biocycle

简明释义

[/ˈbaɪoʊˌsaɪkəl/][/ˈbaɪoʊˌsaɪkəl/]

n. [生态] 生物环(指组成生物圈主要部分的一组相关的生态域,即陆地、海洋与淡水域)

英英释义

A biocycle refers to a natural cycle in which biological materials are recycled within an ecosystem, contributing to the sustainability and balance of the environment.

生物循环指的是一种自然循环,在该循环中,生物材料在生态系统内被回收利用,从而有助于环境的可持续性和生态平衡。

单词用法

同义词

biological cycle

生物循环

The biological cycle refers to the series of processes through which living organisms interact with their environment.

生物循环指的是生物体与其环境相互作用的一系列过程。

ecological cycle

生态循环

In ecology, understanding the ecological cycle is essential for maintaining biodiversity.

在生态学中,理解生态循环对于维持生物多样性至关重要。

nutrient cycle

养分循环

The nutrient cycle plays a critical role in ecosystem health and sustainability.

养分循环在生态系统的健康和可持续性中起着关键作用。

反义词

monocycle

单一循环

A monocycle approach often leads to unsustainable practices.

单一循环的方法往往会导致不可持续的做法。

linear cycle

线性循环

In a linear cycle, resources are used and disposed of without consideration for regeneration.

在线性循环中,资源被使用后直接处置,而不考虑再生。

例句

1.Biocycle is the cycling of chemicals through the biosphere.

生物循环是化学物质在生物圈内的循环。

2.Biocycle is the cycling of chemicals through the biosphere.

生物循环是化学物质在生物圈内的循环。

3.In nature, every organism plays a role in the biocycle 生物循环 of nutrients.

在自然界中,每个生物在营养的生物循环中都扮演着角色。

4.Implementing a biocycle 生物循环 system can reduce waste in urban areas.

实施生物循环系统可以减少城市地区的废物。

5.The biocycle 生物循环 helps maintain ecological balance.

生物循环有助于维持生态平衡。

6.We can enhance our garden's health by understanding its biocycle 生物循环.

通过了解花园的生物循环,我们可以增强其健康。

7.The concept of a biocycle 生物循环 is essential for sustainable agriculture.

生物循环的概念对可持续农业至关重要。

作文

The concept of the biocycle is increasingly important in our understanding of ecological systems and sustainability. A biocycle refers to the natural processes through which biological materials are recycled within an ecosystem. This cycle includes various stages such as production, consumption, decomposition, and nutrient cycling, all of which are crucial for maintaining ecological balance. In nature, every organism plays a role in this biocycle, contributing to the health and stability of their environment.For instance, plants absorb nutrients from the soil and convert them into energy through photosynthesis. When animals consume these plants, they obtain essential nutrients that support their growth and survival. After the death of these organisms, decomposers like bacteria and fungi break down their bodies, returning vital nutrients back to the soil. This process not only enriches the soil but also supports new plant growth, thus continuing the biocycle.Understanding the biocycle is essential for sustainable practices in agriculture and waste management. By recognizing how organic materials can be reused and recycled, we can develop methods that minimize waste and enhance soil fertility. For example, composting is a practical application of the biocycle, where kitchen scraps and yard waste are transformed into nutrient-rich compost that can be used to enrich garden soil. This practice not only reduces the amount of waste sent to landfills but also promotes healthier plant growth, showcasing the interconnectedness of the biocycle.Moreover, the biocycle has implications for addressing climate change. As we understand the importance of carbon cycling within ecosystems, strategies that enhance the biocycle can help sequester carbon in soils and vegetation. Practices such as agroforestry and permaculture emphasize the integration of crops and trees, promoting biodiversity and enhancing the biocycle. These approaches not only provide food security but also contribute to the resilience of ecosystems in the face of climate challenges.In urban settings, the principles of the biocycle can be applied to create green spaces that support biodiversity. Urban gardens, green roofs, and community parks can serve as vital habitats for various species while also providing recreational spaces for people. By incorporating elements of the biocycle into city planning, we can foster a deeper connection between urban dwellers and the natural world, encouraging stewardship and sustainable living.In conclusion, the biocycle is a fundamental concept that emphasizes the interdependence of life forms and the importance of recycling biological materials within ecosystems. By understanding and applying the principles of the biocycle, we can promote sustainability, enhance biodiversity, and mitigate the impacts of climate change. Embracing the biocycle in our daily lives, whether through composting, sustainable agriculture, or urban greening, can lead us toward a healthier planet for future generations.

“生物循环”这一概念在我们理解生态系统和可持续发展方面变得越来越重要。生物循环指的是生物材料在生态系统中被回收的自然过程。这个循环包括生产、消费、分解和养分循环等多个阶段,这些阶段对于维持生态平衡至关重要。在自然界中,每种生物在这个生物循环中都扮演着角色,为其环境的健康和稳定做出贡献。例如,植物从土壤中吸收养分,通过光合作用将其转化为能量。当动物食用这些植物时,它们获得了支持其生长和生存的必要养分。在这些生物死亡后,细菌和真菌等分解者会分解它们的尸体,将重要的养分重新返回土壤。这一过程不仅丰富了土壤,还支持新的植物生长,从而继续生物循环。理解生物循环对于可持续农业和废物管理实践至关重要。通过认识到有机材料如何被重复利用和回收,我们可以开发减少废物和增强土壤肥力的方法。例如,堆肥是一种生物循环的实际应用,其中厨房剩余物和庭院废物被转化为富含养分的堆肥,可用于丰富花园土壤。这一做法不仅减少了送往垃圾填埋场的废物数量,还促进了植物的健康生长,展示了生物循环的相互联系。此外,生物循环对应对气候变化也有重要影响。随着我们了解碳循环在生态系统中的重要性,增强生物循环的策略可以帮助在土壤和植被中固碳。农业林业和永续农业等实践强调作物和树木的整合,促进生物多样性并增强生物循环。这些方法不仅提供食品安全,还为生态系统在面对气候挑战时的韧性做出贡献。在城市环境中,生物循环的原则可以应用于创建支持生物多样性的绿地。城市花园、绿色屋顶和社区公园可以作为各种物种的重要栖息地,同时为人们提供休闲空间。通过将生物循环的元素融入城市规划,我们可以促进城市居民与自然世界之间更深的联系,鼓励保护意识和可持续生活。总之,生物循环是一个基本概念,强调生物形式之间的相互依赖性以及在生态系统中回收生物材料的重要性。通过理解和应用生物循环的原则,我们可以促进可持续发展,增强生物多样性,并减轻气候变化的影响。在我们的日常生活中,接受生物循环,无论是通过堆肥、可持续农业还是城市绿化,都可以引导我们走向一个更健康的星球,为未来的世代铺平道路。