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Climate Change and Expansion of Tick Geography
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Dirk M. Elston, MD

 

The expanding range of tick-borne diseases is a growing problem worldwide. Climate change plays a preeminent role in the expansion of tick species, especially for southern ticks in the United States such as Amblyomma species, which have introduced new pathogens to northern states.1-5 In addition to well-known tick-borne diseases, Amblyomma ticks have been implicated in the spread of emerging severe and potentially fatal viral illnesses, including Bourbon virus and Heartland virus.6 The increasing range of Amblyomma ticks also exposes new populations to tick-induced meat allergy (alpha-gal) syndrome, whereby development of specific IgE antibodies to the oligosaccharide galactose-alpha-1,3-galactose (alpha-gal) following tick bites results in severe allergic responses to consumption of beef, pork, and lamb.7

Amblyomma ticks have now been identified close to the Canadian border in Michigan and New York, and predictions of continued climate change raise the possibility of northward range expansion into all provinces of Canada from Alberta to Newfoundland and Labrador during the coming decades.8,9 Additional factors that contribute to the expanding range of many tick species include international travel, migratory patterns of birds, competition, and natural predators such as fire ants that feed on tick eggs and influence the feeding behavior of adults.10

Traditional methods of tick identification rely on gross morphology, including the presence of festoons, shape of the coxae where the legs attach, and markings on the hard overlying scutum. More recently, molecular identification has improved tick identification, leading to more accurate assessment of tick prevalence. These modern identification studies include analysis of 16S ribosomal DNA (rDNA), 12S rDNA, and ITS1 rDNA, and ITS2 rDNA genes.11

The spread of tick vectors has huge public health implications, and better methods to control tick populations are needed.12 New acaricides and growth regulators are being developed,13 and early spring applications of acaricides such as bifenthrin can suppress nymphs prior to the initiation of host-seeking activity.14 Controlled burns within tick habitats have proved helpful in reducing the risk for vector-borne disease.15,16 Personal protection is best accomplished with the use of a repellent together with clothing impregnated with an acaricide such as permethrin.17 Efforts to slow climate change and continued surveillance for the spread of tick vectors is urgently needed.

