Cases of vector-borne disease have more than tripled in the United States since 2004, the Centers for Disease Control and Prevention recently reported, with mosquitoes and ticks bearing most of the blame.
Ticks, which are not insects but parasitic arthropods, actually cause more disease in the United States than mosquitoes do, accounting for 76.51 percent of total U.S. vector-borne disease cases. These include Lyme disease and Rocky Mountain spotted fever and newer diseases as well.
Why the uptick in vector-borne disease, and, more important, how can we protect ourselves? As researchers of these types of diseases, we have some answers.
Both mosquitoes and ticks transmit disease-causing pathogens through bites. Only the female mosquito takes a blood meal to make eggs, but almost all life stages of ticks need blood to survive.
Although mosquitoes were first demonstrated to have the ability to transmit diseases in 1889, mosquitoes have been transmitting diseases for far longer. Written records as early as 2700 B.C. suggest malaria plagued humans in China.
The first suspected dengue outbreak occurred in the early 1600s, but it took three centuries for the first three mosquito-borne diseases — malaria, dengue and yellow fever — to invade the Americas. Yet in the past two decades alone, we’ve experienced a wave of three more mosquito-borne diseases: West Nile, chikungunya and Zika viruses. This marked increase in disease spread is due to several factors, including advances in air and water travel, and warming temperatures.
The cost of travel and trade
The international tire trade has made Aedes albopictus, the Asian tiger mosquito, a global traveler. This mosquito gains passage on cargo ships and breeds in standing water collecting in man-made containers, particularly in the thousands of tires on board these ships. Rainwater collecting in the tires is ideal for breeding. Even though it is not a major vector of dengue, chikungunya and Zika viruses, this invasive species is still especially dangerous. It is able to outcompete most other mosquito species that live in similar habitats.
We humans serve as hosts for many vector-borne diseases, and our own movement can aid transmission. We can hop on a plane and be in a different country within hours. Diseases once quarantined to other regions of the globe can now be easily transported within an infected human. Some people don’t even realize they are sick. Researchers have estimated that up to 80 percent of individuals infected with Zika virus are symptomless. Yet if the right vector feeds on a symptomless but infected person, transmission can still occur.
Increased climate fluctuations, largely due to human activity, can also affect how vector-borne diseases spread. Warmer climates may allow mosquitoes to survive in areas previously too cold to support them.
Predicting the outcome of warming on overall vector populations can be difficult. If, for example, summer in the deep Southeast becomes too hot and dry for mosquito development, peaks in transmission and mosquito numbers could shift to the fall. Higher temperatures may shorten the time it takes for pathogens to develop within mosquitoes, so mosquitoes may become infectious faster and transmit pathogens sooner.
Five percent of 900 tick species are known to transmit disease-causing microorganisms. Because 38 percent of all tick species have been known to bite humans, researchers will probably find more tick-borne diseases. Since 2004, there have been nine new vector-borne diseases described in the United States, and seven of these are tick-transmitted, including the potentially fatal Bourbon and Heartland viruses.
Most — 82 percent — cases of tick-borne disease are Lyme disease, which is caused by the bacteria Borrelia burgdorferi and transmitted by the blacklegged tick, or deer tick. Cases of Lyme, Rocky Mountain spotted fever, babesiosis, anaplasmosis and ehrlichiosis have increased several times over.
Tick-borne diseases may be rising due to global travel, animal transport, habitat fragmentation and changing climate. Climate change is correlated with range expansion of several important tick species. Ticks previously limited by cold winters are now becoming established farther north. In response to the arrival of Lyme disease on Canadian soil, the Public Health Agency of Canada responded with a Federal Framework on Lyme Disease focused on disease surveillance, education and awareness, and best practices for control, prevention and treatment of Lyme disease.
What can you do?
To lower your risk of transmission from mosquitoes:
●Check back yards for anything that could hold water, and empty such vessels. This includes children’s toys, bird baths, empty soda cans and flower pots.
●Use mosquito repellents that are EPA-approved. Avoid natural repellents that haven’t been verified for their effectiveness.
To prevent tick bites:
One sure way to prevent tick bites is to avoid suitable habitats for ticks, but this isn’t always possible. Large-scale habitat control or acaricide (tick-killing) treatment of wildlife, though possible, can be difficult or not cost-effective for homeowners. The best preventive measures are to:
●Use CDC-recommended repellents such as DEET or picaridin.
●Shower and do a thorough tick check.
Tick checks are absolutely crucial. People usually follow this routine after going outdoors, but sometimes they forget. And they often avoid places that ticks love, such as between your legs. Hard-to-reach areas are prime real estate for blood-feeding parasites that don’t want to be dislodged, so make sure to check the hairline (especially on children), torso, belly button and groin. If necessary, get assistance or a mirror and a bright light.
If you find an embedded tick, correctly dislodge it with fine-tipped tweezers, grasping the part closest to the skin and pulling straight up. Do not burn, squeeze, twist or smother the tick, since this may cause it to regurgitate. Gross-out alert: Any pathogens they have in their saliva can then be dumped into the bite site.
After removal, keep the tick for identification; different species transmit different pathogens. Finally, see a doctor after finding an embedded tick or if you think you have been bitten. In addition to getting medical attention, your data will be added to the national list of reported tick-borne diseases.
The CDC has several pages dedicated to vector-borne disease control and prevention. Local and state health departments, general practitioners and veterinarians will also have recommendations for prevention, treatment and vector control. Talk to your veterinarian about repellents or agents that will kill mites, because some can be toxic to cats.
Sakamoto is an assistant research professor of entomology and Whitehead is a doctoral candidate in entomology at Pennsylvania State University. This article was originally published on theconversation.com.