Changing Geographic Ranges of Human Biting Ticks and Implications for Tick-Borne Zoonoses in North America

Wikel, Stephen K.

doi:10.3390/zoonoticdis2030013

Cited by 8 publications

(7 citation statements)

References 207 publications

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“…Our models support and expand upon previous work on habitat suitability for ticks in Illinois. Records of county-level establishment, passive surveillance, and ecological niche modeling demonstrate expansion of I. scapularis across the state (Eisen et al 2016;Kopsco et al 2021;Alkishe et al 2021;Wikel 2022), however our expectation that as the climate continues to warm, regions in southern and central Illinois will become less hospitable for a desiccant-sensitive species like I. scapularis, was supported. Our models predicted that I. scapularis will be confined to more northern regions in the state, and within habitats that provide more protective cover (e.g.…”

Section: Discussionmentioning

confidence: 72%

Current and Future Habitat Suitability Models for Four Ticks of Medical Concern in Illinois, USA

Kopsco¹,

Gronemeyer²,

Mateus‐Pinilla³

et al. 2022

Preprint

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The greater U.S. Midwest is on the leading edge of tick and tick-borne disease (TBD) expansion, and tick and TBD encroachment into Illinois is occurring from both the northern and the southern regions. To assess historical and future habitat suitability of four ticks of medical concern within the state, we fit individual and mean-weighted ensemble species distribution models for Ixodes scapularis, Amblyomma americanum, Dermacentor variabilis, and a newly invading species, Amblyomma maculatum using a variety of landscape and mean climate variables for the periods of 1970-2000, 2041-2060, and 2061-2080. Ensemble models for the historical climate were consistent with known distributions of each species but predicted the habitat suitability of A. maculatum to be much greater throughout Illinois than what known distributions demonstrate. Proximity to wetlands and water bodies was important in predicting both I. scapularis and A. americanum presence. A. americanum occurrence was highly dependent on increasing forest cover, while A. maculatum habitat was more strongly predicted by open habitats. As the climate warmed, the expected distribution of all species became more strongly impacted by precipitation and temperature variables, particularly mean temperature of the wettest quarter and mean temperature of the driest quarter. By 2070, I. scapularis was expected to retract by as much as 60% from southern and central regions of the state as compared to historical climate distribution but remained concentrated in the Chicago metropolitan area. A. americanum was predicted to initially expand across parts of east- and west-central Illinois by 2050, but then largely retract in distribution to along rivers and water bodies by 2070. The ranges of D. variabilis and A. maculatum, however, were predicted to contract in the 2050 climate scenario, but then expand in the 2070 scenario. Predicting where ticks may invade and concentrate as the climate changes will be important to anticipate, prevent, and treat TBD in Illinois.

show abstract

Section: Discussionmentioning

confidence: 72%

Current and Future Habitat Suitability Models for Four Ticks of Medical Concern in Illinois, USA

Kopsco¹,

Gronemeyer²,

Mateus‐Pinilla³

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…Our models support and expand upon previous work on habitat suitability for ticks in Illinois. Records of county-level establishment, passive surveillance, and ecological niche modeling demonstrate expansion of I. scapularis across the state (Eisen et al 2016;Kopsco et al 2021;Alkishe et al 2021;Wikel 2022), however our expectation that as the climate continues to warm, regions in southern and central Illinois will become less hospitable for a desiccant-sensitive species like I. scapularis, was not supported. We found that occurrence of these species are still driven strongly by precipitation and temperature variables as previous work in the state has demonstrated (Bacon et al 2021), but in ways we did not expect.…”

Section: Discussionmentioning

confidence: 83%

Current and Future Habitat Suitability Models for Four Ticks of Medical Concern in Illinois, USA

