What is Air Pollution Data? Best Air Pollution Databases
Air pollution data refers to the collection of information related to the presence and levels of pollutants in the air. It plays a crucial role in monitoring, analyzing, and addressing the impact of pollution on our environment and human health. With the right air pollution databases, you gain access to comprehensive, reliable, and up-to-date information that aids in making informed decisions and implementing effective pollution control strategies.
Worldwide satellite data | Air quality | Pollutants
Air Quality Index Data | Real-time & Historical | US & EU Coverage
Air Quality Data | Pollen Data | Pollen Forecast for 35+ Pollen Types | Air Quality Index for Customer Health Prediction
Environmental Data | Sustainability Data | ESG Data |14k+ Listed Companies
Worldwide satellite data | Air quality | Pollutants | Ozon(O3)
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Geojunxion Eco Alert Zones - Low emission zones / smart geofences with daily updated worldwide automotive data. Clean air zones, ZTL, etc.
ESG Data | Real-time & Historical | Air, Climate, and Environmental Metrics
Climate Data | Global Warming Data | Accurate Carbon Emissions Data | Carbon Storage, Temperature, Vegetation
ESG Data | Impact Investing Data | 14000+ Companies | Monetized Impacts on Natural, Human & Financial Capital
Worldwide satellite data | Air quality | Pollutants | Ammonia(NH3)
How is Air Pollution Data Collected?
Air pollution data is collected through a network of monitoring stations equipped with advanced sensors that measure various pollutants in the air. These stations are strategically located in different regions to capture the diversity of pollution levels. The data is collected at regular intervals and then processed and stored for analysis.
What Pollutants are Monitored in Air Pollution Data?
Air pollution data typically includes measurements of common pollutants such as particulate matter (PM2.5 and PM10), nitrogen dioxide (NO2), sulfur dioxide (SO2), carbon monoxide (CO), ozone (O3), and volatile organic compounds (VOCs). These pollutants are known to have significant environmental and health impacts.
Best Air Pollution Databases
| Provider | Title | Gases Measured | Temporal Coverage | Spatial Coverage | Special Features |
|---|---|---|---|---|---|
| Caeli | Worldwide satellite data - Air quality - Pollutants | NO2, NH3, CH4, O3, SO2, CO, PM2.5, PM10 | Real-time | Worldwide | Full suite of air quality pollutants |
| Caeli | Worldwide satellite data - Air quality - Pollutants - O3 | O3 | Real-time | Worldwide | Specific focus on Ozone (O3) |
| Caeli | Worldwide satellite data - Air quality - Pollutants - CH4 | CH4 | Real-time | Worldwide | Specific focus on Methane (CH4) |
| Caeli | Worldwide satellite data - Air quality - Pollutants - NH3 | NH3 | Real-time | Worldwide | Specific focus on Ammonia (NH3) |
| GSpatial.ai | Gspatial Historical Air Quality Data for 30+ Years | Not Specified | Historical | 90+ Countries | 30+ years of historical data |
| Caeli | Worldwide satellite data - Air quality - Pollutants - SO2 | SO2 | Real-time | Worldwide | Specific focus on Sulphur dioxide (SO2) |
| Caeli | Worldwide satellite data - Air quality - Pollutants - NO2 | NO2 | Real-time | Worldwide | Specific focus on Nitrogen dioxide (NO2) |
| Caeli | Worldwide satellite data - Air quality - Pollutants - PM2.5 – PM10 | PM2.5, PM10 | Real-time | Worldwide | Specific focus on Particulate matter (PM2.5, PM10) |
| Caeli | Certified ground measurement stations data - Air quality - Particular Matter(PM2.5) | PM2.5 | Historical | 13 Countries | Ground measurement stations data |
| Geojunxion | Geojunxion Eco Alert Zones - Low emission zones | Not Specified | Real-time | Worldwide | Traffic entry restrictions, Low emission zones |
Air Pollution Dataset Use Cases
Air pollution data serves various purposes, including:
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Environmental Research: Scientists and researchers analyze air pollution data to gain insights into pollution patterns, identify sources, and understand the impact on ecosystems.
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Health Studies: Medical professionals and epidemiologists use air pollution data to assess the effects of pollution on human health, study correlations with respiratory and cardiovascular diseases, and develop preventive measures.
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Policy Making: Governments and regulatory bodies rely on air pollution data to formulate policies, set pollution standards, and evaluate the effectiveness of pollution control measures.
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Urban Planning: City planners utilize air pollution data to design sustainable cities, implement traffic management strategies, and create green spaces to mitigate pollution.
Frequently Asked Questions
How frequently is air pollution data updated?
Air pollution data is updated regularly, typically in real-time or near real-time. The frequency of updates depends on the monitoring network and the database provider.
Can I access historical air pollution data?
Yes, many air pollution databases provide access to historical data. This allows users to analyze trends, compare pollution levels over time, and assess the effectiveness of pollution control measures.
Are air pollution databases reliable?
Air pollution databases from reputable providers are known for their reliability. These databases follow strict quality control measures, ensuring accurate measurements and standardized reporting formats.
How can I integrate air pollution data into my research or application?
Most air pollution databases offer APIs or data export options, allowing easy integration into research projects, environmental monitoring systems, and mobile applications. Detailed documentation and support are typically provided to facilitate seamless integration.
What are the sources of air pollution data?
Air pollution data comes from various sources, including government monitoring networks, research institutions, and independent organizations. These sources collaborate to compile comprehensive datasets and ensure data accuracy.
Is air pollution data available worldwide?
Yes, air pollution data is available for regions worldwide. However, the availability and coverage may vary depending on the location and the extent of the monitoring network