Role of climate and other factors in determining the dynamics of tick and tick-transmitted pathogen populations and distribution in western, central and eastern Africa

Modelling the distribution of Rhipicephalus microplus and R. decoloratus in Zimbabwe

Sungirai, M
Moyo, DZ
De Clercq, PatrickLA218010009081200000-0003-0664-1602F4B54E36-F0ED-11E1-A9DE-61C894A0A6B4
Madder, M
Vanwambeke, SO
De Clercq, EM

January 2018

Species distribution modelling is a very useful tool in vector management. Ticks are vectors of vari...

Climate change impacts on ticks and tick-borne infections

Nuttall, PA

January 2021

Evidence climate change is impacting ticks and tick-borne infections is generally lacking. This is p...

An overview of factors responsible for geographic distribution pattern of ixodid ticks in the Sudan

Hassan, SM
Salih, DA

November 2013

Tick fauna in the Sudan comprises over 70 species prevalent in diverse ecological zones. Among these...

Role of climate and other factors in determining the dynamics of tick and tick-transmitted pathogen populations and distribution in western, central and eastern Africa

Githaka, Naftaly W.
Kanduma, Esther G.
Bishop, Richard P.

February 2022

This expert opinion discusses the potential impact of climatic change on vector abundance, survival ...

Driving forces for changes in geographic range of cattle ticks (Acari: Ixodidae) in Africa: A review

Nyangiwe, N
Yawa, M
Muchenje, V

October 2018

Ticks are the most important external parasites of cattle and are known to transmit more pathogens t...

Climate change and the genus Rhipicephalus (Acari : Ixodidae) in Africa

Olowoch, JM
van Jaarsveld, AS
Scholtz, CH
Horak, IG

January 2007

The suitability of present and future climates for 30 Rhipicephalus species in Africa are predicted ...

Climate change and infectious livestock diseases: The case of Rift Valley fever and tick-borne diseases

Bett, Bernard K.
Lindahl, Johanna F.
Grace, Delia

December 2018

Climate change influences the occurrence and transmission of a wide range of livestock diseases thro...

Climate Change and Infectious Livestock Diseases : The Case of Rift Valley Fever and Tick-Borne Diseases

Bett, Bernard
Lindahl, Johanna
Delia, Grace

January 2019

Climate change influences the occurrence and transmission of a wide range of livestock diseases thro...

Investigating the impact of climate variability and climate change on tick

Gavera, Miriam Fadziso

January 2013

The impact of climate variability and climate change on tickborne diseases in Chiredzi District was...

Climate change and the genus <i>Rhipicephalus</i> (Acari : Ixodidae) in Africa

J.M. Olwoch
A.S. Van Jaarsveld
C.H. Scholtz
I.G Horak

September 2007

The suitability of present and future climates for 30 Rhipicephalus species in Africa are predicted...

Data from: Interacting effects of wildlife loss and climate on ticks and tick-borne disease

Titcomb, Georgia
Allan, Brian F.
Ainsworth, Tyler
Lauren, Henson
Hedlund, Tyler
Pringle, Robert M.
Palmer, Todd M.
Njoroge, Laban
Campana, Michael G.
Fleischer, Robert C.
Mantas, John N.
Young, Hillary S.

Both large-wildlife loss and climatic changes can independently influence the prevalence and distrib...

Climate change implications for the distribution of the babesiosis and anaplasmosis tick vector, Rhipicephalus (Boophilus) microplus

Marques, Roberta
Krüger, Rodrigo F.
Peterson, A. Townsend
de Melo, Larissa F.
Vicenzi, Natália
Jiménez-García, Daniel

November 2020

This work is licensed under a Creative Commons Attribution 4.0 International License.Climate change ...

Impact of climate trends on tick-borne pathogen transmission

Estrada-Peña, Agustín
Ayllón, Nieves
Fuente, José de la

February 2017

Recent advances in climate research together with a better understanding of tick-pathogen interactio...

Predictive Analytics of Cattle Host and Environmental and Micro-Climate Factors for Tick Distribution and Abundance at the Livestock–Wildlife Interface in the Lower Okavango Delta of Botswana

Nlingisisi D. Babayani
Anastacia Makati

October 2021

Tick distribution and abundance is influenced by several factors that include micro-climate and envi...

Interacting effects of wildlife loss and climate on ticks and tick-borne disease

Titcomb, Georgia
Allan, Brian F.
Ainsworth, Tyler
Henson, Lauren
Hedlund, Tyler
Pringle, Robert M.
Palmer, Todd M.
Njoroge, Laban
Campana, Michael G.
Fleischer, Robert C.
Mantas, John Naisikie
Young, Hillary S.

September 2017

Understanding the effects of anthropogenic disturbance on zoonotic disease risk is both a critical ...

Modelling the distribution of Rhipicephalus microplus and R. decoloratus in Zimbabwe

Sungirai, M
Moyo, DZ
De Clercq, PatrickLA218010009081200000-0003-0664-1602F4B54E36-F0ED-11E1-A9DE-61C894A0A6B4
Madder, M
Vanwambeke, SO
De Clercq, EM

January 2018

Species distribution modelling is a very useful tool in vector management. Ticks are vectors of vari...

