Ecological niche modelling of Culicoides imicola and future range shifts under climate change scenarios in Italy

Culicoides imicola is the main vector of viral diseases of livestock in Europe such as bluetongue (BT), African horse sickness and epizootic haemorrhagic disease. Climatic factors are the main drivers of C. imicola occurrence and its distribution might be subject to rapid shifts due to climate chang...

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Published inMedical and veterinary entomology Vol. 38; no. 4; pp. 416 - 428
Main Authors Del Lesto, Irene, Magliano, Adele, Casini, Riccardo, Ermenegildi, Arianna, Rombolà, Pasquale, De Liberato, Claudio, Romiti, Federico
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.12.2024
Wiley Subscription Services, Inc
Subjects
African horse sickness
Animal Distribution
Animals
Bluetongue
Bluetongue - epidemiology
Bluetongue - transmission
Ceratopogonidae - physiology
climate
Climate Change
climate models
Climate prediction
CMIP6
confidence interval
Culicoides imicola
Ecosystem
epizootic hemorrhagic disease
General circulation models
Hemorrhagic disease
Insect Vectors - physiology
Italy
Livestock
medical and veterinary entomology
Models, Biological
monitoring
NDVI
Niches
remote sensing
species distribution model
Surveillance
temperature
Viral diseases
Italy
Culicoides imicola
CMIP6
remote sensing
species distribution model
NDVI
climate change
Online AccessGet full text
ISSN0269-283X
1365-2915
1365-2915
DOI10.1111/mve.12730

