Due to length limits, the bibliography will be sent to you in three parts.  This is part 3

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1.     Morandin, Lora A., and Mark L. Winston. "Effects of novel pesticides on bumble bee (Hymenoptera: Apidae) colony health and foraging ability." Environmental Entomology 32.3 (2003): 555-563.



2.     Mullin, Christopher A., et al. "High levels of miticides and agrochemicals in North American apiaries: implications for honey bee health." PLoS one 5.3 (2010): e9754.



3.     Mussen, Eric C., Julio E. Lopez, and Christine YS Peng. "Effects of selected fungicides on growth and development of larval honey bees, Apis mellifera L.(Hymenoptera: Apidae)." Environmental entomology 33.5 (2004): 1151-1154.



4.     Nauen, Ralf, Ulrich Ebbinghaus-Kintscher and Richard Schmuck.  (2001)  Toxicity and nicotinic acetylcholine receptor interaction of imidacloprid and its metabolites in Apis mellifera (Hymenoptera:  Apidae)  Pest Management Science, 57:7, pp 577-586



5.     Nguyen, Bach Kim, et al. "Does imidacloprid seed-treated maize have an impact on honey bee mortality?." Journal of Economic Entomology 102.2 (2009): 616-623.



6.     Nikolakis, Alexander, et al. "An effective risk management approach to prevent bee damage due to the emission of abraded seed treatment particles during sowing of seeds treated with bee toxic insecticides." Julius-Kühn-Archiv 423 (2010): S-132.



7.     Oliveira, Regiane Alves, et al. "Side‐effects of thiamethoxam on the brain andmidgut of the africanized honeybee Apis mellifera (Hymenopptera: Apidae)." Environmental toxicology (2013).



8.     Oruc, H. H., et al. "Determination of Acute Oral Toxicity of Flumethrin in Honey Bees." Journal of economic entomology 105.6 (2012): 1890-1894.



9.     Park, Yooheon, et al. "Imidacloprid, a neonicotinoid insecticide, potentiates adipogenesis in 3T3-L1 adipocytes." Journal of agricultural and food chemistry 61.1 (2012): 255-259.



10.   Pettis, Jeffery S., et al. "Crop pollination exposes honey bees to pesticides which alters their susceptibility to the gut pathogen Nosema ceranae." PloS one 8.7 (2013): e70182.



11.   Pettis, Jeffery S., Josephine Johnson, and Galen Dively. "Pesticide exposure in honey bees results in increased levels of the gut pathogen Nosema." Naturwissenschaften 99.2 (2012): 153-158.



12.   Pickett, John A. "Food security: intensification of agriculture is essential, for which current tools must be defended and new sustainable technologies invented." Food and Energy Security (2013).



13.   Pilling, Edward, et al. "A Four-Year Field Program Investigating Long-Term Effects of Repeated Exposure of Honey Bee Colonies to Flowering Crops Treated with Thiamethoxam." PLOS ONE 8.10 (2013): e77193.



14.   Pochi, Daniele, et al. "Potential exposure of bees, Apis mellifera L., to particulate matter and pesticides derived from seed dressing during maize sowing." Bulletin of environmental contamination and toxicology 89.2 (2012): 354-361.



15.   Quarles, William. "Pesticides and honey bee death and decline." IPM Practitioner 33.1/2 (2011): 1-8.



16.   Rademacher, Eva, et al. "Galenics: studies of the toxicity and distribution of sugar substitutes on Apis mellifera." Apidologie 44.2 (2013): 222-233.



17.   Reed



18.   Reetz, Jana E, Sabastian Zuhlke Michael Spiteller, Klaus Wallner.  (2011)  Neonicotinoid insecticides translocated in guttated droplets of see-treated maize and wheat:  a threat to honeybees?  Apidologie 42: 596-606



19.   Reynard, Benjamin W. "The Producer-Pollinator Dilemma: Neonicotinoids and Honeybee Colony Collapse." (2012). http://repository.upenn.edu/mes_capstones/50/



20.   Richard, Schmuck, Schöning Ralf, and Sur Robin. "Untersuchungen zu den Auswirkungen von Imidacloprid-haltigen Pflanzen-schutzmitteln auf die Honigbiene Apis mellifera L. Studies on the Effects of Plant Protection Products Containing Imidacloprid on the Honeybee, Apis mellifera L. Études sur les effets des produits phytosanitaires contenant de l’imidaclopride." DAS „BIENENSTERBEN “IM WINTER 2002/2003 IN DEUTSCHLAND (2005): 68.



