The Application of Remote Sensing in Sustainable Air Quality Monitoring
A special issue of Sustainability (ISSN 2071-1050). This special issue belongs to the section "Air, Climate Change and Sustainability".
Deadline for manuscript submissions: closed (31 December 2022) | Viewed by 6359
Special Issue Editors
Interests: satellite-based anthropogenic aerosol; atmospheric environment pollution; deep learning modeling
Special Issues, Collections and Topics in MDPI journals
Interests: cloud and aerosol optical properties; atmospheric optics and remote sensing detection
Special Issues, Collections and Topics in MDPI journals
Interests: urban remote sensing and urban–rural development; land use change; urban climatology; interaction between humans and the environment
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
According to the World Health Organization (WHO), air pollution has become a global environmental burden, with 92% of the world’s population currently living in areas where the air quality level exceeds the WHO guideline level of 10μg m−3; about 3 million annual deaths worldwide are related to outdoor air pollution. Outdoor air pollution also contributes to cardiovascular and respiratory deaths, especially in densely populated regions (Yan et al., 2019). In order to prevent further worsening of air pollution, protect public health, and reduce economic losses, many countries have taken significant measures to improve their air quality. Ground-based monitoring sites have been monitored around the world, but the spatial coverage is lacking and inhomogeneous. To overcome this issue, space-borne remote sensing has been widely used to obtain spatially continuous air quality information (Cao et al., 2018). However, many of these studies focus on data fusion or reconstruction rather than monitoring, which is vital for providing timely and detailed air quality information.
Recently, a new aerosol component approach has been proposed and developed for globally monitoring size-resolved aerosol composition species (such as, black carbon, brown carbon, mineral dust, fine- and coarse-mode non-absorbing soluble and insoluble, etc.) from multi-angle polarization satellite measurements (POLDER/PARASOL, DPC/GF-5) (Li et al., 2019, 2020, 2021). Multi-angle polarization satellite measurements provide the potential to derive extensive aerosol chemical composition and optical properties on a global/regional scale.
The past years have seen an increased interest in improving the overall accuracy and accelerating the computational process for air quality monitoring. Advanced techniques such as machine learning aim at extracting complex nonlinear relationships between variables and have been intensively used in air quality monitoring (Yan et al., 2021). Joint efforts from both physical-based methods and machine learning-based methods are also required to optimize air quality monitoring.
Therefore, this Special Issue is organized to develop and advance air quality monitoring at an urban, national, or global scale through remote sensing. The submissions are encouraged from interdisciplinary fields (environment science, atmospheric science, engineering, health, and other scientific areas) focused on improving the accuracy, practicability, and innovative approaches to air quality monitoring.
Reference:
Cao, S., Zhao, W., Guan, H., Hu, D., Mo, Y., Zhao, W., and Li, S. (2018). Comparison of remotely sensed PM2.5 concentrations between developed and developing countries: results from the US, Europe, China, and India. Journal of Cleaner Production, 182, 672-681.
Li, L., Che H., X. Zhang, C. Chen, X. Chen, K. Gui, Y. Liang, F. Wang, Y. Derimian, D. Fuertes, O. Dubovik, Y. Zheng, L. Zhang, B. Guo, Y. Wang, X. Zhang, (2021). A satellite-measured view of aerosol component content and optical property in a haze-polluted case over North China Plain, Atmospheric Research, 105958, doi:10.1016/j.atmosres.2021.105958
Li, L., Che, H., Derimian, Y., Dubovik, O., Schuster, G.L, Chen, C., Li, Q., Wang, Y., Guo, B., Zhang, X., (2020). Retrievals of fine mode light-absorbing carbonaceous aerosols from POLDER/PARASOL observations over East and South Asia. Remote Sensing of Environment, 247, 111913, doi:10.1016/j.rse.2020.111913
Li, L., Dubovik, O., Derimian, Y., Schuster, G.L., Lapyonok, T., Litvinov, P., Ducos, F., Fuertes, D., Chen, C., Li, Z., Lopatin, A., Torres, B., Che, H., (2019). Retrieval of aerosol components directly from the satellite and ground-based measurements. Atmos. Chem. Phys. 19, 13409–13443, doi:10.5194/acp-19-13409-2019
Yan, M., Wilson, A., Bell, M.L., Peng, R.D., Sun, Q., Pu, W., Yin, X., Li, T. and Anderson, G.B. (2019). The shape of the concentration-response association between fine particulate matter pollution and human mortality in Beijing, China, and its implications for health impact assessment. Environmental Health Perspectives, 127(6), p.067007.
Yan, X., Zang, Z., Jiang, Y., Shi, W., Guo, Y., Li, D., Zhao, C., & Husi, L. (2021). A Spatial-Temporal Interpretable Deep Learning Model for improving interpretability and predictive accuracy of satellite-based PM2.5. Environmental Pollution, 273, 116459.
Dr. Xing Yan
Dr. Lei Li
Dr. Shisong Cao
Dr. Meilin Yan
Guest Editors
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Keywords
- real-time air quality monitoring
- remote sensing
- machine learning
- air pollution at urban, national, or global scales
- applications of air quality monitoring data
- air pollution exposure assessment
- environmental health research
- multi-angle polarization satellite measurements
- aerosol component retrieval
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