篇关于2型受体生物学特性及其与组织损伤修复,特别是与心、肾、脑组织损伤修复相关的文章。
5.The bionomics, function and its research progress in periodontium and dental implantation was summarized in this review.
笔者下面主要就细胞纤连蛋白的结构、生物学特性、功能及其与牙周组织的关系作一综述。
6.To explore the methods of isolation and purification of human fetal liver stem cells in vitro and analyze the bionomics.
研究人胎肝干细胞体外分离纯化方法,并对其进行初步鉴定及生物学特性分析。
7.The study of bionomics helps us understand the interactions within ecosystems.
对生物经济学的研究帮助我们理解生态系统内的相互作用。
8.By studying bionomics, we can improve our understanding of food webs.
通过研究生物经济学,我们可以提高对食物网的理解。
9.Researchers are applying bionomics to develop sustainable agricultural practices.
研究人员正在应用生物经济学来开发可持续的农业实践。
10.Understanding bionomics can lead to better conservation strategies for endangered species.
理解生物经济学可以为濒危物种提供更好的保护策略。
11.The principles of bionomics are crucial in urban planning for green spaces.
在城市规划绿色空间时,生物经济学的原则至关重要。
作文
In recent years, the concept of bionomics has gained increasing attention in various fields, particularly in ecology and environmental science. Bionomics refers to the study of the relationships between organisms and their environment, focusing on how these interactions impact the survival and reproduction of species. This interdisciplinary approach combines elements from biology, ecology, and economics to provide a comprehensive understanding of ecosystems and their dynamics.The importance of bionomics cannot be overstated, especially in the context of global challenges such as climate change, habitat destruction, and biodiversity loss. As human activities continue to exert pressure on natural systems, understanding the intricate web of life becomes crucial. For instance, by studying the bionomics of a specific ecosystem, scientists can identify key species that play vital roles in maintaining ecological balance. These species, often referred to as keystone species, have a disproportionately large effect on their environment relative to their abundance.Moreover, bionomics also emphasizes the economic aspects of biological interactions. By analyzing how ecosystems provide services such as pollination, water purification, and carbon sequestration, researchers can advocate for policies that promote conservation and sustainable resource management. The economic valuation of ecosystem services highlights the intrinsic worth of nature, encouraging societies to invest in preserving biodiversity rather than exploiting it unsustainably.One fascinating application of bionomics is in agriculture, where it can inform practices that enhance crop yields while minimizing environmental impacts. By understanding the relationships between crops, pests, and beneficial organisms, farmers can adopt integrated pest management strategies that reduce the need for chemical pesticides. This not only benefits the environment but also improves food security by promoting healthier ecosystems.Additionally, bionomics plays a vital role in conservation efforts. By studying the interactions between species and their habitats, conservationists can develop targeted strategies to protect endangered species and restore degraded ecosystems. For example, reintroducing a keystone species into an ecosystem can trigger positive changes that benefit numerous other species, demonstrating the interconnectedness of life.Education and public awareness are also critical components of bionomics. By fostering a deeper understanding of ecological relationships, individuals can make informed decisions that contribute to sustainability. Initiatives aimed at educating communities about their local ecosystems can empower people to take action, whether through participating in conservation projects or advocating for environmentally friendly policies.In conclusion, bionomics represents a holistic approach to understanding the complex relationships between organisms and their environments. Its applications extend beyond academic research, influencing agriculture, conservation, and public policy. As we face unprecedented environmental challenges, embracing the principles of bionomics will be essential for fostering a sustainable future. By recognizing the value of biodiversity and the interconnectedness of life, we can work towards a harmonious coexistence with nature, ensuring that future generations inherit a thriving planet.
近年来,bionomics的概念在生态学和环境科学等多个领域引起了越来越多的关注。Bionomics指的是研究生物与其环境之间关系的学科,重点关注这些相互作用如何影响物种的生存和繁殖。这种跨学科的方法结合了生物学、生态学和经济学的元素,以提供对生态系统及其动态的全面理解。Bionomics的重要性不容小觑,尤其是在气候变化、栖息地破坏和生物多样性丧失等全球挑战的背景下。随着人类活动持续对自然系统施加压力,理解生命的复杂网络变得至关重要。例如,通过研究特定生态系统的bionomics,科学家可以识别出在维持生态平衡方面发挥关键作用的关键物种。这些物种通常被称为基石物种,它们对环境的影响与其丰度相比显得尤为巨大。此外,bionomics还强调生物相互作用的经济方面。通过分析生态系统提供的服务,如授粉、水质净化和碳封存,研究人员可以倡导促进保护和可持续资源管理的政策。生态系统服务的经济价值评估突显了自然的内在价值,鼓励社会投资于保护生物多样性,而不是以不可持续的方式进行开发。Bionomics的一个迷人应用是农业,它可以为提高作物产量并最小化环境影响的实践提供信息。通过理解作物、害虫和有益生物之间的关系,农民可以采用综合害虫管理策略,从而减少对化学农药的需求。这不仅有利于环境,还有助于通过促进更健康的生态系统来改善粮食安全。此外,bionomics在保护工作中也发挥着至关重要的作用。通过研究物种与其栖息地之间的相互作用,保护主义者可以制定针对性的策略来保护濒危物种和恢复退化的生态系统。例如,将基石物种重新引入生态系统可以触发积极的变化,惠及众多其他物种,展示了生命的相互联系。教育和公众意识也是bionomics的关键组成部分。通过促进对生态关系的更深理解,个人可以做出有助于可持续发展的明智决策。旨在教育社区了解其当地生态系统的倡议可以使人们能够采取行动,无论是通过参与保护项目还是倡导环保政策。总之,bionomics代表了一种全面理解生物与其环境之间复杂关系的方法。它的应用不仅限于学术研究,还影响农业、保护和公共政策。随着我们面临前所未有的环境挑战,接受bionomics的原则对于促进可持续未来至关重要。通过认识到生物多样性的价值和生命的相互联系,我们可以朝着与自然和谐共处的方向努力,确保子孙后代继承一个繁荣的星球。
