Geospatial Estimation of Individual Exposure to Air Pollutants: Moving from Static Monitoring to Activity-Based Dynamic Exposure Assessment

The spatiotemporal locations of large populations are difficult to clearly characterize using traditional exposure assessment, mainly due to their complicated daily intraurban activities. This study aimed to extract hourly locations for the total population of Beijing based on cell phone data and assess their dynamic exposure to ambient PM2.5. The locations of residents were located by the cellular base stations that were keeping in contact with their cell phones. The diurnal activity pattern of the total population was investigated through the dynamic spatial distribution of all of the cell phones. The outdoor PM2.5 concentration was predicted in detail using a land use regression (LUR) model. The hourly PM2.5 map was overlapped with the hourly distribution of people for dynamic PM2.5 exposure estimation. For the mobile-derived total population, the mean level of PM2.5 exposure was 89.5 μg/m3 during the period from 2013 to 2015, which was higher than that reported for the census population (87.9 μg/m3). The hourly activity pattern showed that more than 10% of the total population commuted into the center of Beijing (e.g., the 5th ring road) during the daytime. On average, the PM2.5 concentration at workplaces was generally higher than in residential areas. The dynamic PM2.5 exposure pattern also varied with seasons. This study exhibited the strengths of mobile location in deriving the daily spatiotemporal activity patterns of the population in a megacity. This technology would refine future exposure assessment, including either small group cohort studies or city-level large population assessments.

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Biomonitoring of Fusarium spp. Mycotoxins: Perspectives for an Individual Exposure Assessment Tool

Food Science and Technology International ◽

10.1177/1082013210368884 ◽

2010 ◽

Vol 16 (3) ◽

pp. 266-276 ◽

Cited By ~ 14

Author(s):

G. Cano-Sancho ◽

S. Marin ◽

A.J. Ramos ◽

V. Sanchis

Keyword(s):

Exposure Assessment ◽

Dietary Habits ◽

Assessment Tool ◽

Fusarium Species ◽

Risk Groups ◽

Probabilistic Methods ◽

Fusarium Spp ◽

Individual Exposure ◽

The Individual ◽

Current Exposure

Fusarium species are probably the most prevalent toxin-producing fungi of the northern temperate regions and are commonly found on cereals grown in the temperate regions of America, Europe and Asia. Among the toxins formed by Fusarium we find trichothecenes of the A-type or B-type, zearalenone, fumonisins or nivalenol. The current exposure assessment consists of the qualitative and/or quantitative evaluation based on the knowledge of the mycotoxin occurrence in the food and the dietary habits of the population. This process permits quantifying the mycotoxin dietary intake through deterministic or probabilistic methods. Although these methods are suitable to assess the exposure of populations to contaminants and to identify risk groups, they are not recommended to evaluate the individual exposition, due to a low accuracy and sensitivity. On the contrary, the use of biochemical indicators has been proposed as a suitable method to assess individual exposure to contaminants. In this work, several techniques to biomonitor the exposure to fumonisins, deoxynivalenol, zearalenone or T-2 toxin have been reviewed.

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Spatial Mapping of a Highly Non-Uniform Distribution of Particle-Bound PAH in a Densely Populated Urban Area

Atmosphere ◽

10.3390/atmos11050496 ◽

2020 ◽

Vol 11 (5) ◽

pp. 496

Author(s):

Kyung Hwan Kim ◽

Kyung-Hwan Kwak ◽

Jae Young Lee ◽

Sung Ho Woo ◽

Jong Bum Kim ◽

...

Keyword(s):

Air Pollution ◽

Exposure Assessment ◽

Urban Area ◽

Urban Areas ◽

Air Pollutants ◽

Personal Exposure ◽

Exposure Level ◽

Traffic Emission ◽

Pollution Levels ◽

Monitoring Procedure

In this work, a 2-D gridded air pollution map with a high resolution of 50 × 50 m2 was proposed to help the exposure assessment studies focusing on the association between air pollutants and their health effects. To establish a reliable air pollution map in a 2 × 2 km2 urban area, a mobile monitoring procedure and a data process were developed. Among the various vehicle-related air pollutants, the particle-bound polycyclic aromatic hydrocarbon (pPAH) was chosen as a sensitive indicator. The average pPAH concentration on major roads (293.1 ng/m3) was found to be 35 times higher than that at a background location (8.4 ng/m3). Based on the cell-based pPAH concentrations, the 50 × 50 m2 cells in the air pollution map were categorized into five pollution levels. The higher air pollution levels were generally shown by the cells close to the major traffic emission points. The proposed map can be used to make various policies regarding land use and traffic flow control in urban areas. Estimation of the personal exposure level to air pollutants is possible at a reliable location using the highly resolved 2-D gridded air pollution map in exposure assessment studies.

