Climate suitability for European ticks: assessing species distribution models against null models and projection under AR5 climate

Williams, H.; Cross, Dónall Eoin; Crump, Heather; Drost, Cornelis; Thomas, Christopher

doi:10.1186/s13071-015-1046-4

Cited by 58 publications

(53 citation statements)

References 71 publications

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“…Our results are also consistent with Hazen et al (2012) which predicted range increases and poleward shifts for three procellariiform species in the northern Pacific Ocean. Range contraction and poleward shifts have been projected for several groups of marine and terrestrial organisms, including seaweed (Takao et al 2015, Marzloff et al 2016, marine fish (Lenoir et al 2011, Hazen et al 2012, Jones et al 2013, Sunday et al 2015, marine invertebrates (Cheung et al 2009, Stuart-Smith et al 2015, Sunday et al 2015, Marzloff et al 2016, marine mammals (Hazen et al 2012), insects (Beaumont and Hughes 2002, Kwon and Lee 2015, ticks (Williams et al 2015), terrestrial birds (Araújo et al 2005), and trees (Morin andThuiller 2009, Goberville et al 2015). Such changes were also projected to reflect in spatial redistribution of biodiversity with consequences for ecosystem functioning (Constable et al 2014, García Molinos et al 2015, Stuart-Smith et al 2015.…”

Section: Seabird Species Distributionmentioning

confidence: 99%

Projected distributions of Southern Ocean albatrosses, petrels and fisheries as a consequence of climatic change

et al. 2017

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Given the major ongoing influence of environmental change on the oceans, there is a need to understand and predict the future distributions of marine species in order to plan appropriate mitigation to conserve vulnerable species and ecosystems. In this study we use tracking data from seven large seabird species of the Southern Ocean (black-browed albatross Thalassarche melanophris, grey-headed albatross T. chrysostoma, northern giant petrel Macronectes halli, southern giant petrel M. giganteus, Tristan albatross Diomedea dabbenena, wandering albatross D. exulans and white-chinned petrel Procellaria aequinoctialis, and on fishing effort in two types of fisheries (characterised by low or high-bycatch rates), to model the associations with environmental variables (bathymetry, chlorophyll-a concentration, sea surface temperature and wind speed) through ensemble species distribution models. We then projected these distributions according to four climate change scenarios built by the Intergovernmental Panel for Climate Change for 2050 and 2100. The resulting projections were consistent across scenarios, indicating that there is a strong likelihood of poleward shifts in distribution of seabirds, and several range contractions (resulting from a shift in the northern, but no change in the southern limit of the range in four species). Current trends for southerly shifts in fisheries distributions are also set to continue under these climate change scenarios at least until 2100; some of these may reflect habitat loss for target species that are already over-fished. It is of particular concern that a shift in the distribution of several highly threatened seabird species would increase their overlap with fisheries where there is a high-bycatch risk. Under such scenarios, the associated shifts in distribution of seabirds and increases in bycatch risk will require much-improved fisheries management in these sensitive areas to minimise impacts on populations in decline.

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Section: Seabird Species Distributionmentioning

confidence: 99%

Projected distributions of Southern Ocean albatrosses, petrels and fisheries as a consequence of climatic change

et al. 2017

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“…Somit verdeutlicht dieser Fund auch das Potenzial der Einschleppung infizierter Zecken aus dem Ausland. Rhipicephalus bursa kann sich unter den gegebenen Bedingungen und wahrscheinlich auch unter zukünftigen Klimaszenarien in Deutschland nicht etablieren [27]. Insbesondere in Südwest-bzw.…”