References
  1. Sanchez-Vicente S, Tagliafierro T, Coleman JL, et al. Polymicrobial nature of tick-borne diseases [published online September 10, 2019]. MBio. doi:10.1128/mBio.02055-19.
  2. Raghavan RK, Peterson AT, Cobos ME, et al. Current and future distribution of the Lone Star tick, Amblyomma americanum (L.) (Acari: Ixodidae) in North America. PLoS One. 2019;14:e0209082.
  3. Stafford KC 3rd, Molaei G, Little EAH, et al. Distribution and establishment of the Lone Star tick in Connecticut and implications for range expansion and public health. J Med Entomol. 2018;25:1561-1568.
  4. Gilliam ME, Rechkemmer WT, McCravy KW, et al. The influence of prescribed fire, habitat, and weather on Amblyomma americanum (Ixodida: Ixodidae) in West-Central Illinois, USA [published online March 22, 2018]. Insects. doi:10.3390/insects9020036.
  5. Sonenshine DE. Range expansion of tick disease vectors in North America: implications for spread of tick-borne disease [published online March 9, 2018]. Int J Environ Res Public Health. doi:10.3390/ijerph15030478.
  6. Savage HM, Godsey MS Jr, Panella NA, et al. Surveillance for tick-borne viruses near the location of a fatal human case of Bourbon virus (family Orthomyxoviridae: genus Thogotovirus) in eastern Kansas, 2015. J Med Entomol. 2018;55:701-705.
  7. Crispell G, Commins SP, Archer-Hartman SA, et al. Discovery of alpha-gal-containing antigens in North American tick species believed to induce red meat allergy. Front Immunol. 2019;10:1056.
  8. Gasmi S, Bouchard C, Ogden NH, et al. Evidence for increasing densities and geographic ranges of tick species of public health significance other than Ixodes scapularis in Québec, Canada. PLoS One. 2018;13:e0201924.
  9. Sagurova I, Ludwig A, Ogden NH, et al. Predicted northward expansion of the geographic range of the tick vector Amblyomma americanum in North America under future climate conditions. Environ Health Perspect. 2019;127:107014.
  10. Kjeldgaard MK, Takano OM, Bockoven AA, et al. Red imported fire ant (Solenopsis invicta) aggression influences the behavior of three hard tick species. Exp Appl Acarol. 2019;79:87-97.
  11. Abouelhassan EM, El-Gawady HM, Abdel-Aal AA, et al. Comparison of some molecular markers for tick species identification. J Arthropod Borne Dis. 2019;13:153-164.
  12. Jordan RA, Egizi A. The growing importance of lone star ticks in a Lyme disease endemic county: passive tick surveillance in Monmouth County, NJ, 2006–2016. PLoS One. 2019;14:e0211778.
  13. Showler AT, Donahue WA, Harlien JL, et al. Efficacy of novaluron + pyriproxyfen (Tekko Pro) insect growth regulators against Amblyomma americanum (Acari: Ixodidae), Rhipicephalus (Boophilus) annulatus, Rhipicephalus (Boophilus) microplus, and Rhipicephalus sanguineus. J Med Entomol. 2019;56:1338-1345.
  14. Schulze TL, Jordan RA. Early season applications of bifenthrin suppress host-seeking Ixodes scapularis and Amblyomma americanum (Acari: Ixodidae) nymphs [published online November 26, 2019]. J Med Entomol. doi:10.1093/jme/tjz202.
  15. Hodo CL, Forgacs D, Auckland LD, et al. Presence of diverse Rickettsia spp. and absence of Borrelia burgdorferi sensu lato in ticks in an East Texas forest with reduced tick density associated with controlled burns. Ticks Tick Borne Dis. 2020;11:101310.
  16. Gleim ER, Zemtsova GE, Berghaus RD, et al. Frequent prescribed fires can reduce risk of tick-borne diseases. Sci Rep. 2019;9:9974.
  17. Prose R, Breuner NE, Johnson TL, et al. Contact irritancy and toxicity of permethrin-treated clothing for Ixodes scapularis, Amblyomma americanum, and Dermacentor variabilis ticks (Acari: Ixodidae). J Med Entomol. 2018;55:1217-1224.
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From the Department of Dermatology and Dermatologic Surgery, Medical University of South Carolina, Charleston.

The author reports no conflict of interest.

Correspondence: Dirk M. Elston, MD, 135 Rutledge Ave, MSC 578, Charleston, SC 29425-5780 (elstond@musc.edu).

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Author(s)
Dirk M. Elston, MD
Author and Disclosure Information

 

From the Department of Dermatology and Dermatologic Surgery, Medical University of South Carolina, Charleston.

The author reports no conflict of interest.

Correspondence: Dirk M. Elston, MD, 135 Rutledge Ave, MSC 578, Charleston, SC 29425-5780 (elstond@musc.edu).

Author and Disclosure Information

 

From the Department of Dermatology and Dermatologic Surgery, Medical University of South Carolina, Charleston.

The author reports no conflict of interest.

Correspondence: Dirk M. Elston, MD, 135 Rutledge Ave, MSC 578, Charleston, SC 29425-5780 (elstond@musc.edu).

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The expanding range of tick-borne diseases is a growing problem worldwide. Climate change plays a preeminent role in the expansion of tick species, especially for southern ticks in the United States such as Amblyomma species, which have introduced new pathogens to northern states.1-5 In addition to well-known tick-borne diseases, Amblyomma ticks have been implicated in the spread of emerging severe and potentially fatal viral illnesses, including Bourbon virus and Heartland virus.6 The increasing range of Amblyomma ticks also exposes new populations to tick-induced meat allergy (alpha-gal) syndrome, whereby development of specific IgE antibodies to the oligosaccharide galactose-alpha-1,3-galactose (alpha-gal) following tick bites results in severe allergic responses to consumption of beef, pork, and lamb.7

