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      Standard methods for Apis mellifera beeswax research

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          High Levels of Miticides and Agrochemicals in North American Apiaries: Implications for Honey Bee Health

          Background Recent declines in honey bees for crop pollination threaten fruit, nut, vegetable and seed production in the United States. A broad survey of pesticide residues was conducted on samples from migratory and other beekeepers across 23 states, one Canadian province and several agricultural cropping systems during the 2007–08 growing seasons. Methodology/Principal Findings We have used LC/MS-MS and GC/MS to analyze bees and hive matrices for pesticide residues utilizing a modified QuEChERS method. We have found 121 different pesticides and metabolites within 887 wax, pollen, bee and associated hive samples. Almost 60% of the 259 wax and 350 pollen samples contained at least one systemic pesticide, and over 47% had both in-hive acaricides fluvalinate and coumaphos, and chlorothalonil, a widely-used fungicide. In bee pollen were found chlorothalonil at levels up to 99 ppm and the insecticides aldicarb, carbaryl, chlorpyrifos and imidacloprid, fungicides boscalid, captan and myclobutanil, and herbicide pendimethalin at 1 ppm levels. Almost all comb and foundation wax samples (98%) were contaminated with up to 204 and 94 ppm, respectively, of fluvalinate and coumaphos, and lower amounts of amitraz degradates and chlorothalonil, with an average of 6 pesticide detections per sample and a high of 39. There were fewer pesticides found in adults and brood except for those linked with bee kills by permethrin (20 ppm) and fipronil (3.1 ppm). Conclusions/Significance The 98 pesticides and metabolites detected in mixtures up to 214 ppm in bee pollen alone represents a remarkably high level for toxicants in the brood and adult food of this primary pollinator. This represents over half of the maximum individual pesticide incidences ever reported for apiaries. While exposure to many of these neurotoxicants elicits acute and sublethal reductions in honey bee fitness, the effects of these materials in combinations and their direct association with CCD or declining bee health remains to be determined.
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            Isotopic Variations in Meteoric Waters.

            H Craig (1961)
            The relationship between deuterium and oxygen-18 concentrations in natural meteoric waters from many parts of the world has been determined with a mass spectrometer. The isotopic enrichments, relative to ocean water, display a linear correlation over the entire range for waters which have not undergone excessive evaporation.
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              Infrared Spectroscopy: Fundamentals and Applications

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                Author and article information

                Contributors
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                Journal
                Journal of Apicultural Research
                Journal of Apicultural Research
                Informa UK Limited
                0021-8839
                2078-6913
                March 15 2019
                March 20 2019
                March 15 2019
                : 58
                : 2
                : 1-108
                Affiliations
                [1 ] Department of Fisheries, Apiculture, Wildlife Management and Special Zoology, University of Zagreb Faculty of Agriculture, Zagreb, Croatia;
                [2 ] IsoForensics, Inc., Salt Lake City, UT, USA;
                [3 ] National Reference Laboratory for Honey Bee Health, Istituto Zooprofilattico Sperimentale delle Venezie, Legnaro, Padua, Italy;
                [4 ] Apismaia, Beekeeping Products & Services, Póvoa de Varzim, Portugal;
                [5 ] Diagnostic Services Histopathology and Parasitology Department, Istituto Zooprofilattico Sperimentale delle Venezie, Legnaro, Padua, Italy;
                [6 ] Department of Parasitology, Faculty of Veterinary Medicine, University of Namik Kemal, Tekirdag, Turkey;
                [7 ] CQ-Chemistry Research Centre, Chemistry Department, University of Tras-os-Montes e Alto Douro, Vila Real, Portugal;
                [8 ] Vuippens, Switzerland;
                [9 ] Department of Biology, University of Utah, Salt Lake City, UT, USA;
                [10 ] Apicultural State Institute (730), University of Hohenheim, Stuttgart, Germany;
                [11 ] Apiculture Department, Research Institute of Horticulture, Puławy, Poland;
                [12 ] Entomology Department, University of Maryland, College Park, MD, USA
                Article
                10.1080/00218839.2019.1571556
                835e2d41-2447-42a6-97eb-c7a8addbad26
                © 2019
                History

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