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Abstract Culicoides imicola is the main vector of viral diseases of livestock in Europe such as bluetongue (BT), African horse sickness and epizootic haemorrhagic disease. Climatic factors are the main drivers of C. imicola occurrence and its distribution might be subject to rapid shifts due to climate change. Entomological data, collected during BT surveillance, and climatic/environmental variables were used to analyse ecological niche and to model C. imicola distribution and possible future range shifts in Italy. An ensemble technique was used to weigh the performance of machine learning, linear and profile methods. Updated future climate projections from the latest phase of the Climate Model Intercomparison Project were used to generate future distributions for the next three 20‐year periods, according to combinations of general circulation models and shared socioeconomic pathways and considering different climate change scenarios. Results indicated the minimum temperature of the coldest month (BIO 6) and precipitation of the driest‐warmest months (BIO 14) as the main limiting climatic factors. Indeed, BIO 6 and BIO 14 reported the two highest values of variable importance, respectively, 9.16% (confidence interval [CI] = 7.99%–10.32%), and 2.01% (CI = 1.57%–2.44%). Under the worst‐case scenario of climate change, C. imicola range is expected to expand northward and shift away from the coasts of central Italy, while in some areas of southern Italy, environmental suitability will decrease. Our results provide predictions of C. imicola distribution according to the most up‐to‐date future climate projections and should be of great use to surveillance management at regional and national scales. Data from bluetongue surveillance and satellite imagery were used in a species distribution model framework to predict the suitable habitat of Culicoides imicola (1). A fine‐scale C. imicola distribution map was produced for central Italy (2), highlighting the most relevant biotic and abiotic variables to predict species occurrence (3). The relevant climatic variables were used to predict the Italian distribution of C. imicola along with its future range shifts, according to different climate change scenarios (4).
AbstractList Culicoides imicola is the main vector of viral diseases of livestock in Europe such as bluetongue (BT), African horse sickness and epizootic haemorrhagic disease. Climatic factors are the main drivers of C. imicola occurrence and its distribution might be subject to rapid shifts due to climate change. Entomological data, collected during BT surveillance, and climatic/environmental variables were used to analyse ecological niche and to model C. imicola distribution and possible future range shifts in Italy. An ensemble technique was used to weigh the performance of machine learning, linear and profile methods. Updated future climate projections from the latest phase of the Climate Model Intercomparison Project were used to generate future distributions for the next three 20-year periods, according to combinations of general circulation models and shared socioeconomic pathways and considering different climate change scenarios. Results indicated the minimum temperature of the coldest month (BIO 6) and precipitation of the driest-warmest months (BIO 14) as the main limiting climatic factors. Indeed, BIO 6 and BIO 14 reported the two highest values of variable importance, respectively, 9.16% (confidence interval [CI] = 7.99%-10.32%), and 2.01% (CI = 1.57%-2.44%). Under the worst-case scenario of climate change, C. imicola range is expected to expand northward and shift away from the coasts of central Italy, while in some areas of southern Italy, environmental suitability will decrease. Our results provide predictions of C. imicola distribution according to the most up-to-date future climate projections and should be of great use to surveillance management at regional and national scales.Culicoides imicola is the main vector of viral diseases of livestock in Europe such as bluetongue (BT), African horse sickness and epizootic haemorrhagic disease. Climatic factors are the main drivers of C. imicola occurrence and its distribution might be subject to rapid shifts due to climate change. Entomological data, collected during BT surveillance, and climatic/environmental variables were used to analyse ecological niche and to model C. imicola distribution and possible future range shifts in Italy. An ensemble technique was used to weigh the performance of machine learning, linear and profile methods. Updated future climate projections from the latest phase of the Climate Model Intercomparison Project were used to generate future distributions for the next three 20-year periods, according to combinations of general circulation models and shared socioeconomic pathways and considering different climate change scenarios. Results indicated the minimum temperature of the coldest month (BIO 6) and precipitation of the driest-warmest months (BIO 14) as the main limiting climatic factors. Indeed, BIO 6 and BIO 14 reported the two highest values of variable importance, respectively, 9.16% (confidence interval [CI] = 7.99%-10.32%), and 2.01% (CI = 1.57%-2.44%). Under the worst-case scenario of climate change, C. imicola range is expected to expand northward and shift away from the coasts of central Italy, while in some areas of southern Italy, environmental suitability will decrease. Our results provide predictions of C. imicola distribution according to the most up-to-date future climate projections and should be of great use to surveillance management at regional and national scales.
Culicoides imicola is the main vector of viral diseases of livestock in Europe such as bluetongue (BT), African horse sickness and epizootic haemorrhagic disease. Climatic factors are the main drivers of C. imicola occurrence and its distribution might be subject to rapid shifts due to climate change. Entomological data, collected during BT surveillance, and climatic/environmental variables were used to analyse ecological niche and to model C. imicola distribution and possible future range shifts in Italy. An ensemble technique was used to weigh the performance of machine learning, linear and profile methods. Updated future climate projections from the latest phase of the Climate Model Intercomparison Project were used to generate future distributions for the next three 20‐year periods, according to combinations of general circulation models and shared socioeconomic pathways and considering different climate change scenarios. Results indicated the minimum temperature of the coldest month (BIO 6) and precipitation of the driest‐warmest months (BIO 14) as the main limiting climatic factors. Indeed, BIO 6 and BIO 14 reported the two highest values of variable importance, respectively, 9.16% (confidence interval [CI] = 7.99%–10.32%), and 2.01% (CI = 1.57%–2.44%). Under the worst‐case scenario of climate change, C. imicola range is expected to expand northward and shift away from the coasts of central Italy, while in some areas of southern Italy, environmental suitability will decrease. Our results provide predictions of C. imicola distribution according to the most up‐to‐date future climate projections and should be of great use to surveillance management at regional and national scales.
Culicoides imicola is the main vector of viral diseases of livestock in Europe such as bluetongue (BT), African horse sickness and epizootic haemorrhagic disease. Climatic factors are the main drivers of C. imicola occurrence and its distribution might be subject to rapid shifts due to climate change. Entomological data, collected during BT surveillance, and climatic/environmental variables were used to analyse ecological niche and to model C. imicola distribution and possible future range shifts in Italy. An ensemble technique was used to weigh the performance of machine learning, linear and profile methods. Updated future climate projections from the latest phase of the Climate Model Intercomparison Project were used to generate future distributions for the next three 20‐year periods, according to combinations of general circulation models and shared socioeconomic pathways and considering different climate change scenarios. Results indicated the minimum temperature of the coldest month (BIO 6) and precipitation of the driest‐warmest months (BIO 14) as the main limiting climatic factors. Indeed, BIO 6 and BIO 14 reported the two highest values of variable importance, respectively, 9.16% (confidence interval [CI] = 7.99%–10.32%), and 2.01% (CI = 1.57%–2.44%). Under the worst‐case scenario of climate change, C. imicola range is expected to expand northward and shift away from the coasts of central Italy, while in some areas of southern Italy, environmental suitability will decrease. Our results provide predictions of C. imicola distribution according to the most up‐to‐date future climate projections and should be of great use to surveillance management at regional and national scales. Data from bluetongue surveillance and satellite imagery were used in a species distribution model framework to predict the suitable habitat of Culicoides imicola (1). A fine‐scale C. imicola distribution map was produced for central Italy (2), highlighting the most relevant biotic and abiotic variables to predict species occurrence (3). The relevant climatic variables were used to predict the Italian distribution of C. imicola along with its future range shifts, according to different climate change scenarios (4).
Author Rombolà, Pasquale
Romiti, Federico
De Liberato, Claudio
Magliano, Adele
Casini, Riccardo
Ermenegildi, Arianna
Del Lesto, Irene
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Issue 4
Keywords Culicoides imicola
CMIP6
remote sensing
species distribution model
NDVI
climate change
Language English
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Snippet Culicoides imicola is the main vector of viral diseases of livestock in Europe such as bluetongue (BT), African horse sickness and epizootic haemorrhagic...
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StartPage 416
SubjectTerms African horse sickness
Animal Distribution
Animals
Bluetongue
Bluetongue - epidemiology
Bluetongue - transmission
Ceratopogonidae - physiology
climate
Climate Change
climate models
Climate prediction
CMIP6
confidence interval
Culicoides imicola
Ecosystem
epizootic hemorrhagic disease
General circulation models
Hemorrhagic disease
Insect Vectors - physiology
Italy
Livestock
medical and veterinary entomology
Models, Biological
monitoring
NDVI
Niches
remote sensing
species distribution model
Surveillance
temperature
Viral diseases
Title Ecological niche modelling of Culicoides imicola and future range shifts under climate change scenarios in Italy
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fmve.12730
https://www.ncbi.nlm.nih.gov/pubmed/38783513
https://www.proquest.com/docview/3124047601
https://www.proquest.com/docview/3060379335
https://www.proquest.com/docview/3154169909
Volume 38
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