abiotrophy

简明释义

英[ˌeɪ.baɪˈɑː.trə.fi]美[ˌeɪ.baɪˈɑː.trə.fi]

n. [医] 生活力缺失；营养性衰竭

英英释义

单词用法

同义词

反义词

例句

1.Abiotrophy resulted from soil fertility inadequacy was a main limiting factor for the growth and development of apple trees in this region.

不施肥或施肥不足，则成为影响红富士幼树生长、发育和早实性的主要限制因子。

2.The exact cause of cerebellar abiotrophy is not known, but it is thought to be due to an intrinsic metabolic defect.

该疾病确切地病因不明，但人们认为可能是内在代谢缺陷所造成的。

3.Abiotrophy resulted from soil fertility inadequacy was a main limiting factor for the growth and development of apple trees in this region.

不施肥或施肥不足，则成为影响红富士幼树生长、发育和早实性的主要限制因子。

4.Research into abiotrophy 非生物营养缺乏 has uncovered new insights into how certain species adapt to extreme conditions.

对abiotrophy 非生物营养缺乏的研究揭示了某些物种如何适应极端条件的新见解。

5.The phenomenon of abiotrophy 非生物营养缺乏 is particularly evident in populations that have limited access to resources.

在资源有限的群体中，abiotrophy 非生物营养缺乏现象尤为明显。

6.In some cases, abiotrophy 非生物营养缺乏 can lead to significant health issues in animals, particularly in isolated environments.

在某些情况下，abiotrophy 非生物营养缺乏可能导致动物出现重大健康问题，特别是在孤立环境中。

7.Understanding abiotrophy 非生物营养缺乏 can help scientists develop better conservation strategies for endangered species.

理解abiotrophy 非生物营养缺乏可以帮助科学家制定更好的濒危物种保护策略。

8.The study of genetic disorders often includes conditions related to abiotrophy 非生物营养缺乏, where certain cells fail to thrive due to lack of necessary biological support.

对遗传疾病的研究通常包括与abiotrophy 非生物营养缺乏相关的情况，其中某些细胞因缺乏必要的生物支持而无法生存。

作文

In the study of biology, the concept of abiotrophy plays a significant role in understanding how certain organisms interact with their environment and how they can deteriorate over time due to non-living factors. Abiotrophy, which refers to the degeneration or loss of function in cells or tissues due to environmental influences rather than genetic defects, is especially important in fields such as ecology and conservation biology. This term helps scientists explain phenomena where species decline not because of direct predation or competition, but due to changes in their habitat that render it unsuitable for survival. For example, consider a population of amphibians living in a wetland area. If the water quality deteriorates due to pollution, the amphibians may experience abiotrophy in their reproductive systems, leading to decreased populations over time. This scenario highlights the importance of maintaining healthy ecosystems to prevent abiotrophy and ensure the survival of various species. Furthermore, abiotrophy can also extend to agricultural practices. Farmers must be aware of how soil degradation, nutrient depletion, and changes in climate can lead to abiotrophy in crops. A farmer who neglects soil health may find that their plants are not thriving, not because of pests or diseases, but because the essential nutrients have been washed away or depleted over years of monoculture farming. Understanding this concept allows farmers to implement better practices, such as crop rotation and sustainable farming techniques, to mitigate the effects of abiotrophy. In the context of human health, abiotrophy can also refer to the degeneration of bodily functions due to lifestyle choices and environmental factors. For instance, a sedentary lifestyle combined with poor nutrition can lead to abiotrophy of muscle tissue and overall physical health. By recognizing the factors contributing to this degeneration, individuals can make informed decisions about their health, engaging in regular exercise and balanced diets to combat the effects of abiotrophy. The implications of abiotrophy are vast, touching on ecological, agricultural, and health-related issues. As we face global challenges such as climate change and habitat destruction, understanding abiotrophy becomes increasingly vital. Conservation efforts must take into account the non-genetic factors that contribute to species decline, ensuring that ecosystems remain resilient against environmental stressors. Similarly, in agriculture, sustainable practices should be prioritized to prevent abiotrophy in our food systems. And on a personal level, awareness of lifestyle choices can empower individuals to take charge of their health and well-being.In conclusion, abiotrophy is a multifaceted concept that underscores the importance of external factors in the health and viability of living organisms. By studying and addressing these factors, we can work towards preserving biodiversity, enhancing agricultural productivity, and improving human health. The awareness and application of abiotrophy can lead to more sustainable practices across various fields, ultimately benefiting both the planet and its inhabitants.

在生物学研究中，abiotrophy 概念在理解某些生物如何与环境互动以及它们如何因非生物因素而随时间恶化方面发挥着重要作用。Abiotrophy 指的是由于环境影响而导致细胞或组织功能退化或丧失，而不是由于遗传缺陷，这一术语在生态学和保护生物学等领域尤其重要。这个术语帮助科学家解释现象，即物种衰退并不是因为直接捕食或竞争，而是由于栖息地的变化使其生存变得不适合。例如，考虑生活在湿地地区的一群两栖动物。如果水质因污染而恶化，这些两栖动物可能会在其生殖系统中经历 abiotrophy，导致随着时间的推移种群数量减少。这种情况突显了维护健康生态系统的重要性，以防止 abiotrophy 并确保各种物种的生存。此外，abiotrophy 还可以扩展到农业实践。农民必须意识到，土壤退化、养分耗竭和气候变化如何导致作物的 abiotrophy。忽视土壤健康的农民可能会发现，他们的植物没有茁壮成长，并不是因为害虫或疾病，而是因为必需养分在多年单一作物种植中被冲走或耗尽。理解这一概念使农民能够实施更好的实践，例如轮作和可持续农业技术，以减轻 abiotrophy 的影响。在人类健康的背景下，abiotrophy 也可以指由于生活方式选择和环境因素导致的身体功能退化。例如，久坐的生活方式加上不良营养可能导致肌肉组织和整体身体健康的 abiotrophy。通过认识到导致这种退化的因素，个人可以就自己的健康做出明智的决定，参与定期锻炼和均衡饮食，以对抗 abiotrophy 的影响。abiotrophy 的影响范围广泛，涉及生态、农业和健康相关问题。面对气候变化和栖息地破坏等全球挑战时，理解 abiotrophy 变得愈发重要。保护工作必须考虑导致物种衰退的非遗传因素，确保生态系统能够抵御环境压力。同样，在农业中，应优先考虑可持续实践，以防止我们的食品系统出现 abiotrophy。在个人层面上，意识到生活方式选择可以使个人能够掌控自己的健康和福祉。总之，abiotrophy 是一个多面的概念，强调外部因素在生物体健康和生存能力中的重要性。通过研究和解决这些因素，我们可以努力保护生物多样性，提高农业生产力，改善人类健康。对 abiotrophy 的意识和应用可以促进各个领域的可持续实践，最终惠及地球及其居民。