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William G. Meikle, John J. Adamczyk, Milagra Weiss, et al.
PLOS ONE 11 (12) e0168603 (2016)
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APIStrip, a new tool for environmental contaminant sampling through honeybee colonies

María Murcia-Morales, Jozef J.M. Van der Steen, Flemming Vejsnæs, Francisco José Díaz-Galiano, José Manuel Flores and Amadeo R. Fernández-Alba
Science of The Total Environment 729 138948 (2020)
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A demographic approach to evaluating the impact of stressors on bumble bee colonies

Ecological Entomology 42 (2) 221 (2017)
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Hybrid quadrupole-orbitrap mass spectrometry analysis with accurate-mass database and parallel reaction monitoring for high-throughput screening and quantification of multi-xenobiotics in honey

Yi Li, Jinzhen Zhang, Yue Jin, et al.
Journal of Chromatography A 1429 119 (2016)
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Biopesticide-induced behavioral and morphological alterations in the stingless bee Melipona quadrifasciata

Wagner F. Barbosa, Hudson Vaner V. Tomé, Rodrigo C. Bernardes, et al.
Environmental Toxicology and Chemistry 34 (9) 2149 (2015)
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Agricultural pesticide residues in honey and wax combs from Southeastern, Central and Northeastern Mexico

Cesar Valdovinos-Flores, Víctor M Alcantar-Rosales, Octavio Gaspar-Ramírez, Luz M Saldaña-Loza and José A Dorantes-Ugalde
Journal of Apicultural Research 56 (5) 667 (2017)
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Lethal and sublethal effects of insecticides on Engytatus varians (Heteroptera: Miridae), a predator of Tuta absoluta (Lepidoptera: Gelechiidae)

Daniel Alberto Pérez-Aguilar, Marianne Araújo Soares, Luis Clepf Passos, et al.
Ecotoxicology 27 (6) 719 (2018)
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Thiamethoxam: Assessing flight activity of honeybees foraging on treated oilseed rape using radio frequency identification technology

Helen Thompson, Mike Coulson, Natalie Ruddle, Selwyn Wilkins and Sarah Harkin
Environmental Toxicology and Chemistry 35 (2) 385 (2016)
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Farkhanda Manzoor and Mahnoor Pervez
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Concentrations of imidacloprid and thiamethoxam in pollen, nectar and leaves from seed-dressed cotton crops and their potential risk to honeybees (Apis mellifera L.)

Jiangong Jiang, Dicheng Ma, Nan Zou, et al.
Chemosphere 201 159 (2018)
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Simultaneous determination of neonicotinoid insecticides in sunflower-treated seeds (hull and kernel) by LC-MS/MS

Laura Sánchez-Hernández, Mariano Higes, María T. Martín, María J. Nozal and José L. Bernal
Food Additives & Contaminants: Part A 33 (3) 442 (2016)
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Pesticide residue survey of pollen loads collected by honeybees (Apis mellifera) in daily intervals at three agricultural sites in South Germany

Franziska Böhme, Gabriela Bischoff, Claus P. W. Zebitz, et al.
PLOS ONE 13 (7) e0199995 (2018)
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Standard methods for toxicology research in Apis mellifera

Piotr Medrzycki, Hervé Giffard, Pierrick Aupinel, et al.
Journal of Apicultural Research 52 (4) 1 (2013)
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Foraging bumblebees acquire a preference for neonicotinoid-treated food with prolonged exposure

Andres N. Arce, Ana Ramos Rodrigues, Jiajun Yu, et al.
Proceedings of the Royal Society B: Biological Sciences 285 (1885) 20180655 (2018)
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Vine and citrus mealybug pest control based on synthetic chemicals. A review

Ramzi Mansour, Luc P. Belzunces, Pompeo Suma, et al.
Agronomy for Sustainable Development 38 (4) (2018)
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Interaction between pesticides and other factors in effects on bees

Helen M Thompson
EFSA Supporting Publications 9 (9) (2012)
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Neonicotinoid concentrations in UK honey from 2013

Ainsley Jones and Gordon Turnbull
Pest Management Science 72 (10) 1897 (2016)
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The dose makes the poison: have “field realistic” rates of exposure of bees to neonicotinoid insecticides been overestimated in laboratory studies?

