Climate, Ticks and Disease

Table of contents

• • • Section 1: Climate
  • Section 1.1: Climate and the tick ecosystem
• eo1: Future climate of Africa
• eo2: Vegetation-climate interactions: into the tick zone
• • Section 1.2: Modelling climate change impacts
• eo3: Climate change and Lyme disease
• eo4: How to Model the Impact of Climate Change on Vector-Borne Diseases?
• eo5: Challenges of Modelling and Projecting Tick Distributions
• eo6: Considerations for predicting climate change implications on future spatial distribution ranges of ticks
• • Section 1.3 Synopsis: Climate
  • • Section 2: Ticks
  • Section 2.1: Climate impacts on tick physiology
• eo7: Can the impact of climate change on the tick microbiome bring a new epidemiological landscape to tick-borne diseases?
• eo8: Climate influence on tick neurobiology
• eo9: The impact of climate change on tick host-seeking behaviour
• eo10: Expected transitions in ticks and their heritable endosymbionts under environmental changes
• eo11: Drought and tick dynamics during climate change
• eo12: Climate influences on reproduction and immunity in the soft tick, Ornithodoros moubata
• eo13: Climate change and ticks: measuring impacts
• • Section 2.2: Climate impacts on tick populations
• eo14: Scandinavia and ticks in a changing climate
• eo15: Birds, ticks and climate change
• eo16: How tick vectors are coping with global warming
• eo17: Possible direct and human-mediated impact of climate change on tick populations in Turkey
• eo18: Climate change alone cannot explain altered tick distribution across Europe: a spotlight on endemic and invasive tick species
• eo19: Climate and management effects on tick–game animal dynamics
• eo20: Climate-driven livestock management shifts and tick populations
• eo21: Potential impacts of climate change on medically important tick species in North America
• • Section 2.3: Climate impacts on tick species
• eo22: Climate change and tick evolution: lessons from the past
• Chapter 23: Amblyomma ticks and future climates
• Chapter 24: Climate impacts on Dermacentor reticulatus tick population dynamics and range
• Chapter 25: Changes expected in Ixodes ricinus temporal and spatial distribution in Europe
• Chapter 26: Range expansion of Ixodes scapularis in the USA
• Chapter 27: Distribution, seasonal occurrence, and biological characteristics of Haemaphysalis longicornis, a vector of bovine piroplasmosis in Japan
• Chapter 28: Climate and vector potential of medically important North American ticks
• Chapter 29: The impact of climate change on the biology of the cattle tick, Rhipicephalus microplus: current knowledge and gaps to be filled
• • Section 2.4: Climate impacts on vector capacity
• Chapter 30: Climate impacts on the vector capacity of tropical and temperate populations of the brown dog tick, Rhipicephalus sanguineus sensu lato
• Chapter 31: Argasidae: distribution and vectorial capacity in a changing global environment
• Chapter 32: Effects of climate change on babesiosis vectors
• • Section 2.5: Synopsis: Ticks
  • • Section 3: Disease
  • Section 3.1: Vector–host–pathogen triangle
• Chapter 33: Conflict and cooperation in tick–host–pathogen interactions contribute to increased tick fitness and survival
• Chapter 34: Climate, ticks, and pathogens: gaps and caveats
• Chapter 35: Climate and prediction of tick-borne diseases facing the complexity of the pathogen–tick–host triad at northern latitudes
• Chapter 36: Is the clock 'ticking' for climate change?
• Chapter 37: Climate instability and emerging tick-borne disease
• Chapter 38: Co-infections of ticks
• Chapter 39: Impact of climate change on co-feeding transmission
• Chapter 40: Human behaviour trumps entomological risk
• Chapter 41: It’s all in the timing: effect of tick phenology on pathogen transmission dynamics
• Chapter 42: Anaplasma species' novel tick–host–pathogen relationships and effects of climate change
• Chapter 43: Zoonotic potential in the genera Anaplasma and Ehrlichia
• Chapter 44: Tick vectors, tick-borne diseases and climate change
• Chapter 45: Climate and other global factors at the zoonotic interface in America: influence on diseases caused by tick-borne pathogens
• Chapter 46: Microclimatic conditions and RNA viruses in ticks
• • Section 3.2: Vector-borne infections of humans
• Chapter 47: Climate, ticks and tick-borne encephalitis in Central Europe
• Chapter 48: Tick-borne viral haemorrhagic fever infections
• Chapter 49: Climate impact on Lyme borreliosis and its causative agents
• Chapter 50: Climate change and tick-borne encephalitis in the Greater Alpine Region
• Chapter 51: The expansion of Japanese spotted fever and the complex group of spotted fever group rickettsia in Japan
• Chapter 52: Spatiotemporal and demographic patterns of transmission of Kyasanur Forest Disease virus in India
• Chapter 53: Argasid ticks, relapsing fever and a changing climate
• Chapter 54: The potential effects of climate change on Lyme borreliosis in East-Central Europe
• Chapter 55: Epidemiology of severe fever with thrombocytopenia syndrome in China
• Chapter 56: Climate change and debilitating symptom complexes attributed to ticks in Australia
• Chapter 57: Effect of climate change on mosquito-borne pathogens
• • Section 3.3: Vector-borne infections of domesticated animals
• Chapter 58: Ornithodoros tick vectors and African swine fever virus
• Chapter 59: Tick-borne diseases of livestock in the UK
• Chapter 60: Impact of climate change on tick-borne diseases of livestock in Pakistan – looking ahead
• Chapter 61: The emergence of tick-borne diseases in domestic animals in Australia
• • Section 3.4: Vector-borne infections in different regions
• Chapter 62: Tick-borne infections in Central Europe
• Chapter 63: Impact of climate change on ticks and tick-borne infections in Russia
• Chapter 64: Is climate change affecting ticks and tick-borne diseases in Taiwan?
• Chapter 65: Ticks and tick-borne pathogens in the Caribbean region in the context of climate change
• Chapter 66: The strange case of tick-borne viruses in Turkey
• Chapter 67: Melting, melting pot – climate change and its impact on ticks and tick-borne pathogens in the Arctic
• Chapter 68: Ticks and tick-borne diseases in the Middle East
• Chapter 69: The emergence of ticks and tick-borne diseases in the United States
• Chapter 70: 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
• Chapter 71: Tick-borne pathogens in China
• Chapter 72: Tick-borne rickettsioses in Africa
• Chapter 73: Climate and the emergence of tick-borne disease in Canada
• Chapter 74: Climate change impacts on Ixodes ricinus in Scotland and implications for Lyme disease risk
• Chapter 75: Possible impact of climate and environmental change on ticks and tick-borne disease in England
• Chapter 76: Climate change, ticks and tick-borne pathogens in northern Europe
• Chapter 77: Tick and tick-borne disease circulation in a changing marine ecosystem
• • Section 3.5: Synopsis: Disease
  • • Section 4: Final synopsis and future predictions

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