airboune mercury survey

简明释义

1. 航空测汞; 2. 航空汞气测量;

英英释义

例句

1.Local communities were informed about the results of the airborne mercury survey and its implications.

当地社区被告知空气中的汞调查的结果及其影响。

2.Results from the airborne mercury survey indicated higher concentrations near industrial sites.

来自空气中的汞调查的结果显示，工业区附近的浓度较高。

3.Using advanced technology, the team performed an airborne mercury survey over the mining areas.

利用先进技术，团队在矿区进行了空气中的汞调查。

4.The findings of the airborne mercury survey were crucial for developing a remediation plan.

该空气中的汞调查的发现对制定修复计划至关重要。

5.The environmental agency conducted an airborne mercury survey to assess pollution levels in the region.

环保局进行了空气中的汞调查以评估该地区的污染水平。

作文

In recent years, environmental monitoring has become increasingly important as we strive to understand the impact of human activities on our planet. One significant aspect of this monitoring is the assessment of mercury levels in various ecosystems. Mercury is a toxic heavy metal that can have detrimental effects on both wildlife and human health. To effectively monitor mercury pollution, scientists have developed various methods, one of which is the airborne mercury survey. This technique allows for the detection and mapping of mercury emissions over large areas, providing crucial data for environmental studies and policy-making.The airborne mercury survey involves the use of specialized aircraft equipped with advanced sensors that can detect mercury concentrations in the atmosphere. These surveys are conducted at different altitudes and cover vast geographical regions, making them highly efficient for assessing mercury levels across landscapes that may be difficult to access on the ground. By flying over industrial sites, mining areas, and natural reserves, researchers can gather comprehensive data on how mercury disperses in the environment.One of the primary advantages of the airborne mercury survey is its ability to provide real-time data. Unlike traditional ground-based sampling methods, which can be time-consuming and limited to specific locations, airborne surveys can quickly generate extensive datasets. This immediacy is particularly useful in emergency situations, such as when there is a suspected mercury spill or release. Authorities can act swiftly based on the information gathered from these surveys, potentially mitigating harm to public health and the environment.Moreover, the data obtained from an airborne mercury survey can be invaluable for scientific research. It helps in understanding the sources of mercury emissions, including natural phenomena like volcanic eruptions and human activities such as coal combustion and mining operations. By analyzing the spatial distribution of mercury, researchers can identify hotspots of contamination and assess the effectiveness of regulatory measures aimed at reducing mercury emissions.In addition to environmental monitoring, the findings from airborne mercury surveys can also inform public health initiatives. High levels of mercury exposure are linked to neurological disorders and other serious health issues. By identifying areas with elevated mercury levels, health officials can implement targeted interventions, such as issuing advisories against fish consumption from contaminated waters or conducting health screenings for affected populations.Despite the advantages, there are challenges associated with airborne mercury surveys. The cost of conducting these surveys can be significant, requiring investments in technology and skilled personnel. Additionally, interpreting the data can be complex, as various factors influence mercury dispersion, including weather conditions and geographical features. Therefore, collaboration between scientists, policymakers, and communities is essential to ensure that the findings are used effectively to protect both the environment and public health.In conclusion, the airborne mercury survey represents a powerful tool in the ongoing effort to monitor and manage mercury pollution. By harnessing advanced technology and aerial capabilities, researchers can gather critical data that informs environmental policies and public health strategies. As awareness of mercury's dangers continues to grow, the importance of such surveys will only increase, highlighting the need for continued investment in environmental monitoring techniques that safeguard our planet and its inhabitants.

近年来，环境监测变得越来越重要，因为我们努力了解人类活动对地球的影响。监测中的一个重要方面是评估各种生态系统中的汞水平。汞是一种有毒的重金属，对野生动物和人类健康都有害。为了有效监测汞污染，科学家们开发了多种方法，其中之一就是空中汞调查。这一技术可以检测并绘制大范围内的汞排放图，为环境研究和政策制定提供重要数据。空中汞调查涉及使用配备先进传感器的专用飞机，这些传感器能够检测大气中的汞浓度。这些调查在不同高度进行，并覆盖广阔的地理区域，使其在评估可能难以通过地面访问的景观中的汞水平时非常高效。通过飞越工业区、采矿区和自然保护区，研究人员能够收集关于汞在环境中如何扩散的全面数据。空中汞调查的主要优点之一是其能够提供实时数据。与传统的基于地面的取样方法相比，后者可能耗时且局限于特定位置，空中调查可以快速生成广泛的数据集。这种即时性在紧急情况下尤为有用，例如当怀疑发生汞泄漏或释放时。有关当局可以根据这些调查收集的信息迅速采取行动，潜在地减轻对公众健康和环境的危害。此外，从空中汞调查获得的数据对于科学研究也极为宝贵。它有助于了解汞排放的来源，包括自然现象，如火山喷发，以及人类活动，如煤燃烧和采矿作业。通过分析汞的空间分布，研究人员可以识别污染热点，并评估旨在减少汞排放的监管措施的有效性。除了环境监测，空中汞调查的结果还可以为公共健康计划提供信息。高水平的汞暴露与神经系统疾病及其他严重健康问题相关。通过识别汞水平升高的地区，卫生官员可以实施针对性的干预措施，例如发布关于禁止食用受污染水域鱼类的建议或对受影响人群进行健康筛查。尽管有优势，但空中汞调查也面临挑战。进行这些调查的成本可能相当可观，需要在技术和专业人员方面进行投资。此外，解读数据可能很复杂，因为多种因素会影响汞的扩散，包括天气条件和地理特征。因此，科学家、政策制定者和社区之间的合作至关重要，以确保有效利用这些发现来保护环境和公众健康。总之，空中汞调查代表了监测和管理汞污染的持续努力中的一种强大工具。通过利用先进的技术和空中能力，研究人员可以收集关键数据，以指导环境政策和公共健康策略。随着对汞危害意识的不断提高，这类调查的重要性只会增加，突显了继续投资于保护我们星球及其居民的环境监测技术的必要性。