Norman L Carreck and Francis L W Ratnieks
Journal of Apicultural Research 53 (5) 607 (2014)
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An energetics-based honeybee nectar-foraging model used to assess the potential for landscape-level pesticide exposure dilution

Johannes M. Baveco, Andreas Focks, Dick Belgers, et al.
PeerJ 4 e2293 (2016)
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Four Common Pesticides, Their Mixtures and a Formulation Solvent in the Hive Environment Have High Oral Toxicity to Honey Bee Larvae

Wanyi Zhu, Daniel R. Schmehl, Christopher A. Mullin, James L. Frazier and Wolfgang Blenau
PLoS ONE 9 (1) e77547 (2014)
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Using a Hazard Quotient to Evaluate Pesticide Residues Detected in Pollen Trapped from Honey Bees (Apis mellifera) in Connecticut

Kimberly A. Stoner, Brian D. Eitzer and Miguel Lopez-Ferber
PLoS ONE 8 (10) e77550 (2013)
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Flower strip networks offer promising long term effects on pollinator species richness in intensively cultivated agricultural areas

Constanze Buhk, Rainer Oppermann, Arno Schanowski, et al.
BMC Ecology 18 (1) (2018)
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Thiamethoxam honey bee colony feeding study: Linking effects at the level of the individual to those at the colony level

Jay Overmyer, Max Feken, Natalie Ruddle, et al.
Environmental Toxicology and Chemistry 37 (3) 816 (2018)
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Developing European conservation and mitigation tools for pollination services: approaches of the STEP (Status and Trends of European Pollinators) project

Simon G Potts, Jacobus C Biesmeijer, Riccardo Bommarco, et al.
Journal of Apicultural Research 50 (2) 152 (2011)
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Transfer Assessment of Carbendazim Residues from Rape Flowers to Apicultural Products

Ying-Hong Li, Bei-Lei Zhou, Ming-Rong Qian, Qiang Wang and Hu Zhang
Journal of Analytical Methods in Chemistry 2017 1 (2017)
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Imidacloprid-induced oxidative stress in honey bees and the antioxidant action of caffeine

Kamila Vilas Boas Balieira, Meiriele Mazzo, Paulo Francisco Veiga Bizerra, et al.
Apidologie 49 (5) 562 (2018)
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Pesticide residues in honey bees, pollen and beeswax: Assessing beehive exposure

Pau Calatayud-Vernich, Fernando Calatayud, Enrique Simó and Yolanda Picó
Environmental Pollution 241 106 (2018)
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Larval Exposure to the Juvenile Hormone Analog Pyriproxyfen Disrupts Acceptance of and Social Behavior Performance in Adult Honeybees

Julie Fourrier, Matthieu Deschamps, Léa Droin, et al.
PLOS ONE 10 (7) e0132985 (2015)
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Spatial and Temporal Trends of Global Pollination Benefit

Sven Lautenbach, Ralf Seppelt, Juliane Liebscher, Carsten F. Dormann and Jeff Ollerton
PLoS ONE 7 (4) e35954 (2012)
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Using BEEHAVE to explore pesticide protection goals for European honeybee (Apis melifera L.) worker losses at different forage qualities

Pernille Thorbek, Peter J. Campbell, Paul J. Sweeney and Helen M. Thompson
Environmental Toxicology and Chemistry 36 (1) 254 (2017)
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Repression and Recuperation of Brood Production in Bombus terrestris Bumble Bees Exposed to a Pulse of the Neonicotinoid Pesticide Imidacloprid

Ian Laycock, James E. Cresswell and Nicolas Desneux
PLoS ONE 8 (11) e79872 (2013)
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Mechanistic modeling of pesticide exposure: The missing keystone of honey bee toxicology

Douglas B. Sponsler and Reed M. Johnson
Environmental Toxicology and Chemistry 36 (4) 871 (2017)
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Distributions of imidacloprid, imidacloprid-olefin and imidacloprid-urea in green plant tissues and roots of rapeseed (Brassica napus ) from artificially contaminated potting soil