21.   Rozen, Daniel E. "Drugged bees go missing." The Journal of Experimental Biology 215.17 (2012): iv-iv.



22.   Ruffinengo, Sergio, et al. "LD50 and repellent effects of essential oils from Argentinian wild plant species on Varroa destructor." Journal of economic entomology 98.3 (2005): 651-655.



23.   Sammataro, D., J. Finley, and R. Underwood. "Comparing oxalic acid and sucrocide treatments for Varroa destructor (Acari: Varroidae) control under desert conditions." Journal of economic entomology 101.4 (2008): 1057-1061.



24.   Sammataro, Diana, and Milagra Weiss. "Comparison of productivity of colonies of honey bees, Apis mellifera, supplemented with sucrose or high fructose corn syrup." Journal of Insect Science 13 (2013).



25.   Schmuck, R. "Effects of a chronic dietary exposure of the honeybee Apis mellifera (Hymenoptera: Apidae) to imidacloprid." Archives of environmental contamination and toxicology 47.4 (2004): 471-478.



26.   Schneider, C. W., J. Tautz, B. Grünewald and S. Fuchs (2012). RFID tracking of sublethal effects of two neonicotinoid insecticides on the foraging behavior of Apis mellifera. PLoS One 7: e30023.



27.   Schneider, Christof W., et al. "RFID tracking of sublethal effects of two neonicotinoid insecticides on the foraging behavior of Apis mellifera." PLoS One 7.1 (2012): e30023.



28.   Schneider, Saskia, Dorothea Eisenhardt, and Eva Rademacher. "Sublethal effects of oxalic acid on Apis mellifera (Hymenoptera: Apidae): changes in behaviour and longevity." Apidologie 43.2 (2012): 218-225.



29.   Sechser, B., and J. Freuler. "The impact of thiamethoxam on bumble bee broods (Bombus terrestris L.) following drip application in covered tomato crops." Anzeiger für Schädlingskunde 76.3 (2003): 74-77.



30.   Sgolastra, Fabio, et al. "Effects of neonicotinoid dust from maize seed-dressing on honey bees." Bulletin of Insectology 65.2 (2012): 273-280.



31.   Smagghe, Guy, et al. "Dietary chlorantraniliprole suppresses reproduction in worker bumblebees." Pest management science (2013).



32.   Smart, Matthew Dixon. DISTRIBUTION OF MICROSPORIDIA, NOSEMA SPP., AND CO-INFECTION WITH ACARINE PARASITES IN PACIFIC NORTHWEST HONEY BEE (APIS MELLIFERA L.) COLONIES. Diss. Washington State University, 2010.



33.   Spivak, Marla, et al. "The Plight of the Bees†." Environmental science & technology 45.1 (2010): 34-38.



34.   Sprayberry, Jordanna DH, Kaitlin A. Ritter, and Jeffrey A. Riffell. "The Effect of Olfactory Exposure to Non-Insecticidal Agrochemicals on Bumblebee Foraging Behavior." PLOS ONE 8.10 (2013): e76273.



35.   Stanley, Johnson, et al. "Toxicity of diafenthiuron to honey bees in laboratory, semi‐field and field conditions." Pest management science 66.5 (2010): 505-510.



36.   Stark, John D., Paul C. Jepson, and DANIEL F. MAYER. "Limitations to use of topical toxicity data for predictions of pesticide side effects in the field." Journal of Economic Entomology 88.5 (1995): 1081-1088.



37.   Staveley, Jane P., et al. "A Causal Analysis of Observed Declines in Managed Honey Bees (Apis mellifera)." Human and Ecological Risk Assessment: An International Journal just-accepted (2013).



38.   Stoner, Kimberly A., and Brian D. Eitzer. "Using a Hazard Quotient to Evaluate Pesticide Residues Detected in Pollen Trapped from Honey Bees (Apis mellifera) in Connecticut." PloS one 8.10 (2013): e77550.



