High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases

High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases

Honey bees directly affect and are influenced by their local environment, in terms of food sources, pollinator densities, pathogen and toxin exposure and climate. Currently, there is a lack of studies analyzing these data with Geographic Information Systems (GIS) to investigate spatial relationships...

Full description

Bibliographic Details
Main Authors: Raphael S. von Büren, Bernadette Oehen, Nikolaus J. Kuhn, Silvio Erler
Format: Article
Language:English
Published: PeerJ Inc. 2019-01-01
Series:PeerJ
Subjects:
Apis mellifera
Pathogen transmission
Honey bee
Geographic information system
European foulbrood
American foulbrood
Online Access:https://peerj.com/articles/6393.pdf
id doaj-9dc4e8581e7f4b7e8ccecbbf46adce89
record_format Article
spelling doaj-9dc4e8581e7f4b7e8ccecbbf46adce892020-11-25T00:44:57ZengPeerJ Inc.PeerJ2167-83592019-01-017e639310.7717/peerj.6393High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseasesRaphael S. von Büren0Bernadette Oehen1Nikolaus J. Kuhn2Silvio Erler3Department of Environmental Sciences, Physical Geography and Environmental Change, Universität Basel, Basel, SwitzerlandResearch Institute of Organic Agriculture—FiBL, Frick, SwitzerlandDepartment of Environmental Sciences, Physical Geography and Environmental Change, Universität Basel, Basel, SwitzerlandInstitute of Biology, Animal Ecology, Martin-Luther-University Halle-Wittenberg, Halle, GermanyHoney bees directly affect and are influenced by their local environment, in terms of food sources, pollinator densities, pathogen and toxin exposure and climate. Currently, there is a lack of studies analyzing these data with Geographic Information Systems (GIS) to investigate spatial relationships with the environment. Particularly for inter-colonial pathogen transmission, it is known that the likelihood of a healthy colony to become infested (e.g., Varroosis) or infected (e.g., American foulbrood—AFB, European foulbrood—EFB) increases with higher colony density. Whether these transmission paths can actually be asserted at apiary level is largely unknown. Here, we unraveled spatial distribution and high-resolution density of apiaries and bacterial honey bee brood diseases in Switzerland based on available GIS data. Switzerland as ‘model country’ offers the unique opportunity to get apiary data since 2010 owing to compulsory registration for every beekeeper. Further, both destructive bee brood diseases (AFB and EFB) are legally notifiable in Switzerland, and EFB has an epizootic character for the last decades. As governmental data sets have to be ameliorated, raw data from the cantonal agricultural or veterinary offices have been included. We found a mean density of 0.56 apiaries per km2, and high resolution spatial analyzes showed strong correlation between density of apiaries and human population density as well as agricultural landscape type. Concerning two bacterial bee brood diseases (AFB, EFB), no significant correlation was detectable with density of apiaries on cantonal level, though a high correlation of EFB cases and apiary density became obvious on higher resolution (district level). Hence, Swiss EFB epizootics seem to have benefited from high apiary densities, promoting the transmission of pathogens by adult bees. The GIS-based method presented here, might also be useful for other bee diseases, anthropogenic or environmental factors affecting bee colonies.https://peerj.com/articles/6393.pdfApis melliferaPathogen transmissionHoney beeGeographic information systemEuropean foulbroodAmerican foulbrood
collection DOAJ
language English
format Article
sources DOAJ
author Raphael S. von Büren
Bernadette Oehen
Nikolaus J. Kuhn
Silvio Erler
spellingShingle Raphael S. von Büren
Bernadette Oehen
Nikolaus J. Kuhn
Silvio Erler
High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases
PeerJ
Apis mellifera
Pathogen transmission
Honey bee
Geographic information system
European foulbrood
American foulbrood
author_facet Raphael S. von Büren
Bernadette Oehen
Nikolaus J. Kuhn
Silvio Erler
author_sort Raphael S. von Büren
title High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases
title_short High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases
title_full High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases
title_fullStr High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases
title_full_unstemmed High-resolution maps of Swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases
title_sort high-resolution maps of swiss apiaries and their applicability to study spatial distribution of bacterial honey bee brood diseases
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2019-01-01
description Honey bees directly affect and are influenced by their local environment, in terms of food sources, pollinator densities, pathogen and toxin exposure and climate. Currently, there is a lack of studies analyzing these data with Geographic Information Systems (GIS) to investigate spatial relationships with the environment. Particularly for inter-colonial pathogen transmission, it is known that the likelihood of a healthy colony to become infested (e.g., Varroosis) or infected (e.g., American foulbrood—AFB, European foulbrood—EFB) increases with higher colony density. Whether these transmission paths can actually be asserted at apiary level is largely unknown. Here, we unraveled spatial distribution and high-resolution density of apiaries and bacterial honey bee brood diseases in Switzerland based on available GIS data. Switzerland as ‘model country’ offers the unique opportunity to get apiary data since 2010 owing to compulsory registration for every beekeeper. Further, both destructive bee brood diseases (AFB and EFB) are legally notifiable in Switzerland, and EFB has an epizootic character for the last decades. As governmental data sets have to be ameliorated, raw data from the cantonal agricultural or veterinary offices have been included. We found a mean density of 0.56 apiaries per km2, and high resolution spatial analyzes showed strong correlation between density of apiaries and human population density as well as agricultural landscape type. Concerning two bacterial bee brood diseases (AFB, EFB), no significant correlation was detectable with density of apiaries on cantonal level, though a high correlation of EFB cases and apiary density became obvious on higher resolution (district level). Hence, Swiss EFB epizootics seem to have benefited from high apiary densities, promoting the transmission of pathogens by adult bees. The GIS-based method presented here, might also be useful for other bee diseases, anthropogenic or environmental factors affecting bee colonies.
topic Apis mellifera
Pathogen transmission
Honey bee
Geographic information system
European foulbrood
American foulbrood
url https://peerj.com/articles/6393.pdf
work_keys_str_mv AT raphaelsvonburen highresolutionmapsofswissapiariesandtheirapplicabilitytostudyspatialdistributionofbacterialhoneybeebrooddiseases
AT bernadetteoehen highresolutionmapsofswissapiariesandtheirapplicabilitytostudyspatialdistributionofbacterialhoneybeebrooddiseases
AT nikolausjkuhn highresolutionmapsofswissapiariesandtheirapplicabilitytostudyspatialdistributionofbacterialhoneybeebrooddiseases
AT silvioerler highresolutionmapsofswissapiariesandtheirapplicabilitytostudyspatialdistributionofbacterialhoneybeebrooddiseases
_version_ 1725272252953395200

Similar Items