Kopsco¹,

Gronemeyer²,

Mateus‐Pinilla³

et al. 2023

Preprint

View full text Add to dashboard Cite

The greater U.S. Midwest is on the leading edge of tick and tick-borne disease (TBD) expansion, with tick and TBD encroachment into Illinois occurring from both the northern and the southern regions. To assess historical and future habitat suitability of four ticks of medical concern within the state, we fit individual and mean-weighted ensemble species distribution models for Ixodes scapularis, Amblyomma americanum, Dermacentor variabilis, and a newly invading species, Amblyomma maculatum using a variety of landscape and mean climate variables for the periods of 1970-2000, 2041-2060, and 2061-2080. Ensemble model projections for the historical climate were consistent with known distributions of each species but predicted the habitat suitability of A. maculatum to be much greater throughout Illinois than what known distributions demonstrate. Presence of forest and wetlands were the most important landcover classes predicting occurrence of all tick species. As the climate warmed, the expected distribution of all species became strongly responsive to precipitation and temperature variables, particularly precipitation of the warmest quarter and mean diurnal range, as well as proximity to forest cover and water sources. The suitable habitat all species was predicted to shrink in the 2050 climate scenario, and then increase more broadly statewide in the 2070 scenario, but at reduced likelihoods. Predicting where ticks may invade and concentrate as the climate changes will be important to anticipate, prevent, and treat TBD in Illinois.

show abstract

“…Our models support and expand upon previous work on habitat suitability for ticks in Illinois. Records of county-level establishment, passive surveillance, and ecological niche modeling demonstrate the expansion of I. scapularis across the state [ 34 , 67 , 72 , 73 , 74 ]; however, our expectation that as the climate continues to warm, regions in southern and central Illinois will become less hospitable for a desiccant-sensitive species such as I. scapularis was not supported. We found that the occurrence of these species is still driven strongly by precipitation and temperature variables as previous work in the state has demonstrated [ 9 ] but in ways we did not expect.…”

Section: Discussionmentioning

confidence: 94%

Current and Future Habitat Suitability Models for Four Ticks of Medical Concern in Illinois, USA

Kopsco

Gronemeyer

Mateus‐Pinilla

et al. 2023

Insects

View full text Add to dashboard Cite

The greater U.S. Midwest is on the leading edge of tick and tick-borne disease (TBD) expansion, with tick and TBD encroachment into Illinois occurring from both the northern and the southern regions. To assess the historical and future habitat suitability of four ticks of medical concern within the state, we fit individual and mean-weighted ensemble species distribution models for Ixodes scapularis, Amblyomma americanum, Dermacentor variabilis, and a newly invading species, Amblyomma maculatum using a variety of landscape and mean climate variables for the periods of 1970–2000, 2041–2060, and 2061–2080. Ensemble model projections for the historical climate were consistent with known distributions of each species but predicted the habitat suitability of A. maculatum to be much greater throughout Illinois than what known distributions demonstrate. The presence of forests and wetlands were the most important landcover classes predicting the occurrence of all tick species. As the climate warmed, the expected distribution of all species became strongly responsive to precipitation and temperature variables, particularly precipitation of the warmest quarter and mean diurnal range, as well as proximity to forest cover and water sources. The suitable habitat for I. scapularis, A. americanum, and A. maculatum was predicted to significantly narrow in the 2050 climate scenario and then increase more broadly statewide in the 2070 scenario but at reduced likelihoods. Predicting where ticks may invade and concentrate as the climate changes will be important to anticipate, prevent, and treat TBD in Illinois.

show abstract

Changing Geographic Ranges of Human Biting Ticks and Implications for Tick-Borne Zoonoses in North America

Cited by 8 publications

References 207 publications

Current and Future Habitat Suitability Models for Four Ticks of Medical Concern in Illinois, USA

Current and Future Habitat Suitability Models for Four Ticks of Medical Concern in Illinois, USA

Current and Future Habitat Suitability Models for Four Ticks of Medical Concern in Illinois, USA

Current and Future Habitat Suitability Models for Four Ticks of Medical Concern in Illinois, USA

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