39.   Strachecka, Aneta, et al. "Influence of amitraz and oxalic acid on the cuticle proteolytic system of Apis mellifera L. workers." Insects 3.3 (2012): 821-832.



40.   Stubbs, Alan, and Matt Shardlow. "The Development of Buglife–The Invertebrate Conservation Trust." Insect Conservation: Past, Present and Prospects. Springer Netherlands, 2012. 75-105.



41.   Suchail, Séverine, David Guez, and Luc P. Belzunces. "Discrepancy between acute and chronic toxicity induced by imidacloprid and its metabolites in Apis mellifera." Environmental toxicology and chemistry 20.11 (2001): 2482-2486.



42.   Suryanarayanan, Sainath. "Balancing Control and Complexity in Field Studies of Neonicotinoids and Honey Bee Health." Insects 4.1 (2013): 153-167.



43.   Tan, Ken, et al. "Fearful Foragers: Honey Bees Tune Colony and Individual Foraging to Multi-Predator Presence and Food Quality." PloS one 8.9 (2013): e75841.



44.   Tapparo, Andrea, et al. "Assessment of the environmental exposure of honeybees to particulate matter containing neonicotinoid insecticides coming from corn coated seeds." Environmental science & technology 46.5 (2012): 2592-2599.



45.   Tapparo, Andrea, et al. "UHPLC-DAD method for the determination of neonicotinoid insecticides in single bees and its relevance in honeybee colony loss investigations." Analytical and bioanalytical chemistry 405.2-3 (2013): 1007-1014.



46.   Taylor, Kevin S., Gordon D. Waller, and Larry A. Crowder. "Impairment of a classical conditioned response of the honey bee (Apis mellifera L.) by sublethal doses of synthetic pyrethroid insecticides." Apidologie 18.3 (1987): 243-252.



47.   Teeters, Bethany S., Johnson, Reed M., Ellis, Marion D., and Blair D. Siegfried.  (2012)  Using video-tracking to assess sublethal effects of pesticides on honey bees (Apis mellifera L.)  Environmental Toxicology and Chemistry, 31:6, 1349-1354.



48.   term impact on honey bees." Journal of Economic Entomology 100.3 (2007): 765-772.



49.   Thany, Steeve Herve, ed. Insect nicotinic acetylcholine receptors. Vol. 683. Springer, 2010.



50.   Thomazoni, Danielle, et al. "Selectivity of insecticides for adult workers of Apis mellifera (Hymenoptera: Apidae)." Revista Colombiana de Entomología 35.2 (2009): 173-176.



51.   Thompson, Helen M. "Behavioural effects of pesticides in bees–their potential for use in risk assessment." Ecotoxicology 12.1-4 (2003): 317-330.



52.   Todd, FRANK E., and S. E. McGregor. "The use of honey bees in the production of crops." Annual Review of entomology 5.1 (1960): 265-278.



53.   Tomizawa, Motohiro, and John E. Casida. "Neonicotinoid insecticides: highlights of a symposium on strategic molecular designs." Journal of Agricultural and Food Chemistry 59.7 (2010): 2883-2886.



54.   Tremolada, Paolo, et al. "Predicting pesticide fate in the hive (part 2): development of a dynamic hive model." Apidologie 42.4 (2011): 439-456.



55.   Umpiérrez, María Laura, et al. "Essential oil from Eupatorium buniifolium leaves as potential varroacide." Parasitology research 112.10 (2013): 3389-3400.



56.   van der Sluijs, Jeroen P., et al. "Neonicotinoids, bee disorders and the sustainability of pollinator services." Current Opinion in Environmental Sustainability (2013).



57.   van Praagh, Jacob P., and Egbert Touw. "Scanning & analysing individual bee (Apis mellifera L.) behavior using RFID." Julius-Kühn-Archiv 437 (2012): 99.



58.   Vanbergen, Adam J., and the Insect Pollinators Initiative. "Threats to an ecosystem service: pressures on pollinators." Frontiers in Ecology and the Environment 11.5 (2013): 251-259.