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Pest Management Science 73 (5) 1010 (2017)
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The exposure of honey bees ( Apis mellifera ; Hymenoptera: Apidae) to pesticides: Room for improvement in research

Johanna Benuszak, Marion Laurent and Marie-Pierre Chauzat
Science of The Total Environment 587-588 423 (2017)
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Methods in Ecology and Evolution 8 (11) 1468 (2017)
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A Mathematical Model of Forager Loss in Honeybee Colonies Infested with Varroa destructor and the Acute Bee Paralysis Virus

Vardayani Ratti, Peter G. Kevan and Hermann J. Eberl
Bulletin of Mathematical Biology 79 (6) 1218 (2017)
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Bee++: An Object-Oriented, Agent-Based Simulator for Honey Bee Colonies

Matthew Betti, Josh LeClair, Lindi Wahl and Mair Zamir
Insects 8 (1) 31 (2017)
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Unique features of flight muscles mitochondria of honey bees ( Apis mellifera L.)

Mikhail Y. Syromyatnikov, Artem P. Gureev, Inna Y. Vitkalova, Anatoly A. Starkov and Vasily N. Popov
Archives of Insect Biochemistry and Physiology 102 (1) (2019)
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The effect of carbohydrate sources: Sucrose, invert sugar and components of mānuka honey, on core bacteria in the digestive tract of adult honey bees (Apis mellifera)

Michelle A. Taylor, Alastair W. Robertson, Patrick J. Biggs, et al.
PLOS ONE 14 (12) e0225845 (2019)
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Honey bee colony performance affected by crop diversity and farmland structure: a modeling framework

Juliane Horn, Matthias A. Becher, Karin Johst, et al.
Ecological Applications 31 (1) (2021)
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Tjeerd Blacquière and Jozef JM van der Steen
Pest Management Science 73 (7) 1299 (2017)
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Pollination Biology

Dharam P. Abrol
Pollination Biology 545 (2012)
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Insects 10 (9) 280 (2019)
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Statement on the findings in recent studies investigating sub‐lethal effects in bees of some neonicotinoids in consideration of the uses currently authorised in Europe

EFSA Journal 10 (6) 2752 (2012)
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Evaluating exposure and potential effects on honeybee brood ( Apis mellifera ) development using glyphosate as an example

Helen M Thompson, Steven L Levine, Janine Doering, et al.
Integrated Environmental Assessment and Management 10 (3) 463 (2014)
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Toxicity of thiametoxam on in vitro reared honey bee brood

Giacomo Grillone, Daniela Laurino, Aulo Manino and Marco Porporato
Apidologie 48 (5) 635 (2017)
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Combined Effects of Pesticides and Electromagnetic-Fields on Honeybees: Multi-Stress Exposure

Daniela Lupi, Marco Palamara Mesiano, Agnese Adani, Roberto Benocci, Roberto Giacchini, Paolo Parenti, Giovanni Zambon, Antonio Lavazza, Maria Beatrice Boniotti, Stefano Bassi, Mario Colombo and Paolo Tremolada
Insects 12 (8) 716 (2021)
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Evaluation of Highly Detectable Pesticides Sprayed in Brassica napus L.: Degradation Behavior and Risk Assessment for Honeybees

Zhou Tong, Jinsheng Duan, Yancan Wu, et al.
Molecules 23 (10) 2482 (2018)
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Botanical Origin of Pesticide Residues in Pollen Loads Collected by Honeybees During and After Apple Bloom

Riccardo Favaro, Lisbeth Marie Bauer, Michele Rossi, et al.
Frontiers in Physiology 10 (2019)
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Thiamethoxam’ın Yapay Çiçeklerde Seçenekli Olarak Verildiğinde Yayılmacı Arıların Davaranışı Üzerindeki Etkileri

İbrahim ÇAKMAK
Uludağ Arıcılık Dergisi 2 (2018)
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Bingöl İlinde Yaşanan Koloni Kayıpları (Arı Ölümleri), Nedenleri ve Öneriler

Mehmet Ali KUTLU
Türk Tarım ve Doğa Bilimleri Dergisi (2020)
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Honey Bees’ Behavior Is Impaired by Chronic Exposure to the Neonicotinoid Thiacloprid in the Field

