全球花粉和孢子监测。
Pollen and spore monitoring in the world.
作者信息
Buters J T M, Antunes C, Galveias A, Bergmann K C, Thibaudon M, Galán C, Schmidt-Weber C, Oteros J
机构信息
1Center of Allergy and Environment (ZAUM), Member of the German Center for Lung Research (DZL), Technische Universität München/Helmholtz Center, Biedersteinerstrasse 29, 80802 Munich, Germany.
2ICAAM - Institute of Mediterranean Crop and Environmental Sciences, University of Évora, Évora, Portugal.
出版信息
Clin Transl Allergy. 2018 Apr 4;8:9. doi: 10.1186/s13601-018-0197-8. eCollection 2018.
BACKGROUND
Ambient air quality monitoring is a governmental duty that is widely carried out in order to detect non-biological ("chemical") components in ambient air, such as particles of < 10 µm (PM, PM), ozone, sulphur dioxide, and nitrogen oxides. These monitoring networks are publicly funded and air quality data are open to the public. The situation for biological particles that have detrimental effects on health, as is the case of pollen and fungal spores, is however very different. Most pollen and spore monitoring networks are not publicly funded and data are not freely available. The information regarding which biological particle is being monitored, where and by whom, is consequently often not known, even by aerobiologists themselves. This is a considerable problem, as local pollen data are an important tool for the prevention of allergic symptoms.
OBJECTIVE
The aim of this study was to review pollen monitoring stations throughout the world and to create an interactive visualization of their distribution.
METHODS
The method employed to collect information was based on: (a) a review of the recent and historical bibliography related to pollen and fungal spore monitoring, and (b) personal surveys of the managers of national and regional monitoring networks. The interactive application was developed using the R programming language.
RESULTS
We have created an inventory of the active pollen and spore monitoring stations in the world. There are at least 879 active pollen monitoring stations in the world, most of which are in Europe (> 500). The prevalent monitoring method is based on the Hirst principle (> 600 stations). The inventory is visualised as an interactive and on-line map. It can be searched, its appearance can be adjusted to the users' needs and it is updated regularly, as new stations or changes to those that already exist can be submitted online.
CONCLUSIONS
The map shows the current situation of pollen and spore monitoring and facilitates collaboration among those individuals who are interested in pollen and spore counts. It might also help to improve the monitoring of biological particles up to the current level employed for non-biological components.
背景
环境空气质量监测是一项政府职责,广泛开展该监测是为了检测环境空气中的非生物(“化学”)成分,如小于10微米的颗粒物(PM₁₀、PM₂.₅)、臭氧、二氧化硫和氮氧化物。这些监测网络由公共资金资助,空气质量数据向公众开放。然而,对健康有不利影响的生物颗粒(如花粉和真菌孢子)的情况却大不相同。大多数花粉和孢子监测网络并非由公共资金资助,数据也无法免费获取。因此,即使是空气生物学家自己,往往也不知道正在监测哪种生物颗粒、在何处监测以及由谁监测。这是一个相当严重的问题,因为当地的花粉数据是预防过敏症状的重要工具。
目的
本研究的目的是对全球花粉监测站进行综述,并创建其分布的交互式可视化展示。
方法
收集信息所采用的方法基于:(a)对近期和历史上与花粉和真菌孢子监测相关的文献进行综述,以及(b)对国家和区域监测网络的管理人员进行个人调查。交互式应用程序使用R编程语言开发。
结果
我们创建了世界上活跃的花粉和孢子监测站清单。世界上至少有879个活跃的花粉监测站,其中大部分在欧洲(超过500个)。普遍采用的监测方法基于赫斯特原理(超过600个站点)。该清单以交互式在线地图的形式呈现。它可以进行搜索,其外观可以根据用户需求进行调整,并且会定期更新,因为新站点或现有站点的变更可以在线提交。
结论
该地图展示了花粉和孢子监测的现状,便于对花粉和孢子计数感兴趣的人员之间开展合作。它也可能有助于将生物颗粒的监测提升到目前用于非生物成分的水平。
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