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EXPOSURE ASSESSMENT FOR TOXIC AIR POLLUTANTS IN DURBAN, SOUTH AFRICA

Epidemiology ◽

10.1097/00001648-200509000-00327 ◽

2005 ◽

Vol 16 (5) ◽

pp. S129-S130

Author(s):

S Batterman ◽

C S. Jia ◽

Y Chernyak ◽

Y Gounden

Keyword(s):

South Africa ◽

Exposure Assessment ◽

Air Pollutants

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Spatial analysis of concentrations of multiple air pollutants using NASA DISCOVER-AQ aircraft measurements: Implications for exposure assessment

Environmental Research ◽

10.1016/j.envres.2017.10.017 ◽

2018 ◽

Vol 160 ◽

pp. 487-498 ◽

Cited By ~ 4

Author(s):

Hyung Joo Lee ◽

Robert B. Chatfield ◽

Michelle L. Bell

Keyword(s):

Spatial Analysis ◽

Exposure Assessment ◽

Air Pollutants ◽

Aircraft Measurements

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Exposure assessment of air pollutants: a review on spatial heterogeneity and indoor/outdoor/personal exposure to suspended particulate matter, nitrogen dioxide and ozone

Atmospheric Environment ◽

10.1016/s1352-2310(00)00330-7 ◽

2001 ◽

Vol 35 (1) ◽

pp. 1-32 ◽

Cited By ~ 294

Author(s):

Christian Monn

Keyword(s):

Particulate Matter ◽

Nitrogen Dioxide ◽

Spatial Heterogeneity ◽

Exposure Assessment ◽

Suspended Particulate Matter ◽

Air Pollutants ◽

Personal Exposure ◽

Suspended Particulate

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Human Exposure Assessment in Air Pollution Systems

The Scientific World JOURNAL ◽

10.1100/tsw.2002.119 ◽

2002 ◽

Vol 2 ◽

pp. 497-513 ◽

Cited By ~ 9

Author(s):

Junfeng (Jim) Zhang ◽

Paul J. Lioy

Keyword(s):

Air Pollution ◽

Exposure Assessment ◽

Air Pollutants ◽

Human Exposure ◽

Air Pollutant ◽

Contact Boundary ◽

Breathing Zone ◽

Exposure Concentration ◽

Human Respiratory Tract ◽

Human Exposure Assessment

The air pollution problem can be depicted as a system consisting of several basic components: source, concentration, exposure, dose, and adverse effects. Exposure, the contact between an agent (e.g., an air pollutant) and a target (e.g., a human respiratory tract), is the key to linking the pollution source and health effects. Human exposure to air pollutants depends on exposure concentration and exposure duration. Exposure concentration is the concentration of a pollutant at a contact boundary, which usually refers to the human breathing zone. However, ambient concentrations of regulated pollutants at monitoring sites have been measured in practice to represent actual exposure. This can be a valid practice if the pollutants are ones that are predominantly generated outdoors and if the monitoring sites are appropriately selected to reflect where people are. Results from many exposure studies indicate that people are very likely to receive the greatest exposure to many toxic air pollutants not outside but inside places such as homes, offices, and automobiles. For many of these pollutants, major sources of exposure can be quite different from major sources of emission. This is because a large emission source can have a very small value of exposure effectiveness, i.e., the fraction of pollutant released from a source that actually reaches the human breathing zone. Exposure data are crucial to risk management decisions for setting priorities, selecting cost-effective approaches to preventing or reducing risks, and evaluating risk mitigation efforts. Measurement or estimate of exposure is essential but often inadequately addressed in environmental epidemiologic studies. Exposure can be quantified using direct or indirect measurement methods, depending upon the purpose of exposure assessment and the availability of relevant data. The rapidly developing battery and electronic technologies as well as advancements in molecular biology are expected to accelerate the improvement of current methods and the development of new methods for future exposure assessment.

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