radioecology

简明释义

英[ˌreɪdɪəʊiːˈkɒlədʒɪ]美[ˌredioɪˈkɑlədʒi]

n. [生物物理][生态] 放射生态学；[生物物理][生态] 辐射生态学

英英释义

单词用法

同义词

反义词

例句

1.The paper conducts an exploratory study on radioecology at Daya Bay.

本文对大亚湾海域放射生态学进行了有益的探索。

2.The paper conducts an exploratory study on radioecology at Daya Bay.

本文对大亚湾海域放射生态学进行了有益的探索。

3.The field of radioecology studies the effects of radioactive substances on the environment.

领域放射生态学研究放射性物质对环境的影响。

4.Researchers in radioecology assess how radiation affects plant growth.

在放射生态学领域的研究人员评估辐射如何影响植物生长。

5.Understanding radioecology is crucial for managing contaminated sites.

理解放射生态学对于管理污染场所至关重要。

6.The study of radioecology helps in evaluating the safety of nuclear waste disposal.

对放射生态学的研究有助于评估核废料处置的安全性。

7.In radioecology, scientists examine the transfer of radionuclides through food chains.

在放射生态学中，科学家研究放射性核素在食物链中的转移。

作文

Radioecology is a specialized field of study that focuses on the interactions between ionizing radiation and the environment, particularly concerning living organisms. This discipline is essential for understanding how radioactive materials affect ecosystems and human health. As nuclear technology advances and the use of radioactive materials becomes more prevalent, the importance of radioecology (放射生态学) has grown significantly. In this essay, I will explore the various aspects of radioecology (放射生态学), its applications, and its significance in today's world. The primary goal of radioecology (放射生态学) is to assess the impact of radioactive substances on the environment. This includes studying how these substances move through different ecological compartments, such as air, water, soil, and living organisms. Researchers in this field examine the pathways through which radiation can enter the food chain and the subsequent effects on wildlife and humans. For instance, after a nuclear accident, scientists conduct radioecology (放射生态学) studies to determine the levels of contamination in various habitats and to assess the risks posed to both human populations and ecosystems. One critical aspect of radioecology (放射生态学) is the assessment of radiation exposure. Understanding the dose-response relationship is vital for predicting the potential health effects on organisms exposed to radiation. Scientists employ various models and methodologies to estimate radiation doses and to evaluate the biological consequences of exposure. This research is crucial for developing safety standards and regulatory policies aimed at protecting public health and the environment. Moreover, radioecology (放射生态学) plays a significant role in environmental remediation efforts. After events such as nuclear accidents or the improper disposal of radioactive waste, radioecology (放射生态学) helps identify contaminated areas and develop strategies for decontamination. This includes monitoring the effectiveness of cleanup efforts and ensuring that ecosystems can recover from radiation exposure. In addition to its environmental applications, radioecology (放射生态学) is also vital for informing policy decisions regarding nuclear energy and waste management. As countries continue to explore nuclear power as a means of reducing carbon emissions, understanding the implications of radioecology (放射生态学) becomes increasingly important. Policymakers rely on scientific research in this field to formulate regulations that protect both the environment and public health while promoting the safe use of nuclear technology. Furthermore, radioecology (放射生态学) contributes to our understanding of natural background radiation and its effects on ecosystems. By studying the levels of naturally occurring radioactive materials, scientists can establish baseline data that can be used to compare against anthropogenic sources of radiation. This information is essential for evaluating the overall health of ecosystems and for making informed decisions about land use and resource management. In conclusion, radioecology (放射生态学) is a critical field that addresses the complex interactions between radiation and the environment. Its applications extend beyond environmental science to include public health, policy formulation, and ecological restoration. As we move forward in an era where nuclear technology continues to play a significant role in energy production and medical applications, the insights gained from radioecology (放射生态学) will be indispensable in safeguarding our planet and its inhabitants. The ongoing research in this field will ensure that we are better equipped to understand and mitigate the impacts of radiation on ecosystems and human health.

放射生态学是一个专门研究电离辐射与环境之间相互作用的领域，特别是与生物体相关的方面。这个学科对于理解放射性物质如何影响生态系统和人类健康至关重要。随着核技术的进步和放射性材料使用的日益普遍，放射生态学（radioecology）的重要性显著增加。在本文中，我将探讨放射生态学（radioecology）的各个方面、其应用以及在当今世界中的重要性。 放射生态学（radioecology）的主要目标是评估放射性物质对环境的影响。这包括研究这些物质如何在不同生态环境中移动，如空气、水、土壤和生物体。该领域的研究人员检查辐射如何进入食物链以及对野生动物和人类的后续影响。例如，在核事故后，科学家进行放射生态学（radioecology）研究，以确定各种栖息地的污染水平，并评估对人类和生态系统的风险。 放射生态学（radioecology）的一个关键方面是辐射暴露的评估。了解剂量-反应关系对于预测暴露于辐射的生物体可能产生的健康影响至关重要。科学家采用各种模型和方法来估算辐射剂量，并评估暴露的生物学后果。这项研究对于制定旨在保护公众健康和环境的安全标准和监管政策至关重要。 此外，放射生态学（radioecology）在环境修复工作中也发挥着重要作用。在核事故或放射性废物的不当处置等事件发生后，放射生态学（radioecology）帮助识别受污染区域并制定去污染策略。这包括监测清理工作的有效性，确保生态系统能够从辐射暴露中恢复。 除了环境应用之外，放射生态学（radioecology）对于告知有关核能和废物管理的政策决策也至关重要。随着各国继续探索核能作为减少碳排放的一种手段，理解放射生态学（radioecology）的影响变得越来越重要。决策者依赖于该领域的科学研究来制定保护环境和公众健康的法规，同时促进核技术的安全使用。 此外，放射生态学（radioecology）有助于我们理解自然背景辐射及其对生态系统的影响。通过研究自然存在的放射性物质的水平，科学家可以建立基线数据，这些数据可用于与人为来源的辐射进行比较。这些信息对于评估生态系统的整体健康状况以及做出有关土地使用和资源管理的明智决策至关重要。 总之，放射生态学（radioecology）是一个关键领域，解决了辐射与环境之间复杂的相互作用。它的应用超越了环境科学，还包括公共健康、政策制定和生态恢复。随着我们进入一个核技术在能源生产和医疗应用中继续发挥重要作用的时代，从放射生态学（radioecology）获得的见解将在保护我们的星球及其居民方面不可或缺。该领域的持续研究将确保我们更好地理解和减轻辐射对生态系统和人类健康的影响。