Léa Tison, Marie-Luise Hahn, Sophie Holtz, Alexander Rößner, Uwe Greggers, Gabriela Bischoff and Randolf Menzel
Environmental Science & Technology 50 (13) 7218 (2016)
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Effect of Sub-lethal Doses of Imidacloprid on Learning and Memory Formation of Indigenous Arabian Bee (Apis mellifera jemenitica Ruttner) Adult Foragers

J Iqbal, A S Alqarni and H S A Raweh
Neotropical Entomology 48 (3) 373 (2019)
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Single and interactive effects of Varroa destructor , Nosema spp., and imidacloprid on honey bee colonies (Apis mellifera )

Coby van Dooremalen, Bram Cornelissen, Chula Poleij-Hok-Ahin and Tjeerd Blacquière
Ecosphere 9 (8) e02378 (2018)
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Effects of coumaphos and imidacloprid on honey bee (Hymenoptera: Apidae) lifespan and antioxidant gene regulations in laboratory experiments

Ales Gregorc, Mohamed Alburaki, Nicholas Rinderer, et al.
Scientific Reports 8 (1) (2018)
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Forager bees (Apis mellifera) highly express immune and detoxification genes in tissues associated with nectar processing

Rachel L. Vannette, Abbas Mohamed and Brian R. Johnson
Scientific Reports 5 (1) 16224 (2015)
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Chemical residues in beebread, honey, pollen and wax samples collected from bee hives placed on canola crops in Western Australia

Rob Manning
Journal of Apicultural Research 57 (5) 696 (2018)
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Repellent effects of insecticides on Stephanitis pyrioides Scott (Hemiptera: Tingidae) under laboratory conditions

Shimat V. Joseph
Crop Protection 127 104985 (2020)
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Thiamethoxam: Long-term effects following honey bee colony-level exposure and implications for risk assessment

Helen Thompson, Jay Overmyer, Max Feken, et al.
Science of The Total Environment 654 60 (2019)
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Effect of acute pesticide exposure on bee spatial working memory using an analogue of the radial-arm maze

Elizabeth E. W. Samuelson, Zachary P. Chen-Wishart, Richard J. Gill and Ellouise Leadbeater
Scientific Reports 6 (1) 38957 (2016)
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Chronic toxicity of clothianidin, imidacloprid, chlorpyrifos, and dimethoate to Apis mellifera L. larvae reared in vitro

Pingli Dai, Cameron J Jack, Ashley N Mortensen, et al.
Pest Management Science 75 (1) 29 (2019)
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Workshop on Pesticide Exposure Assessment Paradigm for Non-Apis Bees: Foundation and Summaries

Natalie K Boyle, Theresa L Pitts-Singer, John Abbott, et al.
Environmental Entomology 48 (1) 4 (2019)
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Pesticide Exposure Assessment Paradigm for Solitary Bees

Fabio Sgolastra, Silvia Hinarejos, Theresa L Pitts-Singer, et al.
Environmental Entomology 48 (1) 22 (2019)
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Alterations in honey bee gut microorganisms caused by Nosema spp. and pest control methods

Tsiri Diaz, Ek del-Val, Ricardo Ayala and John Larsen
Pest Management Science 75 (3) 835 (2019)
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Non-Apis Bee Exposure Workshop: Industry Participants’ View

Silvia Hinarejos, John Abbott, Anne Alix, et al.
Environmental Entomology 48 (1) 49 (2019)
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Comparison of Pesticide Exposure in Honey Bees (Hymenoptera: Apidae) and Bumble Bees (Hymenoptera: Apidae): Implications for Risk Assessments

Angela E Gradish, Jozef van der Steen, Cynthia D Scott-Dupree, et al.
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Residues of Pesticides in Honeybee (Apis mellifera carnica) Bee Bread and in Pollen Loads from Treated Apple Orchards

Maja Ivana Smodiš Škerl, Špela Velikonja Bolta, Helena Baša Česnik and Aleš Gregorc
Bulletin of Environmental Contamination and Toxicology 83 (3) 374 (2009)
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Biodiversity, conservation and current threats to European honeybees