Amblyomma ticks have now been identified close to the Canadian border in Michigan and New York, and predictions of continued climate change raise the possibility of northward range expansion into all provinces of Canada from Alberta to Newfoundland and Labrador during the coming decades.8,9 Additional factors that contribute to the expanding range of many tick species include international travel, migratory patterns of birds, competition, and natural predators such as fire ants that feed on tick eggs and influence the feeding behavior of adults.10

Traditional methods of tick identification rely on gross morphology, including the presence of festoons, shape of the coxae where the legs attach, and markings on the hard overlying scutum. More recently, molecular identification has improved tick identification, leading to more accurate assessment of tick prevalence. These modern identification studies include analysis of 16S ribosomal DNA (rDNA), 12S rDNA, and ITS1 rDNA, and ITS2 rDNA genes.11

The spread of tick vectors has huge public health implications, and better methods to control tick populations are needed.12 New acaricides and growth regulators are being developed,13 and early spring applications of acaricides such as bifenthrin can suppress nymphs prior to the initiation of host-seeking activity.14 Controlled burns within tick habitats have proved helpful in reducing the risk for vector-borne disease.15,16 Personal protection is best accomplished with the use of a repellent together with clothing impregnated with an acaricide such as permethrin.17 Efforts to slow climate change and continued surveillance for the spread of tick vectors is urgently needed.

 

The expanding range of tick-borne diseases is a growing problem worldwide. Climate change plays a preeminent role in the expansion of tick species, especially for southern ticks in the United States such as Amblyomma species, which have introduced new pathogens to northern states.1-5 In addition to well-known tick-borne diseases, Amblyomma ticks have been implicated in the spread of emerging severe and potentially fatal viral illnesses, including Bourbon virus and Heartland virus.6 The increasing range of Amblyomma ticks also exposes new populations to tick-induced meat allergy (alpha-gal) syndrome, whereby development of specific IgE antibodies to the oligosaccharide galactose-alpha-1,3-galactose (alpha-gal) following tick bites results in severe allergic responses to consumption of beef, pork, and lamb.7

Amblyomma ticks have now been identified close to the Canadian border in Michigan and New York, and predictions of continued climate change raise the possibility of northward range expansion into all provinces of Canada from Alberta to Newfoundland and Labrador during the coming decades.8,9 Additional factors that contribute to the expanding range of many tick species include international travel, migratory patterns of birds, competition, and natural predators such as fire ants that feed on tick eggs and influence the feeding behavior of adults.10

Traditional methods of tick identification rely on gross morphology, including the presence of festoons, shape of the coxae where the legs attach, and markings on the hard overlying scutum. More recently, molecular identification has improved tick identification, leading to more accurate assessment of tick prevalence. These modern identification studies include analysis of 16S ribosomal DNA (rDNA), 12S rDNA, and ITS1 rDNA, and ITS2 rDNA genes.11

The spread of tick vectors has huge public health implications, and better methods to control tick populations are needed.12 New acaricides and growth regulators are being developed,13 and early spring applications of acaricides such as bifenthrin can suppress nymphs prior to the initiation of host-seeking activity.14 Controlled burns within tick habitats have proved helpful in reducing the risk for vector-borne disease.15,16 Personal protection is best accomplished with the use of a repellent together with clothing impregnated with an acaricide such as permethrin.17 Efforts to slow climate change and continued surveillance for the spread of tick vectors is urgently needed.

