Dynamics of Weight Change and Temperature of Apis mellifera (Hymenoptera: Apidae) Colonies in a Wintering Building With Controlled Temperature

• Published in: Journal of economic entomology Vol. 110; no. 1; pp. 13 - 23
• Main Authors: Stalidzans, E, Zacepins, A, Kviesis, A, Brusbardis, V, Meitalovs, J, Paura, L, Bulipopa, N, Liepniece, M
• Format: Journal Article
• Language: English
• Published: England Entomological Society of America 01.02.2017; Oxford University Press
• Subjects: Animals; APICULTURE AND SOCIAL INSECTS; Apis mellifera; bee colony monitoring; bee colony temperature and weight dynamics; Beekeeping - methods; Bees; Bees - physiology; Body temperature; Body weight loss; Brood rearing; Cold regions; Colonies; Diet; Dynamics; Food consumption; Food processing; Honey - analysis; Indoor environments; indoors wintering; Latvia; Microclimate; Overwintering behavior; precision apiculture; precision beekeeping; Seasons; Spring (season); Temperature; Temperature effects; Temperature measurement; Thermal insulation; Weight loss; Latvia; precision beekeeping; precision apiculture; indoors wintering; bee colony temperature and weight dynamics; bee colony monitoring
• ISSN: 0022-0493; 1938-291X
• DOI: 10.1093/jee/tow282

Honey bee wintering in a wintering building (indoors) with controlled microclimate is used in some cold regions to minimize colony losses due to the hard weather conditions. The behavior and possible state of bee colonies in a dark room, isolated from natural environment during winter season, was studied by indirect temperature measurements to analyze the expression of their annual rhythm when it is not affected by ambient temperature, rain, snow, wind, and daylight. Thus, the observed behavior in the wintering building is initiated solely by bee colony internal processes. Experiments were carried out to determine the dynamics of temperature above the upper hive body and weight dynamics of indoors and outdoors wintered honey bee colonies and their brood-rearing performance in spring. We found significantly lower honey consumption-related weight loss of indoor wintered colonies compared with outdoor colonies, while no significant difference in the amount of open or sealed brood was found, suggesting that wintering building saves food and physiological resources without an impact on colony activity in spring. Indoor wintered colonies, with or without thermal insulation, did not have significant differences in food consumption and brood rearing in spring. The thermal behavior and weight dynamics of all experimental groups has changed in the middle of February possibly due to increased brood-rearing activity. Temperature measurement above the upper hive body is a convenient remote monitoring method of wintering process. Predictability of food consumption in a wintering building, with constant temperature, enables wintering without oversupply of wintering honey.