Section: Verdachtsdiagnose Therapie Und Verlaufunclassified

Theileria equi-Infektion bei 2 Pferden nach einem Wanderritt in Südfrankreich

Springer

Ehrmann

Lembcke

et al. 2020

Tierarztl Prax Ausg G

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ZusammenfassungDie equine Piroplasmose, ausgelöst durch die protozoären Erreger Theileria equi oder Babesia caballi, ist weltweit in (sub-)tropischen Regionen einschließlich Südeuropa endemisch. In Deutschland hat sie vor allem als Importparasitose Bedeutung. Da Zeckenarten mit Vektorkompetenz für equine Piroplasmen allerdings auch hierzulande vorkommen, ist eine langfristige Etablierung autochthoner Zyklen nach Einschleppung durch Equiden oder Zecken nicht ausgeschlossen. Im vorliegenden Fall erkrankten 2 Pferde nach einem Wanderrittaufenthalt in Südfrankreich an einer T. equi-Infektion. Während der Behandlung wurde bei einem der Pferde eine saugende Zecke (Rhipicephalus bursa) entdeckt. Auch wenn sich diese Zeckenart unter den derzeitigen Bedingungen in Deutschland nicht etablieren kann, verdeutlicht dieser Fund das Potenzial der Einschleppung infizierter Zecken. Die Therapie der Pferde erfolgte mit Imidocarb (3 mg/kg i. m.; 3 Behandlungen im Abstand von je 3 Tagen). Unerwünschte Arzneimittelwirkungen wurden nicht beobachtet. Um eine Etablierung des Infektionszyklus in Deutschland sowie eine chronische Manifestation der Piroplasmose zu verhindern, sollte trotz möglicher Nebenwirkungen von Imidocarb eine Erregerelimination angestrebt werden.

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“…According to different scholars, studies related to species distribution were carried out at global scale and local scale (Khormi and Kumar, 2014;Lafaye et al, 2013). Climate suitability predictions for tick distribution studies in relation to climate change modeling required to take responsibilities for global and regional distributions maps, e.g., for H. marginatum (Estrada-Peña and Salman, 2013) and R. annulatus (Williams et al, 2015), while modeling climate-induced impacts on the current and future cattle tick distribution like this study are limited at the national scale. On the other way, this paper could have the first approach at the local scale to model future distribution maps for cattle tick species in the light of future climate scenarios.…”

Section: Impact Of Climate Change On Cattle Tick Distributionmentioning

confidence: 99%

Modeling the potential climate change- induced impacts on future genus Rhipicephalus (Acari: Ixodidae) tick distribution in semi-arid areas of Raya Azebo district, Northern Ethiopia

et al. 2019

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Background: Climate change is believed to be continuously affecting ticks by influencing their habitat suitability. However, we attempted to model the climate change-induced impacts on future genus Rhipicephalus distribution considering the major environmental factors that would influence the tick. Therefore, 50 tick occuance points were taken to model the potential distribution using maximum entropy (MaxEnt) software and 19 climatic variables, taking into account the ability for future climatic change under representative concentration pathways (RCPs) 4.5 and 8.5, were used. Results: MaxEnt model performance was tested and found with the AUC value of 0.99 which indicates excellent goodness-of-fit and predictive accuracy. Current models predict increased temperatures, both in the mid and end terms together with possible changes of other climatic factors like precipitation which may lead to higher tickborne disease risks associated with expansion of the range of the targeted tick distribution. Distribution maps were constructed for the current, 2050, and 2070 for the two greenhouse gas scenarios and the most dramatic scenario; RCP 8.5 produced the highest increase probable distribution range. Conclusions: The future potential distribution of the genus Rhipicephalus show potential expansion to the new areas due to the future climatic suitability increase. These results indicate that the genus population of the targeted tick could emerge in areas in which they are currently lacking; increased incidence of tick-borne diseases poses further risk which can affect cattle production and productivity, thereby affecting the livelihood of smallholding farmers. Therefore, it is recommended to implement climate change adaptation practices to minimize the impacts.

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Climate suitability for European ticks: assessing species distribution models against null models and projection under AR5 climate

Cited by 58 publications

References 71 publications

Projected distributions of Southern Ocean albatrosses, petrels and fisheries as a consequence of climatic change

Projected distributions of Southern Ocean albatrosses, petrels and fisheries as a consequence of climatic change

Theileria equi-Infektion bei 2 Pferden nach einem Wanderritt in Südfrankreich

Modeling the potential climate change- induced impacts on future genus Rhipicephalus (Acari: Ixodidae) tick distribution in semi-arid areas of Raya Azebo district, Northern Ethiopia

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