59.   Vidau C., M. Diogon, J. Aufauvre, R. Fontbonne, B. Vigués, J.-L. Brunet, C. Texier, D.G. Biron, N. Blot, H. El Alaoui, L.P. Belzunces, F. Delbac. (2011). Exposure to Sublethal Doses of Fipronil and Thiacloprid Highly Increases Mortality of Honeybees Previously Infected by Nosema ceranae. PLoS ONE 6(6): e21550.



60.   Viik, Eneli. The Impact of Spring Oilseed Rape Fertilization and Pesticide Application on Bees (Apoidea). Diss. 2012.



61.   Wagnitz, Jeremy J., and Marion D. Ellis. "The Effect Of Oxalic Acid On Honey Bee Queens." Science Of Bee Culture (2010): 8.



62.   Weick, Jason, and Robert S. Thorn. "Effects of acute sublethal exposure to coumaphos or diazinon on acquisition and discrimination of odor stimuli in the honey bee (Hymenoptera: Apidae)." Journal of economic entomology 95.2 (2002): 227-236.



63.   Whitehorn, P. R., S. O'Connor, F. L. Wackers and D. Goulson (2012). Neonicotinoid pesticide reduces bumblebee colony growth and queen production. Science 336: 351-352.



64.   Williamson, S. M., C. Moffat, M. A. E. Gomersall, N. Saranzewa, C. N. Connolly and G. A. Wright (2013). Exposure to acetylcholinesterase inhibitors alters the physiology and motor function of honeybees. Frontiers in Physiology 4: 13. doi:10.3389/fphys.2013.00013



65.   Williamson, Sally M., and Geraldine A. Wright. "Exposure to multiple cholinergic pesticides impairs olfactory learning and memory in honeybees." The Journal of experimental biology 216.10 (2013): 1799-1807.



66.   Williamson, Sally M., Daniel D. Baker, and Geraldine A. Wright. "Acute exposure to a sublethal dose of imidacloprid and coumaphos enhances olfactory learning and memory in the honeybee Apis mellifera." Invertebrate Neuroscience (2012): 1-8.



67.   Wilson, Elizabeth K. "Pesticides Harm Hive Behavior." (2012): 10-10. cen.acs.org



68.   Wu, Judy Y., et al. "Honey bees (< i> Apis mellifera</i>) reared in brood combs containing high levels of pesticide residues exhibit increased susceptibility to< i> Nosema</i>(Microsporidia) infection." Journal of Invertebrate Pathology 109.3 (2012): 326-329.



69.   Wu, Judy Yu. Sub-lethal Effects of Pesticide Residues in Brood Comb on Worker Honey Bees (Apis Mellifera L.). Diss. Washington State University, 2010.



70.   xxxxxBelzunces, L P; Le Conte, Y (2009) Interactions between Nosema microspores and a neonicotinoid weaken honey bees (Apis mellifera). Journal of Environmental Microbiology 12(3): 774-782. doi: 10.1111/j.1462-2920.2009.02123.x.



71.   XXXXXElbert, A., and A. Nauen. "New applications for neonicotinoid insecticides using imidacloprid as an example." Insect Pest Management. Springer Berlin Heidelberg, 2004. 29-44.



72.   Yang, E. C., et al. "Abnormal foraging behavior induced by sublethal dosage of imidacloprid in the honey bee (Hymenoptera: Apidae)." Journal of economic entomology 101.6 (2008): 1743-1748.



73.   Yang, En-Cheng, et al. "Impaired olfactory associative behavior of honeybee workers due to contamination of imidacloprid in the larval stage." PloS one 7.11 (2012): e49472.



74.   Yoder, Jay A., et al. "Fungicide contamination reduces beneficial fungi in bee bread based on an area-wide field study in honey bee, Apis mellifera, colonies." Journal of Toxicology and Environmental Health, Part A 76.10 (2013): 587-600.



75.   Zhu, Wanyi. ASSESSING IMPACTS OF PESTICIDES AND OTHER STRESSORS ON HONEY BEE COLONY HEALTH: EXPERIMENTAL AND MODELING APPROACHES. Diss. The Pennsylvania State University, 2013.



76.   Zirbes, Lara, et al. "Hydroxymethylfurfural: a possible emergent cause of honey bee mortality?." Journal of agricultural and food chemistry (2013).



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