Profile of Poaceae Airborne Pollen (PAP) from 2005 to 2017 in Johnson City, Tennessee

Averhart, Kennedy J, Pienkowski, Stefan M

07 April 2022

Exposure to Poaceae airborne pollen (PAP) has been shown to induce allergic reactions in individuals sensitive to PAP. Patient care for individuals sensitive to PAP can be aided by knowledge of PAP profiles. Air samples were collected using a Rotorod M40 rotation impact sampler from February 2005 to September 2017. Air samples were collected daily, excluding weekends and winter months, and are expressed in grains per cubic meter (g/m3). Light microscopy at 400x magnification was used to analyze samples. Pollen was classified according to the classifications provided by the American Academy of Allergy Asthma and Immunology and the National Allergy Bureau. Detection of PAP onset averaged on day 84 (March 25th); end day averaged on day 285 (October 12th); average duration was 202 days; average peak level onset was on day 146 (May 26th) and the average peak level was 135 g/m3. Average number of days during Poaceae season with 1 to 19 g/m^3 detected was 95; with 20 to 39 g/m^3 was 7; with 40 to 59 g/m^3 was 4; and with 60 g/m^3 or more was 2. Day of onset of PAP trended to be 1.6 days earlier in the year over the course of our data collection, with R2= 0.3476. Poaceae airborne pollen in Johnson City, Tennessee was noticeable for almost 7 months out of the year. We can assume the riskiest months of the year are from March to October with the highest risk period being the end of May.

Poaceae

allergy

air sampling

Immune System Disorders

Community Health

Chronic Illnesses

Validation of Low Resistance Filters for Gas/Vapour Sampling.

Alarfaj, Ayman M.A.

January 2009

Traditional occupational hygiene assessment of occupational exposures to organic gases and vapours rely on low flow (<200 ml/min) NIOSH sorbent tubes. This work investigates 3M charcoal filter media (JK50 and JK40, 3M, Inc.) for collection and analysis of organic vapours across 0.1 ¿ 5 l/min. To enable this work, a custom exposure facility was constructed and validated within which organic analyte gas/vapour concentrations could be introduced at known concentrations while controlling environmental variables such as temperature and humidity and other variables. This facility enabled experiments designed to investigate collection and desorption efficiencies across a range of sample flow rates, temperature and humidity conditions for both NIOSH sorbent tubes (e.g. SKC tube) and 3M charcoal filter media. As a result of the investigations described in this thesis, the following conclusions are drawn. Performance of the 3M charcoal filter media for collection and desorption efficiencies for loading, storage time, humidity and breakthrough at low flow rates (<0.5 l/min) were found comparable to the SKC sorbent tube. It is concluded that 3M charcoal media (JK50 and JK40) are suitable for sampling and analyses of hydrocarbons at flow rates <0.5 l/min. The collection efficiencies of the 3M charcoal filter media were investigated at high flow rates (>0.5l/min) for the same parameters, i.e., loading, temperature and humidity. It is concluded that 3M charcoal filter media can be used with confidence in sampling and analysis of airborne hydrocarbons up to 5 l/min. The Wheeler-Jonas model was found to satisfactorily predict the adsorption kinetics of the 3M charcoal filter media at different loading values of hydrocarbons. It was therefore concluded that the model can be applied to determine the suitable amount of 3M charcoal filter media prior to sampling for a given loading.

Occupational hygiene

Activated carbon

Low resistance filter

Air sampling

Desorption efficiency

Organic vapours

Organic gases

Indoor Mold Exposure and Its Relationship with Wheezing in Infants

Cho, Seung-Hyun

28 September 2005

No description available.

Fungi

Infants

Wheezing

Skin Prick Test

Indoor Allergens

Dust Sampling

Air Sampling

Fungal Fragments

Respiratory Deposition

Evaluating Worker Exposure to Hexavalent Chromium in Refractory Materials During Demolition Activities

Brenneman, Chad

08 April 2010

No description available.

Occupational Safety

Hexavalent Chromium

Refractory Material

Hexavalent Chromium Air Sampling

Hexavalent Chromium Wipe Sampling

Evaluation of Short Term versus Long Term Air Quality Sampling Methods Using X-ray Fluorescence and Neutron Activation Analysis

Stratton, Charles D.

20 April 2011

No description available.

Nuclear Engineering

air sampling

neutron activation analysis

X-ray fluorescence

PM2.5

A NOVEL CHALLENGE OF THE LAMINAR FLOW BIOLOGICAL SAFETY CABINET USING PCR

Fontaine, Charles P.

14 April 2006

No description available.

