Summer Safety Series
Welcome to The Science Behind Workplace Injuries: 30 Days of Summer Safety, where we explore the environmental hazards, human physiology, behavioral science, and organizational decisions shaping workplace safety. This article is part of our July series examining the science behind workplace injuries and the factors influencing workplace safety during the summer months.
Have you ever noticed two people standing side by side and one becomes covered in mosquito bites while the other walks away untouched?
For years, the explanation sounded almost mythical: Some people attract mosquitoes more than others. Modern science changed this narrative. Mosquitoes intentionally choose their hosts. Female mosquitoes analyze carbon dioxide from our breath, heat radiating from our skin, body odor chemistry, humidity, visual contrast, and even thermal infrared energy to locate a blood meal. A worksite filled with employees performing physically demanding labor unintentionally creates an environment rich with every signal mosquitoes use to find people. Heavy breathing, increased body temperature, perspiration, and prolonged outdoor exposure combine to make workers remarkably easy to locate.
A 2022 study published in Cell found people with higher concentrations of carboxylic acids on their skin consistently attracted more Aedes aegypti mosquitoes than other participants. The same individuals remained highly attractive throughout the study, suggesting mosquito attraction is influenced by stable aspects of skin chemistry rather than by chance alone. Research published in Nature Communications later demonstrated carbon dioxide changes how mosquitoes interpret visual information, making them more attracted to orange-red wavelengths associated with human skin after detecting a person’s breath. A 2024 study published in Nature completed another piece of the puzzle by showing mosquitoes integrate carbon dioxide, human scent, and thermal infrared radiation near skin temperature to navigate efficiently toward a host.
Construction workers, utility crews, agricultural employees, landscapers, public works professionals, park employees, field researchers, and emergency responders often spend extended periods outdoors during dawn and dusk when many mosquito species are most active. Standing water surrounding construction sites, drainage ditches, equipment yards, retention ponds, buckets, tires, and temporary containers create ideal breeding conditions. Business travelers introduce another layer of complexity because occupational risk may depend less on the employer’s location than the destination where work is performed. Geography influences exposure. Job design often determines how frequently exposure occurs.
The challenge for employers begins with timing. Most mosquito bites receive little attention because the immediate injury appears insignificant. Employees continue working. Supervisors rarely document the exposure. Most bites never require medical attention. Biology, however, continues long after the bite is forgotten. Many mosquito-borne diseases develop over days or weeks, creating a gap between exposure and illness that complicates diagnosis, reporting, and workers’ compensation investigations. By the time fever, neurological symptoms, severe joint pain, or other complications develop, the original bite may no longer be remembered.
Workers’ compensation professionals understand the importance of reconstructing an injury timeline. Mosquito-borne illnesses require the same discipline. Exposure history, incubation periods, travel, local mosquito surveillance, laboratory testing, and the employee’s specific job duties all become important pieces of the causation analysis. Louisiana case law illustrates the challenge. In Easly v. Contractors, the court concluded the employee could not establish workplace exposure was more likely than exposure elsewhere. In contrast, Allen v. Graphic Packaging upheld benefits after evidence supported a specific workplace mosquito bite followed by West Nile encephalitis. Small details collected early frequently determine whether causation can be established months later.
Behavioral science helps explain why mosquito prevention is frequently underestimated. Human beings naturally evaluate risk according to the immediate consequence. A mosquito bite causes temporary irritation. The brain quickly classifies the event as minor and shifts attention elsewhere. Delayed consequences rarely influence present-day behavior because the connection between exposure and outcome feels psychologically distant. The same cognitive bias contributes to inconsistent sunscreen use, skipped hydration breaks, and failure to wear hearing protection. Immediate inconvenience often receives greater weight than future risk.
Leadership changes that equation by making prevention part of the work rather than an individual choice. OSHA, the CDC, NIOSH, the Environmental Protection Agency, and the World Health Organization all recommend a layered prevention strategy. Removing standing water interrupts mosquito breeding before adult mosquitoes emerge. Maintaining drainage, repairing screens, and reducing water-holding containers strengthen the environment. EPA-registered repellents, permethrin-treated clothing, appropriate protective clothing, employee education, travel protocols, and surveillance programs provide additional layers of protection. Every recommendation reflects the same principle. Prevention becomes strongest when multiple controls work together rather than relying on a single intervention.
Outdoor employees often encounter mosquitoes during the same periods they are managing heat, dehydration, ultraviolet radiation, fatigue, and physically demanding work. Every exposure places additional demands on the human body. Effective prevention recognizes the cumulative workload rather than addressing each hazard independently. Mosquito prevention, heat illness prevention, hydration strategies, and travel medicine should function as one coordinated occupational health program instead of separate seasonal initiatives.
Human beings naturally judge risk by the size of the immediate problem. Biology rarely follows the same rule. A mosquito bite may seem insignificant in the moment, although the consequences can emerge days or weeks later with far greater impact than the original exposure. Effective leaders recognize occupational risk is measured by the consequences that event has the potential to create.
Tomorrow in The Science Behind Workplace Injuries – Lightning Safety: The Fastest Hazard Requires the Earliest Decisions. Lightning injuries occur in seconds, although prevention begins hours before the first strike. Tomorrow, we explore why weather awareness, organizational decision-making, and leadership determine whether employees have time to reach safety before conditions change.