Pilar De la Rúa, Rodolfo Jaffé, Raffaele Dall'Olio, Irene Muñoz and José Serrano
Apidologie 40 (3) 263 (2009)
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Spinosad-mediated effects in the post-embryonic development of Partamona helleri (Hymenoptera: Apidae: Meliponini)

Renan dos Santos Araujo, Rodrigo Cupertino Bernardes, Kenner Morais Fernandes, et al.
Environmental Pollution 253 11 (2019)
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Silent effect of the fungicide pyraclostrobin on the larval exposure of the non-target organism Africanized Apis mellifera and its interaction with the pathogen Nosema ceranae in adulthood

Rafaela Tadei, Vanessa B. Menezes-Oliveira and Elaine C.M. Silva-Zacarin
Environmental Pollution 267 115622 (2020)
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Cytotoxic effects on the midgut, hypopharyngeal, glands and brain of Apis mellifera honey bee workers exposed to chronic concentrations of lambda-cyhalothrin

Mayara Badaró Arthidoro de Castro, Luis Carlos Martinez, Jamile Fernanda Silva Cossolin, Raissa Santana Serra and José Eduardo Serrão
Chemosphere 248 126075 (2020)
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Nutrition and health in honey bees

Robert Brodschneider and Karl Crailsheim
Apidologie 41 (3) 278 (2010)
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A novel method for assessing risks to pollinators from plant protection products using honeybees as a model species

Stefania Barmaz, Simon G. Potts and Marco Vighi
Ecotoxicology 19 (7) 1347 (2010)
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Quantification of toxins in a Cry1Ac + CpTI cotton cultivar and its potential effects on the honey bee Apis mellifera L.

Peng Han, Chang-Ying Niu, Chao-Liang Lei, Jin-Jie Cui and Nicolas Desneux
Ecotoxicology 19 (8) 1452 (2010)
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PP 3/10 (3): Chapter 10: honeybees

EPPO Bulletin 40 (3) 323 (2010)
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Modeling Effects of Honeybee Behaviors on the Distribution of Pesticide in Nectar within a Hive and Resultant in-Hive Exposure

Jack C. O. Rumkee, Matthias A. Becher, Pernille Thorbek and Juliet L. Osborne
Environmental Science & Technology 51 (12) 6908 (2017)
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The novel pesticide flupyradifurone (Sivanto) affects honeybee motor abilities

Hannah Hesselbach and Ricarda Scheiner
Ecotoxicology 28 (3) 354 (2019)
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Chronic exposure of bumblebees to neonicotinoid imidacloprid suppresses the entire mevalonate pathway and fatty acid synthesis

Tomas Erban, Bruno Sopko, Pavel Talacko, et al.
Journal of Proteomics 196 69 (2019)
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Insect Nicotinic Acetylcholine Receptors

Axel Decourtye and James Devillers
Advances in Experimental Medicine and Biology, Insect Nicotinic Acetylcholine Receptors 683 85 (2010)
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Tracking Pesticide Residues to a Plant Genus Using Palynology in Pollen Trapped from Honey Bees (Hymenoptera: Apidae) at Ornamental Plant Nurseries

Kimberly A Stoner, Richard S Cowles, Andrea Nurse and Brian D Eitzer
Environmental Entomology 48 (2) 351 (2019)
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Bruceine D Isolated from Brucea Javanica (L.) Merr. as a Systemic Feeding Deterrent for Three Major Lepidopteran Pests

Genlin Mao, Yongqing Tian, Zheng Sun, Jianlin Ou and Hanhong Xu
Journal of Agricultural and Food Chemistry 67 (15) 4232 (2019)
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A neonicotinoid impairs olfactory learning in Asian honey bees (Apis cerana) exposed as larvae or as adults

Ken Tan, Weiwen Chen, Shihao Dong, et al.
Scientific Reports 5 (1) 10989 (2015)
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Bumblebee learning and memory is impaired by chronic exposure to a neonicotinoid pesticide

Dara A. Stanley, Karen E. Smith and Nigel E. Raine
Scientific Reports 5 (1) 16508 (2015)
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Measurement of protein and sugar consumed by bumblebee larvae under standard and food stress conditions using lanthanide complexes

L. Macháčková, A. Votavová, M. Mikát, et al.
Insectes Sociaux 66 (2) 245 (2019)
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Can the exposure of Apis mellifera (Hymenoptera, Apiadae) larvae to a field concentration of thiamethoxam affect newly emerged bees?

