Robert Brodschneider scite author profile

Adequate nutrition supports the development of healthy honey bee colonies. We give an overview of the nutritional demands of honey bee workers at three levels: (1) colony nutrition with the possibility of supplementation of carbohydrates and proteins; (2) adult nutrition and (3) larval nutrition. Larvae are especially dependant on protein and brood production is strongly affected by shortages of this nutrient. The number of larvae reared may be reduced to maintain the quality of remaining offspring. The quality of developing workers also suffers under conditions of larval starvation, leading to slightly affected workers. Larval starvation, alone or in combination with other stressors, can weaken colonies. The potential of different diets to meet nutritional requirements or to improve survival or brood production is outlined. We discuss nutrition-related risks to honey bee colonies such as starvation, monocultures, genetically modified crops and pesticides in pollen and nectar. malnutrition / pollen / protein / carbohydrates / supplemental feeding

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Standard methods for maintaining adultApis melliferain cages underin vitrolaboratory conditions

Williams¹,

Alaux²,

Costa³

et al. 2013

Journal of Apicultural Research

290

210

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Honeybee Colony Thermoregulation – Regulatory Mechanisms and Contribution of Individuals in Dependence on Age, Location and Thermal Stress

2010

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Honeybee larvae and pupae are extremely stenothermic, i.e. they strongly depend on accurate regulation of brood nest temperature for proper development (33–36°C). Here we study the mechanisms of social thermoregulation of honeybee colonies under changing environmental temperatures concerning the contribution of individuals to colony temperature homeostasis. Beside migration activity within the nest, the main active process is “endothermy on demand” of adults. An increase of cold stress (cooling of the colony) increases the intensity of heat production with thoracic flight muscles and the number of endothermic individuals, especially in the brood nest. As endothermy means hard work for bees, this eases much burden of nestmates which can stay ectothermic. Concerning the active reaction to cold stress by endothermy, age polyethism is reduced to only two physiologically predetermined task divisions, 0 to ∼2 days and older. Endothermic heat production is the job of bees older than about two days. They are all similarly engaged in active heat production both in intensity and frequency. Their active heat production has an important reinforcement effect on passive heat production of the many ectothermic bees and of the brood. Ectothermy is most frequent in young bees (<∼2 days) both outside and inside of brood nest cells. We suggest young bees visit warm brood nest cells not only to clean them but also to speed up flight muscle development for proper endothermy and foraging later in their life. Young bees inside brood nest cells mostly receive heat from the surrounding cell wall during cold stress, whereas older bees predominantly transfer heat from the thorax to the cell wall. Endothermic bees regulate brood comb temperature more accurately than local air temperature. They apply the heat as close to the brood as possible: workers heating cells from within have a higher probability of endothermy than those on the comb surface. The findings show that thermal homeostasis of honeybee colonies is achieved by a combination of active and passive processes. The differential individual endothermic and behavioral reactions sum up to an integrated action of the honeybee colony as a superorganism.

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Standard methods for artificial rearing ofApis melliferalarvae

Brodschneider

Aupinel²,

Behrens

et al. 2013

Journal of Apicultural Research

155

180

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SummaryOriginally, a method to rear worker honey bee larvae in vitro was introduced into the field of bee biology to analyse honey bee physiology and caste development. Recently, it has become an increasingly important method in bee pathology and toxicology. The in vitro method of rearing larvae is complex and can be developed as an art by itself, especially if the aim is to obtain queens or worker bees which, for example, can be re-introduced into the colony as able members. However, a more pragmatic approach to in vitro rearing of larvae is also possible and justified if the aim is to focus on certain pathogens or compounds to be tested. It is up to the researcher(s) to decide on the appropriate experimental establishment and design. This paper will help with this decision and provide guidelines on how to adjust the method of in vitro rearing according to the specific needs of the scientific project. Métodos estándar para la cría in vitro de larvas de Apis mellifera ResumenOriginalmente, el método para la cría in vitro de larvas de obreras de abejas melíferas se introdujo en el campo de la biología de las abejas para analizar la fisiología y el desarrollo de las castas. Recientemente, se ha convertido en un método cada vez más importante para la patología y la toxicología de la abeja. El método de cría in vitro de larvas es complejo y constituye un arte en sí mismo, especialmente si el objetivo es obtener reinas o abejas obreras que, por ejemplo, puedan ser re-introducidas en la colonia como miembros activos. Sin embargo, un enfoque más pragmático de la cría de larvas in vitro también es posible y justificado si el objetivo es centrarse en ensayos con ciertos patógenos o compuestos. Corresponde al investigador (es) decidir sobre el adecuado establecimiento experimental y el diseño. Este artículo ayudará con esta decisión y proporcionará directrices sobre cómo ajustar el método de cría in vitro en función de las necesidades específicas del proyecto científico.

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Managed honey bee colony losses in Canada, China, Europe, Israel and Turkey, for the winters of 2008–9 and 2009–10

Zee¹,

Pisa²,

Andonov

et al. 2012

Journal of Apicultural Research

231

140

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