Climate change impacts on ticks and tick-borne infections

Nuttall, PA

January 2021

Evidence climate change is impacting ticks and tick-borne infections is generally lacking. This is p...

An overview of factors responsible for geographic distribution pattern of ixodid ticks in the Sudan

Hassan, SM
Salih, DA

November 2013

Tick fauna in the Sudan comprises over 70 species prevalent in diverse ecological zones. Among these...

Role of climate and other factors in determining the dynamics of tick and tick-transmitted pathogen populations and distribution in western, central and eastern Africa

Githaka, Naftaly W.
Kanduma, Esther G.
Bishop, Richard P.

February 2022

This expert opinion discusses the potential impact of climatic change on vector abundance, survival ...

Driving forces for changes in geographic range of cattle ticks (Acari: Ixodidae) in Africa: A review

Nyangiwe, N
Yawa, M
Muchenje, V

October 2018

Ticks are the most important external parasites of cattle and are known to transmit more pathogens t...

Climate change and the genus Rhipicephalus (Acari : Ixodidae) in Africa

Olowoch, JM
van Jaarsveld, AS
Scholtz, CH
Horak, IG

January 2007

The suitability of present and future climates for 30 Rhipicephalus species in Africa are predicted ...

Climate change and infectious livestock diseases: The case of Rift Valley fever and tick-borne diseases

Bett, Bernard K.
Lindahl, Johanna F.
Grace, Delia

December 2018

Climate change influences the occurrence and transmission of a wide range of livestock diseases thro...

Climate Change and Infectious Livestock Diseases : The Case of Rift Valley Fever and Tick-Borne Diseases

Bett, Bernard
Lindahl, Johanna
Delia, Grace

January 2019

Climate change influences the occurrence and transmission of a wide range of livestock diseases thro...

Investigating the impact of climate variability and climate change on tick

Gavera, Miriam Fadziso

January 2013

The impact of climate variability and climate change on tickborne diseases in Chiredzi District was...

Climate change and the genus <i>Rhipicephalus</i> (Acari : Ixodidae) in Africa

J.M. Olwoch
A.S. Van Jaarsveld
C.H. Scholtz
I.G Horak

September 2007

The suitability of present and future climates for 30 Rhipicephalus species in Africa are predicted...

Data from: Interacting effects of wildlife loss and climate on ticks and tick-borne disease

Titcomb, Georgia
Allan, Brian F.
Ainsworth, Tyler
Lauren, Henson
Hedlund, Tyler
Pringle, Robert M.
Palmer, Todd M.
Njoroge, Laban
Campana, Michael G.
Fleischer, Robert C.
Mantas, John N.
Young, Hillary S.

Both large-wildlife loss and climatic changes can independently influence the prevalence and distrib...

Climate change implications for the distribution of the babesiosis and anaplasmosis tick vector, Rhipicephalus (Boophilus) microplus

Marques, Roberta
Krüger, Rodrigo F.
Peterson, A. Townsend
de Melo, Larissa F.
Vicenzi, Natália
Jiménez-García, Daniel

November 2020

This work is licensed under a Creative Commons Attribution 4.0 International License.Climate change ...

Impact of climate trends on tick-borne pathogen transmission

Estrada-Peña, Agustín
Ayllón, Nieves
Fuente, José de la

February 2017

Recent advances in climate research together with a better understanding of tick-pathogen interactio...

Predictive Analytics of Cattle Host and Environmental and Micro-Climate Factors for Tick Distribution and Abundance at the Livestock–Wildlife Interface in the Lower Okavango Delta of Botswana

Nlingisisi D. Babayani
Anastacia Makati

October 2021

Tick distribution and abundance is influenced by several factors that include micro-climate and envi...

Interacting effects of wildlife loss and climate on ticks and tick-borne disease

Titcomb, Georgia
Allan, Brian F.
Ainsworth, Tyler
Henson, Lauren
Hedlund, Tyler
Pringle, Robert M.
Palmer, Todd M.
Njoroge, Laban
Campana, Michael G.
Fleischer, Robert C.
Mantas, John Naisikie
Young, Hillary S.

September 2017

Understanding the effects of anthropogenic disturbance on zoonotic disease risk is both a critical ...

Modelling the distribution of Rhipicephalus microplus and R. decoloratus in Zimbabwe

Sungirai, M
Moyo, DZ
De Clercq, PatrickLA218010009081200000-0003-0664-1602F4B54E36-F0ED-11E1-A9DE-61C894A0A6B4
Madder, M
Vanwambeke, SO
De Clercq, EM

January 2018

Species distribution modelling is a very useful tool in vector management. Ticks are vectors of vari...

Climate change impacts on ticks and tick-borne infections

Nuttall, PA

January 2021

Evidence climate change is impacting ticks and tick-borne infections is generally lacking. This is p...

An overview of factors responsible for geographic distribution pattern of ixodid ticks in the Sudan

Hassan, SM
Salih, DA

November 2013

Tick fauna in the Sudan comprises over 70 species prevalent in diverse ecological zones. Among these...

Role of climate and other factors in determining the dynamics of tick and tick-transmitted pathogen populations and distribution in western, central and eastern Africa

Abstract

Extracted data

Role of climate and other factors in determining the dynamics of tick and tick-transmitted pathogen populations and distribution in western, central and eastern Africa

Abstract

Extracted data

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