Priscila Sepúlveda Friol, Aline Fernanda Catae, Daiana Antonia Tavares, Osmar Malaspina and Thaisa Cristina Roat
Chemosphere 185 56 (2017)
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Occurrence of agrochemical residues in beeswax samples collected in Italy during 2013–2015

Monia Perugini, Serena M.R. Tulini, Daniela Zezza, et al.
Science of The Total Environment 625 470 (2018)
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Contribution of honeybees towards the net environmental benefits of food

Jani Sillman, Ville Uusitalo, Tuire Tapanen, et al.
Science of The Total Environment 756 143880 (2021)
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Sensitivity analyses for simulating pesticide impacts on honey bee colonies

A. Carmen Kuan, Gloria DeGrandi-Hoffman, Robert J. Curry, et al.
Ecological Modelling 376 15 (2018)
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Probabilistic assessment of nectar requirements for nectar-foraging honey bees

Sara Rodney and Vincent J. Kramer
Apidologie 51 (2) 180 (2020)
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Fungicide and insecticide exposure adversely impacts bumblebees and pollination services under semi-field conditions

Giovanni Tamburini, Maria-Helena Pereira-Peixoto, Jonas Borth, Simon Lotz, Dimitry Wintermantel, Matthew J. Allan, Robin Dean, Janine Melanie Schwarz, Anina Knauer, Matthias Albrecht and Alexandra‑Maria Klein
Environment International 157 106813 (2021)
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Monitoring the Field-Realistic Exposure of Honeybee Colonies to Neonicotinoids by An Integrative Approach: A Case Study in Romania

Eliza Căuia, Adrian Siceanu, Gabriela Oana Vișan, et al.
Diversity 12 (1) 24 (2020)
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Potential Impacts of Translocation of Neonicotinoid Insecticides to Cotton (Gossypium hirsutum (Malvales: Malvaceae)) Extrafloral Nectar on Parasitoids

Gary W Felton, John F Tooker, Kirsten Pearsons, et al.
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Field-relevant doses of the systemic insecticide fipronil and fungicide pyraclostrobin impair mandibular and hypopharyngeal glands in nurse honeybees (Apis mellifera)

Rodrigo Zaluski, Luis Antonio Justulin and Ricardo de Oliveira Orsi
Scientific Reports 7 (1) (2017)
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Combined nutritional stress and a new systemic pesticide (flupyradifurone, Sivanto®) reduce bee survival, food consumption, flight success, and thermoregulation

Linda Tong, James C. Nieh and Simone Tosi
Chemosphere 237 124408 (2019)
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Chronic exposure to the pesticide flupyradifurone can lead to premature onset of foraging in honeybees Apis mellifera

Hannah Hesselbach, Johannes Seeger, Felix Schilcher, et al.
Journal of Applied Ecology 57 (3) 609 (2020)
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Sulfoxaflor Residues in Pollen and Nectar of Cotton Applied through Drip Irrigation and Their Potential Exposure to Apis mellifera L.

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Neonicotinoid use on cereals and sugar beet is linked to continued low exposure risk in honeybees

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DOI: 10.1016/j.agee.2020.107205
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The Airflow Field Characteristics of the Unmanned Agricultural Aerial System on Oilseed Rape (Brassica napus) Canopy for Supplementary Pollination

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Agronomy 11 (10) 2035 (2021)
DOI: 10.3390/agronomy11102035
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Characterizing honey bee exposure and effects from pesticides for chemical prioritization and life cycle assessment

Eleonora Crenna, Olivier Jolliet, Elena Collina, Serenella Sala and Peter Fantke
Environment International 138 105642 (2020)
DOI: 10.1016/j.envint.2020.105642
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Honeybee and consumer’s exposure and risk characterisation to glyphosate-based herbicide (GBH) and its degradation product (AMPA): Residues in beebread, wax, and honey

