Buzz is a fascinating reminder of the interconnections between humans and animals, even in that most urban of environments, New York City. - Gary Alan Fine, author ofAuthors of the Storm: ...Meteorologists and the Culture of PredictionBees are essential for human survival - one-third of all food on American dining tables depends on the labor of bees. Beyond pollination, the very idea of the bee is ubiquitous in our culture: we can feel buzzed; we can create buzz; we have worker bees, drones, and Queen bees; we establish collectives and even have communities that share a hive-mind. InBuzz, authors Lisa Jean Moore and Mary Kosut convincingly argue that the power of bees goes beyond the food cycle, bees are our mascots, our models, and, unlike any other insect, are both feared and revered.In this fascinating account, Moore and Kosut travel into the land of urban beekeeping in New York City, where raising bees has become all the rage. We follow them as they climb up on rooftops, attend beekeeping workshops and honey festivals, and even put on full-body beekeeping suits and open up the hives. In the process, we meet a passionate, dedicated, and eclectic group of urban beekeepers who tend to their brood with an emotional and ecological connection that many find restorative and empowering. Kosut and Moore also interview professional beekeepers and many others who tend to their bees for their all-important production of a food staple: honey. The artisanal food shops that are so popular in Brooklyn are a perfect place to sell not just honey, but all manner of goods: soaps, candles, beeswax, beauty products, and even bee pollen.Buzzalso examines media representations of bees, such as children's books, films, and consumer culture, bringing to light the reciprocal way in which the bee and our idea of the bee inform one another. Partly an ethnographic investigation and partly a meditation on the very nature of human/insect relations, Moore and Kosut argue that how we define, visualize, and interact with bees clearly reflects our changing social and ecological landscape, pointing to how we conceive of and create culture, and how, in essence, we create ourselves.Lisa Jean Mooreis a feminist medical sociologist and Professor of Sociology and Gender Studies at Purchase College, State University of New York.Mary Kosutis Associate Professor of Media, Society and the Arts at Purchase College, State University of New York.In theBiopoliticsseries
Honey bees are crucial for pollination services globally and produce important hive products including honey, royal jelly, pollen, and propolis that are being used commercially in food, cosmetics, ...and alternative medicinal purposes. Among the bee products, royal jelly (RJ) has long attracted scientists' interest because of its importance in honey caste differentiation. The present research was carried out to determine the acceptance rate of queen cells, and RJ production between the hygienic and non-hygienic lines. Further, this study unveils the effect of pollen substitute diets on the queen cell acceptance rate and RJ yields between both bee stocks. Results showed that the uncapped brood cells and dead brood's removal percentage was significantly more in hygienic bee colonies in comparison to non-hygienic bee colonies (p < 0.05). The average percentage of larval acceptance was statistically higher in hygienic lines (64.33 ± 2.91%) compared to non-hygienic lines (29.67 ± 1.20%). Similarly, the RJ mean weight per colony differed statistically between both bee stocks (p<0.001), which were 12.23 ± 0.52 g and 6.72 ± 0.33 g, respectively. Moreover, our results demonstrated that a significant difference was observed in larval acceptance rate, RJ yields (per colony and per cup) between both bee stocks those fed on various diets. However, no significant difference was recorded in RJ yields (per colony and per cup) between both bee stock that feeds on either commercially available pollen or pollen substitute. This study may provide future applications in helping bee breeders to choose the bees that carry a higher level of hygienic behavior with high RJ production traits.
Bees are critically important for ecosystem function and biodiversity maintenance through their pollinating activity. This book provides a collection of computational methods to those primarily ...interested in the study of the ecology, ethology, and ecotoxicology of bees. It presents numerous case studies to enable readers to understand the appropriateness but also the limitations of models in theoretical and applied bee research. Written by an international team of experts, this book covers the main types of modeling approaches that can be used in terrestrial ecology and applied ecotoxicology.
Osmia lignaria Say is used in combination with Apis mellifera L. to pollinate U.S. orchard crops. The deployment of O. lignaria requires artificial warming to synchronize adult bee emergence with ...crop bloom. However, current methods for emerging bees are time consuming and inefficient; the Hivetop Incubator (HTI) invention creates a space atop an A. mellifera hive whose heat flows through the screened bottom of the HTI to incubate cocooned O. lignaria adults therein. In response to HTI heat, O. lignaria adults chew out of cocoons, find an exit hole, and fly away to nest in provided nesting sites and, thereby, pollinate a crop. Objectives for studies performed in Utah and Washington were to: 1) determine whether HTIs inhibit A. mellifera thermoregulation or colony growth, 2) compare O. lignaria emergence duration from an HTI with and without hive heat, and 3) assess whether O. lignaria females leave HTIs located at the orchard edge to nest throughout the orchard. We found no significant differences between the internal temperatures of A. mellifera colonies with and without HTIs and no impact on A. mellifera food storage or brood production. Osmia lignaria in hive-heated HTIs emerged 3* faster than bees in unheated HTIs. Heated HTIs were significantly cooler than hive temperatures but significantly warmer than HTIs atop empty hive boxes. Osmia lignaria nest distribution was not correlated to the location of HTIs at the orchard edge. Overall, HTIs were effective for timely, on-site emergence of O. lignaria for orchard pollination without negatively impacting A. mellifera colonies. Key words: pollination, blue orchard bee, honey bee, orchard management
Several resistance traits have been proposed to select honey bees (Apis mellifera L.) that can survive in the presence of parasitic mite Varroa destructor (Anderson and Trueman) and enable a more ...sustainable apiculture. The interest for uncapping-recapping has recently increased following its identification in several naturally surviving honey bee populations, yet the utility of this trait for human-mediated selection is poorly known. Here, we evaluated the repeatability of recapping and its correlations with mite infestation levels, and assessed the expression of the trait in the often neglected drone brood. We also calculated correlations between recapping, mite infertility, and mite fecundity, expressed either at the level of individual brood cells or of the whole colony. Recapping measured in worker brood showed moderate repeatability (ranging between 0.30 and 0.46). Depending on sample, recapping slightly correlated negatively with colony infestation values. Recapping was also measured in drone brood, with values often comparable to recapping in worker brood, but no significant correlations were obtained between castes. At cell level, recapped cells in drone brood (but not in workers) were significantly less infested than nonrecapped cells, whereas in workers (but not in drones), recapped cells hosted mites with significantly lower fecundity. At colony level, with a few exceptions, recapping did not significantly correlate with mite infertility and fecundity, caste, sample, or number of infested cells considered. These results indicate limited possibilities of impeding mite reproduction and possibly mite infestation of honey bee colonies by recapping, which would need to be confirmed on larger, different populations. Key words: honey bee, resistance, recapping, selection, varroa mite
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