Laminar Flow Biological Safety Cabinet

Bioaerosol

Certification

PCR

Air Sampling

E. coli

Investigation of water vapor effects on the detection of nitric acid vapor with the tungstic acid technique

Marinaro, Ralph Michael

January 1986

An automated tungstic acid technique (TAT) has been successfully used to measure gaseous HNO₃ in the presence of water vapor. The TAT is based on the diffusion of gaseous HNO₃ to the interior walls of a tube coated with tungsten VI oxide (WO₃), where it is selectively chemisorbed. The collected HNO₃ sample is thermally desorbed from the WO₃ surface, as NO, and measured by a chemiluminescent oxides of nitrogen analyzer. The integrated analyzer response is directly proportional to the nitric acid collected. Based on nitric acid hydration characteristics, a decrease in the diffusion coefficient and thus collection efficiency for denuder type measurement techniques may result with increased atmospheric water vapor (i.e., relative humidity). This study emphasizes the effect of water vapor (i.e., relative humidity) as a potential interferent for HNO₃ collection with the TAT system. The effect of water vapor (< 78% RH) on the collection efficiency for HNO₃ with the tungstic acid technique is negligible at 25°C, but is significant only at elevated sampling temperatures. This threshold effect is further substantiated and eliminated when a modified sampling collection system was designed with coolant capabilities. The new design has been tested to sub-part-per-billion (NO_x analyzer detection limit) levels with minimal loss of gaseous HNO₃ signal, thereby increasing sensitivity to atmospheric HNO₃ concentrations and maintaining the gas/aerosol sample integrity. / Ph. D.

LD5655.V856 1986.M375

Nitric acid

Air quality -- Measurement

Air sampling apparatus

Acid rain

EVALUATION OF AIR QUALITY USING AN ANALYTICAL METHOD FOR TOXIC ORGANIC VAPORS IN INDUSTRIAL EMISSIONS.

Broach, Rhonda Lee.

January 1982

No description available.

Air -- Analysis.

Air sampling apparatus.

Gas chromatography.

Development and Application of a Flow-through Sampler for Semi-volatile Organic Compounds in Air

Xiao, Hang

18 March 2010

The investigation of the atmospheric fate and transport of semi-volatile organic compounds (SOCs) often requires the sampling of large volumes of air (>100 m3) in a relatively short period of time. Conventionally high-volume pumps are not suitable for remote areas without access to reliable network power. We have developed a flow through sampler for such situations. It consists of a horizontally-oriented flow-tube, that can collect gaseous and particle-bound SOCs from large volumes of air by turning into the wind and having the wind blow through a porous sampling medium such as polyurethane foam. Through both indoor and outdoor experiments, we quantified its air sampling rate (through battery operated anemometers inside and outside of the flow tube), its sampling efficiency (by theoretical plate number analysis of the break-though curves for PCBs, PAHs, OCPs and PBDEs), and its accuracy (by comparison of concentrations, time trends, temperature dependences and isomer ratios with those obtained by conventional high-volume sampling) under conditions of constant and variable meteorological conditions (wind speed, temperature). The flow-through sampler was deployed to monitor SOC concentrations at a remote Chinese research station located close to Nam Co Lake, Tibet. During the campaign, fifteen 1 month-long samples were taken, corresponding to sample volumes between 5,000 and 20,000 m3. Despite those large sample volumes, only HCB and HCHs experienced break-through, but application of frontal chromatograph theory allows the estimation of breakthrough-corrected air concentrations even for those relatively volatile SOCs. The pesticide levels at Nam Co are generally very low. Most pesticides had higher levels during summer, resulting in a strong temperature dependence. This is correlated with air mass origin across the Himalayas in the Gangetic plains of India and Bangladesh. The flow through sampler constitutes a feasible method for reliably and quantitatively collecting SOCs from large air volumes.

Flow-Through Sampler

semi-volatile organic compounds

frontal chromatographic theory

air sampling

Tibet

breakthrough behavior

0768

0775

0725

Baseline Studies of Selected Polybrominated Diphenyl Ethers in the Air of the Nandamojo Watershed, Costa Rica

Geesey, Mary Sophia

24 March 2014

Polybrominated diphenyl ethers (PBDEs) have been used as flame retardants in a number of common household and commercial products around the world. PBDEs enter the environment in a variety of ways, such as through emissions, leaching from end-of-life electronics in landfills, and incineration. While many countries have phased out the manufacturing of penta-, octa-, and deca-PBDEs or have banned the manufacture and use of these congeners altogether, these persistent organic pollutants (POPs) continue to be detected in humans and the environment. This study investigates spatial and temporal variations of selected PBDEs in the air of the Nandamojo watershed area in Costa Rica by comparing air concentrations of PBDEs in the dry winter vs. wet summer seasons and rural vs. urban areas and also investigates the impact of anthropogenic activities on air concentration of PBDEs. This study is significant to the field, because there are no baseline studies nor are there currently any monitoring programs to assess the environmental levels of PBDEs or other POPs for this region of the Guanacaste province. Baseline information is needed to track spatial and temporal trends as well as evaluate the effectiveness of control measures employed nationally and internationally. Samples obtained from passive air sampling devices were analyzed via GC/MS for a number of congeners. PBDE-47 and -99 were found to be the congeners present in greatest concentration in air samples from the Nandamojo watershed area. Air concentrations were estimated assuming an average sampler uptake rate of 3.5 m3/day and ranged as follows: ΣPBDE5 35.20-1549.25 pg/m3 over the entire study. The presence of PBDEs in remote and pristine environments indicates that PBDEs are now a global concern. This study suggests that the spatial and temporal distribution patterns observed are strongly related to anthropogenic activities and presence of a population similar to that observed in other studies. The presence of PBDEs has become a global issue and, as such, these results provide background information on air concentrations of PBDEs for use in a global-scale multimedia model. In order to monitor PBDEs globally, it is imperative to implement and/or expand surveillance programs internationally.

Air Samples

Congeners

Passive Air Sampling

PBDEs

Persistent Organic Pollutants

Atmospheric Sciences

Environmental Health and Protection

Environmental Sciences