https://www.selleckchem.com/products/bay1251152.html COVID-19 pandemic has devastated large urban areas across the country. Most rural areas have so far been able to avoid the initial surge in cases due to the low population density. However, as the pandemic advances, rural areas are at an increased risk for the second wave of the epidemic. Rural areas are especially vulnerable due to the older population, higher comorbidities, and lack of access to healthcare. This field report discusses the experiences and issues faced by the rural Appalachian community during the ongoing COVID-19 pandemic.Free gossypol is a toxic compound which naturally occurs in cottonseed and its derivates, affecting animal and possibly human health. Consequently, alternatives for gossypol destruction must be evaluated. This work evaluated the emerging technology of ozone processing for free gossypol destruction in cottonseed meal. Ozonation was carried out in the actual cottonseed meal and also a model system, designed to describe the involved mode of action. The model system consisted of glass pearls beads covered with free gossypol. Ozonation was performed in two ways as a static process, i.e., without homogenising the sample after placing them in the reactor, and also homogenising it. Ozone degraded free gossypol in all the systems, but reaching different levels. Free gossypol reduction was higher in the model system than the cottonseed meal, and higher in the homogenised processing than the static one cottonseed meal in homogenised (56%) and static (25%); model system homogenised (98%) and static (80%). The obtained differences suggest a problem of gas penetration in the solid particles, the effect of unexposed surfaces due to contact areas, and the reaction with other organic molecules further than the target. Ozonation is a promising technique for gossypol degradation in cottonseed meal, but additional strategies are needed to optimise the ozonation process and evaluate toxicological as