The building performance model for evaluating bioaerosol data from suspect indoor environments

The lack of numerical health based standards for airborne fungi has resulted in a variety of heuristically determined criteria to subjectively interpret data. Bioaerosol sampling utilizing spore trap methodology (direct microscopy of total non culturable spores) at three different facilities in September through October 2011 provided a bank of data to mathematically evaluate a standard mean-based numerical criterion and a widely utilized test of medians relative to a direct calculation of probability of population differences. Thirteen to 20 Air-o-Cell™ spore trap samples of 4 min duration were collected in each control zone and test zone from 8:30 am to 3:30 pm of the same day. Differences in fungal populations across control and test zones were evaluated using Student’s t test and the Mann–Whitney U test, and were compared to the directly calculated probability (significance) associated with observed differences in relative detection frequency (fd) equal to or greater than an appropriate reference value (i.e. combined median). Results were consistent with earlier studies indicating directly calculated significance associated with fd was consistent with water history, visible fungal growth, and/or building operational parameters, and serves as the basis for evaluating bioaerosol data within a building performance model.
Source: Indoor and Built Environment - Category: Occupational Health Authors: Tags: Original Papers Source Type: research