References
  1. Sanchez-Vicente S, Tagliafierro T, Coleman JL, et al. Polymicrobial nature of tick-borne diseases [published online September 10, 2019]. MBio. doi:10.1128/mBio.02055-19.
  2. Raghavan RK, Peterson AT, Cobos ME, et al. Current and future distribution of the Lone Star tick, Amblyomma americanum (L.) (Acari: Ixodidae) in North America. PLoS One. 2019;14:e0209082.
  3. Stafford KC 3rd, Molaei G, Little EAH, et al. Distribution and establishment of the Lone Star tick in Connecticut and implications for range expansion and public health. J Med Entomol. 2018;25:1561-1568.
  4. Gilliam ME, Rechkemmer WT, McCravy KW, et al. The influence of prescribed fire, habitat, and weather on Amblyomma americanum (Ixodida: Ixodidae) in West-Central Illinois, USA [published online March 22, 2018]. Insects. doi:10.3390/insects9020036.
  5. Sonenshine DE. Range expansion of tick disease vectors in North America: implications for spread of tick-borne disease [published online March 9, 2018]. Int J Environ Res Public Health. doi:10.3390/ijerph15030478.
  6. Savage HM, Godsey MS Jr, Panella NA, et al. Surveillance for tick-borne viruses near the location of a fatal human case of Bourbon virus (family Orthomyxoviridae: genus Thogotovirus) in eastern Kansas, 2015. J Med Entomol. 2018;55:701-705.
  7. Crispell G, Commins SP, Archer-Hartman SA, et al. Discovery of alpha-gal-containing antigens in North American tick species believed to induce red meat allergy. Front Immunol. 2019;10:1056.
  8. Gasmi S, Bouchard C, Ogden NH, et al. Evidence for increasing densities and geographic ranges of tick species of public health significance other than Ixodes scapularis in Québec, Canada. PLoS One. 2018;13:e0201924.
  9. Sagurova I, Ludwig A, Ogden NH, et al. Predicted northward expansion of the geographic range of the tick vector Amblyomma americanum in North America under future climate conditions. Environ Health Perspect. 2019;127:107014.
  10. Kjeldgaard MK, Takano OM, Bockoven AA, et al. Red imported fire ant (Solenopsis invicta) aggression influences the behavior of three hard tick species. Exp Appl Acarol. 2019;79:87-97.
  11. Abouelhassan EM, El-Gawady HM, Abdel-Aal AA, et al. Comparison of some molecular markers for tick species identification. J Arthropod Borne Dis. 2019;13:153-164.
  12. Jordan RA, Egizi A. The growing importance of lone star ticks in a Lyme disease endemic county: passive tick surveillance in Monmouth County, NJ, 2006–2016. PLoS One. 2019;14:e0211778.
  13. Showler AT, Donahue WA, Harlien JL, et al. Efficacy of novaluron + pyriproxyfen (Tekko Pro) insect growth regulators against Amblyomma americanum (Acari: Ixodidae), Rhipicephalus (Boophilus) annulatus, Rhipicephalus (Boophilus) microplus, and Rhipicephalus sanguineus. J Med Entomol. 2019;56:1338-1345.
  14. Schulze TL, Jordan RA. Early season applications of bifenthrin suppress host-seeking Ixodes scapularis and Amblyomma americanum (Acari: Ixodidae) nymphs [published online November 26, 2019]. J Med Entomol. doi:10.1093/jme/tjz202.
  15. Hodo CL, Forgacs D, Auckland LD, et al. Presence of diverse Rickettsia spp. and absence of Borrelia burgdorferi sensu lato in ticks in an East Texas forest with reduced tick density associated with controlled burns. Ticks Tick Borne Dis. 2020;11:101310.
  16. Gleim ER, Zemtsova GE, Berghaus RD, et al. Frequent prescribed fires can reduce risk of tick-borne diseases. Sci Rep. 2019;9:9974.
  17. Prose R, Breuner NE, Johnson TL, et al. Contact irritancy and toxicity of permethrin-treated clothing for Ixodes scapularis, Amblyomma americanum, and Dermacentor variabilis ticks (Acari: Ixodidae). J Med Entomol. 2018;55:1217-1224.
References
