The Effects of Environmental Exposure on the Optical, Physical, and Chemical Properties of Manufactured Fibers of Natural Origin

Brinsko, Kelly M.; Sparenga, Sebastian B.; King, Meggan

doi:10.1111/1556-4029.13140

Cited by 7 publications

(5 citation statements)

References 11 publications

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“…There were two different types of aging: aging due to environmental exposure and aging due to regular use. Brinsko et al and Ueland et al focused on environmental exposure aging. , Brinsko et al simulated conditions in the laboratory and used a variety of spectroscopic and microscopic techniques to study aging of natural fibers. Ueland et al stored fibers outdoors in two different seasons and used ATR FT-IR spectroscopy combined with chemometrics.…”

Section: Fibersmentioning

confidence: 99%

Toward Locard’s Exchange Principle: Recent Developments in Forensic Trace Evidence Analysis

et al. 2018

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Section: Fibersmentioning

confidence: 99%

Toward Locard’s Exchange Principle: Recent Developments in Forensic Trace Evidence Analysis

et al. 2018

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“…Stan-dard biodegradation test protocols require high temperature and moisture settings (Straub et al, 2017;Kjeldsen et al, 2018; GOV.UK, 2021), which are mostly limited to industrial and lab-based facilities, and the conditions required for biodegradation in natural environments vary significantly (Wei et al, 2021). Therefore, biodegradable polymers like cellulose may not efficiently degrade outside laboratory conditions (Lambert and Wagner, 2017) and have been found to accumulate as microparticles or fi-bres in aquatic environments (Brinsko et al, 2016;Dris et al, 2018;Wei et al, 2021). However, there are no studies to our knowledge that have properly assessed the fate impact of cellulose-based fibres across their en-tire life cycle.…”

Section: Biodegradable Vs Non-biodegradable Polymersmentioning

confidence: 99%

Do flushed biodegradable wet wipes really degrade?

Allison

Ward

Harbottle

et al. 2023

Science of The Total Environment

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“…Synthetic and semi-synthetic fibers are much less susceptible to environmental breakdown than natural textiles (Brinsko et al, 2016;Janaway, 2002;Szostak-Kotowa, 2004). Some synthetic textiles, such as nylon, are naturally resistant to microbiota and fungi (Janaway, 2002).…”

Section: Textile Degradationmentioning

confidence: 99%

Generation of Microclimates From the Differential Decomposition of Textiles in North Central Florida

Meloro

Nastav

DeLeon

2021

NFJA

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The analysis of textiles as trace evidence is an important area of focus in the field of forensic science, because enhanced understanding of the decomposition of textiles may point to more accurate methods for estimating the post mortem interval (PMI) of remains found in association with these materials. This research is especially crucial in areas with unique climates, like the state of Florida. This study examines the generation of microclimates from the differential decomposition of various textile types. This study hypothesized that the decomposition of textiles will generate microclimates with soil properties that differ from those of the surrounding environment, and that different types of textiles will create different microclimates as they decompose. Samples of cotton, UV-proofed cotton, polyester, cotton-polyester blended fabric, ripstop, and wool were buried at four sites on a property in North Central Florida for thirteen weeks, with measures of soil temperature, pH, and moisture level, and weather data collected weekly. Following burial, decomposition of each textile type was scored. Data collected were analyzed in R statistical software. Analysis indicated that the level of degradation differed by textile type but not by site. Textile presence, type of textile, and subsequent decomposition significantly impacted soil pH and moisture at all sites, but did not have a significant effect on soil temperature. The results of this study demonstrate that the decomposition of textiles can create diverse and unique microclimates in the soil environment. When found in association with human remains, presence and type of textile should be considered when estimating decomposition rates and the postmortem interval.

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The Effects of Environmental Exposure on the Optical, Physical, and Chemical Properties of Manufactured Fibers of Natural Origin

Cited by 7 publications

References 11 publications

Toward Locard’s Exchange Principle: Recent Developments in Forensic Trace Evidence Analysis

Toward Locard’s Exchange Principle: Recent Developments in Forensic Trace Evidence Analysis

Do flushed biodegradable wet wipes really degrade?

Generation of Microclimates From the Differential Decomposition of Textiles in North Central Florida

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