aerobiotic decay

简明释义

1. 菌蚀; 2. 需氧分解;

英英释义

例句

1.The study of aerobiotic decay can help us understand how pollutants are broken down in the environment.

对有氧降解的研究可以帮助我们理解污染物如何在环境中被分解。

2.Farmers often rely on aerobiotic decay to improve soil health and fertility.

农民们通常依靠有氧降解来改善土壤健康和肥力。

3.In a forest ecosystem, aerobiotic decay plays a significant role in nutrient cycling.

在森林生态系统中，有氧降解在养分循环中起着重要作用。

4.The process of aerobiotic decay is crucial for composting as it helps break down organic matter efficiently.

有氧降解的过程对于堆肥化至关重要，因为它有助于高效分解有机物。

5.Microorganisms are essential for aerobiotic decay, as they facilitate the breakdown of complex organic compounds.

微生物对于有氧降解至关重要，因为它们促进复杂有机化合物的分解。

作文

In the study of environmental science, the term aerobiotic decay refers to the process by which organic matter decomposes in the presence of oxygen. This natural phenomenon is crucial for nutrient cycling in ecosystems and plays a significant role in maintaining ecological balance. Understanding aerobiotic decay is essential for various fields, including agriculture, waste management, and climate science.The process of aerobiotic decay begins when microorganisms such as bacteria and fungi break down organic materials, including dead plants and animals. These microorganisms thrive in oxygen-rich environments, which facilitate their metabolic processes. As they consume organic matter, they convert it into simpler substances, releasing energy in the form of heat and producing by-products like carbon dioxide and water. This decomposition process not only recycles nutrients back into the soil but also helps in the formation of humus, a vital component of healthy soil.One of the most significant benefits of aerobiotic decay is its impact on soil health. Healthy soil is essential for plant growth, as it provides the necessary nutrients and structure for roots to anchor and absorb water. The by-products of aerobiotic decay, particularly carbon dioxide, are also important for photosynthesis, as plants utilize this gas to produce oxygen and glucose. Thus, aerobiotic decay indirectly supports the entire food web by ensuring that plants have the resources they need to thrive.Additionally, aerobiotic decay plays a critical role in waste management. In composting processes, organic waste is intentionally subjected to aerobiotic decay to transform it into nutrient-rich compost. This method of recycling waste reduces landfill use and lowers greenhouse gas emissions, making it an environmentally friendly option for managing organic materials. By harnessing the power of aerobiotic decay, communities can promote sustainable practices that benefit both the environment and local agriculture.However, it is essential to note that while aerobiotic decay has many advantages, it can also contribute to environmental issues if not properly managed. For instance, excessive nitrogen from fertilizers can lead to nutrient runoff, causing algal blooms in water bodies. These blooms can deplete oxygen levels in the water, leading to dead zones where aquatic life cannot survive. Therefore, understanding the dynamics of aerobiotic decay is vital for implementing effective agricultural practices that minimize negative impacts on the environment.In conclusion, aerobiotic decay is a fundamental process that supports life on Earth by recycling organic matter and maintaining soil health. Its significance extends beyond ecology, influencing agricultural practices and waste management strategies. By appreciating the role of aerobiotic decay, we can foster a greater understanding of our ecosystem and work towards more sustainable living practices that honor the delicate balance of nature. As we continue to face environmental challenges, embracing the principles of aerobiotic decay will be crucial in our efforts to protect and restore our planet's health.

在环境科学的研究中，术语aerobiotic decay指的是有机物在氧气存在下分解的过程。这一自然现象对生态系统中的养分循环至关重要，并在维持生态平衡方面发挥着重要作用。理解aerobiotic decay对于农业、废物管理和气候科学等多个领域都是必不可少的。aerobiotic decay的过程开始于微生物（如细菌和真菌）分解有机材料，包括死去的植物和动物。这些微生物在富氧环境中繁衍生息，促进其代谢过程。当它们消耗有机物质时，会将其转化为更简单的物质，以热量的形式释放能量，并产生二氧化碳和水等副产品。这一分解过程不仅将养分回收回土壤中，还帮助形成腐殖质，这是健康土壤的重要组成部分。aerobiotic decay最显著的好处之一是其对土壤健康的影响。健康的土壤对植物生长至关重要，因为它为根系提供必要的养分和结构，以便固定和吸收水分。aerobiotic decay的副产品，特别是二氧化碳，对光合作用也至关重要，因为植物利用这种气体来生产氧气和葡萄糖。因此，aerobiotic decay间接支持了整个食物链，确保植物拥有茁壮成长所需的资源。此外，aerobiotic decay在废物管理中也发挥着关键作用。在堆肥过程中，有机废物被故意暴露于aerobiotic decay之下，从而转化为富含营养的堆肥。这种回收废物的方法减少了填埋场的使用，并降低了温室气体排放，使其成为管理有机材料的环保选择。通过利用aerobiotic decay的力量，社区可以促进可持续实践，造福环境和当地农业。然而，必须注意的是，虽然aerobiotic decay有许多优点，但如果管理不当，也可能导致环境问题。例如，过量施用氮肥可能导致养分流失，造成水体中的藻类繁殖。这些繁殖会耗尽水中的氧气，导致水域出现死区，水生生物无法生存。因此，理解aerobiotic decay的动态对于实施有效的农业实践以最小化对环境的负面影响至关重要。总之，aerobiotic decay是一个基本过程，通过回收有机物质和维持土壤健康，支持地球上的生命。它的重要性超越了生态学，影响农业实践和废物管理策略。通过欣赏aerobiotic decay的作用，我们可以加深对生态系统的理解，并朝着更加可持续的生活实践努力，尊重自然的微妙平衡。随着我们继续面临环境挑战，拥抱aerobiotic decay的原则将在保护和恢复我们星球健康的努力中至关重要。