  1. Sanchez-Vicente S, Tagliafierro T, Coleman JL, et al. Polymicrobial nature of tick-borne diseases [published online September 10, 2019]. MBio. doi:10.1128/mBio.02055-19.
  2. Raghavan RK, Peterson AT, Cobos ME, et al. Current and future distribution of the Lone Star tick, Amblyomma americanum (L.) (Acari: Ixodidae) in North America. PLoS One. 2019;14:e0209082.
  3. Stafford KC 3rd, Molaei G, Little EAH, et al. Distribution and establishment of the Lone Star tick in Connecticut and implications for range expansion and public health. J Med Entomol. 2018;25:1561-1568.
  4. Gilliam ME, Rechkemmer WT, McCravy KW, et al. The influence of prescribed fire, habitat, and weather on Amblyomma americanum (Ixodida: Ixodidae) in West-Central Illinois, USA [published online March 22, 2018]. Insects. doi:10.3390/insects9020036.
  5. Sonenshine DE. Range expansion of tick disease vectors in North America: implications for spread of tick-borne disease [published online March 9, 2018]. Int J Environ Res Public Health. doi:10.3390/ijerph15030478.
  6. Savage HM, Godsey MS Jr, Panella NA, et al. Surveillance for tick-borne viruses near the location of a fatal human case of Bourbon virus (family Orthomyxoviridae: genus Thogotovirus) in eastern Kansas, 2015. J Med Entomol. 2018;55:701-705.
  7. Crispell G, Commins SP, Archer-Hartman SA, et al. Discovery of alpha-gal-containing antigens in North American tick species believed to induce red meat allergy. Front Immunol. 2019;10:1056.
  8. Gasmi S, Bouchard C, Ogden NH, et al. Evidence for increasing densities and geographic ranges of tick species of public health significance other than Ixodes scapularis in Québec, Canada. PLoS One. 2018;13:e0201924.
  9. Sagurova I, Ludwig A, Ogden NH, et al. Predicted northward expansion of the geographic range of the tick vector Amblyomma americanum in North America under future climate conditions. Environ Health Perspect. 2019;127:107014.
  10. Kjeldgaard MK, Takano OM, Bockoven AA, et al. Red imported fire ant (Solenopsis invicta) aggression influences the behavior of three hard tick species. Exp Appl Acarol. 2019;79:87-97.
  11. Abouelhassan EM, El-Gawady HM, Abdel-Aal AA, et al. Comparison of some molecular markers for tick species identification. J Arthropod Borne Dis. 2019;13:153-164.
  12. Jordan RA, Egizi A. The growing importance of lone star ticks in a Lyme disease endemic county: passive tick surveillance in Monmouth County, NJ, 2006–2016. PLoS One. 2019;14:e0211778.
  13. Showler AT, Donahue WA, Harlien JL, et al. Efficacy of novaluron + pyriproxyfen (Tekko Pro) insect growth regulators against Amblyomma americanum (Acari: Ixodidae), Rhipicephalus (Boophilus) annulatus, Rhipicephalus (Boophilus) microplus, and Rhipicephalus sanguineus. J Med Entomol. 2019;56:1338-1345.
  14. Schulze TL, Jordan RA. Early season applications of bifenthrin suppress host-seeking Ixodes scapularis and Amblyomma americanum (Acari: Ixodidae) nymphs [published online November 26, 2019]. J Med Entomol. doi:10.1093/jme/tjz202.
  15. Hodo CL, Forgacs D, Auckland LD, et al. Presence of diverse Rickettsia spp. and absence of Borrelia burgdorferi sensu lato in ticks in an East Texas forest with reduced tick density associated with controlled burns. Ticks Tick Borne Dis. 2020;11:101310.
  16. Gleim ER, Zemtsova GE, Berghaus RD, et al. Frequent prescribed fires can reduce risk of tick-borne diseases. Sci Rep. 2019;9:9974.
  17. Prose R, Breuner NE, Johnson TL, et al. Contact irritancy and toxicity of permethrin-treated clothing for Ixodes scapularis, Amblyomma americanum, and Dermacentor variabilis ticks (Acari: Ixodidae). J Med Entomol. 2018;55:1217-1224.
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