Analysis of Honeybee Drone Activity during the Mating Season in Northwestern Argentina

Analysis of Honeybee Drone Activity during the Mating Season in Northwestern Argentina

Males in Hymenopteran societies are understudied in many aspects and it is assumed that they only have a reproductive function. We studied the time budget of male honey bees, drones, using multiple methods. Changes in the activities of animals provide important information on biological clocks and t...

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Main Authors: Maria Marta Ayup, Philipp Gärtner, José L. Agosto-Rivera, Peter Marendy, Paulo de Souza, Alberto Galindo-Cardona
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Insects
Subjects:
drone activity
drone congregation areas
mating behavior
RFID technology
video recording
Online Access:https://www.mdpi.com/2075-4450/12/6/566
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spelling doaj-4155cb500ecd4dac9a9d367a06589f672021-07-01T00:43:02ZengMDPI AGInsects2075-44502021-06-011256656610.3390/insects12060566Analysis of Honeybee Drone Activity during the Mating Season in Northwestern ArgentinaMaria Marta Ayup0Philipp Gärtner1José L. Agosto-Rivera2Peter Marendy3Paulo de Souza4Alberto Galindo-Cardona5National Scientific and Technical Research Council, CONICET, CCT, Tucumán 4000, ArgentinaIER (Regional Ecology Institute), CONICET, Tucumán 4000, ArgentinaRio Piedras Campus, University of Puerto Rico, Rio Piedras 00927, Puerto RicoCommonwealth Scientific and Industrial Research Organisation, CSIRO, Canberra 2601, AustraliaCommonwealth Scientific and Industrial Research Organisation, CSIRO, Canberra 2601, AustraliaNational Scientific and Technical Research Council, CONICET, CCT, Tucumán 4000, ArgentinaMales in Hymenopteran societies are understudied in many aspects and it is assumed that they only have a reproductive function. We studied the time budget of male honey bees, drones, using multiple methods. Changes in the activities of animals provide important information on biological clocks and their health. Yet, in nature, these changes are subtle and often unobservable without the development and use of modern technology. During the spring and summer mating season, drones emerge from the hive, perform orientation flights, and search for drone congregation areas for mating. This search may lead drones to return to their colony, drift to other colonies (vectoring diseases and parasites), or simply get lost to predation. In a low percentage of cases, the search is successful, and drones mate and die. Our objective was to describe the activity of <i>Apis mellifera</i> drones during the mating season in Northwestern Argentina using three methods: direct observation, video recording, and radio frequency identification (RFID). The use of RFID tagging allows the tracking of a bee for 24 h but does not reveal the detailed activity of drones. We quantified the average number of drones’ departure and arrival flights and the time outside the hive. All three methods confirmed that drones were mostly active in the afternoon. We found no differences in results between those obtained by direct observation and by video recording. RFID technology enabled us to discover previously unknown drone behavior such as activity at dawn and during the morning. We also discovered that drones may stay inside the hive for many days, even after initiation of search flights (up to four days). Likewise, we observed drones to leave the hive for several days to return later (up to three days). The three methods were complementary and should be considered for the study of bee drone activity, which may be associated with the diverse factors influencing hive health.https://www.mdpi.com/2075-4450/12/6/566drone activitydrone congregation areasmating behaviorRFID technologyvideo recording
collection DOAJ
language English
format Article
sources DOAJ
author Maria Marta Ayup
Philipp Gärtner
José L. Agosto-Rivera
Peter Marendy
Paulo de Souza
Alberto Galindo-Cardona
spellingShingle Maria Marta Ayup
Philipp Gärtner
José L. Agosto-Rivera
Peter Marendy
Paulo de Souza
Alberto Galindo-Cardona
Analysis of Honeybee Drone Activity during the Mating Season in Northwestern Argentina
Insects
drone activity
drone congregation areas
mating behavior
RFID technology
video recording
author_facet Maria Marta Ayup
Philipp Gärtner
José L. Agosto-Rivera
Peter Marendy
Paulo de Souza
Alberto Galindo-Cardona
author_sort Maria Marta Ayup
title Analysis of Honeybee Drone Activity during the Mating Season in Northwestern Argentina
title_short Analysis of Honeybee Drone Activity during the Mating Season in Northwestern Argentina
title_full Analysis of Honeybee Drone Activity during the Mating Season in Northwestern Argentina
title_fullStr Analysis of Honeybee Drone Activity during the Mating Season in Northwestern Argentina
title_full_unstemmed Analysis of Honeybee Drone Activity during the Mating Season in Northwestern Argentina
title_sort analysis of honeybee drone activity during the mating season in northwestern argentina
publisher MDPI AG
series Insects
issn 2075-4450
publishDate 2021-06-01
description Males in Hymenopteran societies are understudied in many aspects and it is assumed that they only have a reproductive function. We studied the time budget of male honey bees, drones, using multiple methods. Changes in the activities of animals provide important information on biological clocks and their health. Yet, in nature, these changes are subtle and often unobservable without the development and use of modern technology. During the spring and summer mating season, drones emerge from the hive, perform orientation flights, and search for drone congregation areas for mating. This search may lead drones to return to their colony, drift to other colonies (vectoring diseases and parasites), or simply get lost to predation. In a low percentage of cases, the search is successful, and drones mate and die. Our objective was to describe the activity of <i>Apis mellifera</i> drones during the mating season in Northwestern Argentina using three methods: direct observation, video recording, and radio frequency identification (RFID). The use of RFID tagging allows the tracking of a bee for 24 h but does not reveal the detailed activity of drones. We quantified the average number of drones’ departure and arrival flights and the time outside the hive. All three methods confirmed that drones were mostly active in the afternoon. We found no differences in results between those obtained by direct observation and by video recording. RFID technology enabled us to discover previously unknown drone behavior such as activity at dawn and during the morning. We also discovered that drones may stay inside the hive for many days, even after initiation of search flights (up to four days). Likewise, we observed drones to leave the hive for several days to return later (up to three days). The three methods were complementary and should be considered for the study of bee drone activity, which may be associated with the diverse factors influencing hive health.
topic drone activity
drone congregation areas
mating behavior
RFID technology
video recording
url https://www.mdpi.com/2075-4450/12/6/566
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