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Science of The Total Environment 704 135312 (2020)
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Ecotoxicological effects of the insecticide fipronil in Brazilian native stingless bees Melipona scutellaris (Apidae: Meliponini)

Cássio Resende de Morais, Bruno Augusto Nassif Travençolo, Stephan Malfitano Carvalho, Marcelo Emílio Beletti, Vanessa Santana Vieira Santos, Carlos Fernando Campos, Edimar Olegário de Campos Júnior, Boscolli Barbosa Pereira, Maria Paula Carvalho Naves, Alexandre Azenha Alves de Rezende, Mário Antônio Spanó, Carlos Ueira Vieira and Ana Maria Bonetti
Chemosphere 206 632 (2018)
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Larvae of stingless bee Scaptotrigona bipunctata exposed to organophosphorus pesticide develop into lighter, smaller and deformed adult workers

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Environmental Pollution 272 116414 (2021)
DOI: 10.1016/j.envpol.2020.116414
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Interactions between pesticides and pathogen susceptibility in honey bees

Scott T O’Neal, Troy D Anderson and Judy Y Wu-Smart
Current Opinion in Insect Science 26 57 (2018)
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Trends in Integrated Insect Pest Management

Muhammad Imran
Trends in Integrated Insect Pest Management (2020)
DOI: 10.5772/intechopen.88814
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Neonicotinoid insecticides in pollen, honey and adult bees in colonies of the European honey bee (Apis mellifera L.) in Egypt

Garry Codling, Yahya Al Naggar, John P. Giesy and Albert J. Robertson
Ecotoxicology 27 (2) 122 (2018)
DOI: 10.1007/s10646-017-1876-2
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Sublethal imidacloprid effects on honey bee flower choices when foraging

Ahmed Karahan, Ibrahim Çakmak, John M. Hranitz, Ismail Karaca and Harrington Wells
Ecotoxicology 24 (9) 2017 (2015)
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Sudden and Prevalent Deaths of Foraging Honey Bees in Early Spring During Sowing of Clothianidin Coated Maize Seeds Between 2013 and 2018 in Turkey

Hasan H. Oruç, Meltem Çayci and Rashad Sariyev
Journal of Apicultural Science 64 (1) 67 (2020)
DOI: 10.2478/jas-2020-0007
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What is the most suitable native bee species from the Neotropical region to be proposed as model-organism for toxicity tests during the larval phase?

Annelise Rosa-Fontana, Adna Suelen Dorigo, Juliana Stephanie Galaschi-Teixeira, Roberta C.F. Nocelli and Osmar Malaspina
Environmental Pollution 265 114849 (2020)
DOI: 10.1016/j.envpol.2020.114849
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Seek and you shall find: An assessment of the influence of the analytical methodologies on pesticide occurrences in honey bee-collected pollen with a systematic review

Gioele Toselli and Fabio Sgolastra
Chemosphere 258 127358 (2020)
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Can anthophilous hover flies (Diptera: Syrphidae) discriminate neonicotinoid insecticides in sucrose solution?

C. Scott Clem, Taylor M. Sparbanie, Alec B. Luro, Alexandra N. Harmon-Threatt and Wolfgang Blenau
PLOS ONE 15 (6) e0234820 (2020)
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Delayed effects of a single dose of a neurotoxic pesticide (sulfoxaflor) on honeybee foraging activity

Lena Barascou, Fabrice Requier, Deborah Sené, Didier Crauser, Yves Le Conte and Cedric Alaux
Science of The Total Environment 805 150351 (2022)
DOI: 10.1016/j.scitotenv.2021.150351
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Floral resources provided by the new energy crop, Silphium perfoliatum L. (Asteraceae)

Anna Lena Mueller, Andrea Biertümpfel, Lennart Friedritz, et al.
Journal of Apicultural Research 59 (2) 232 (2020)
DOI: 10.1080/00218839.2019.1668140
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Pesticide and veterinary drug residues in Belgian beeswax: Occurrence, toxicity, and risk to honey bees

Noëmie El Agrebi, Kirsten Traynor, Olivier Wilmart, et al.
Science of The Total Environment 745 141036 (2020)
DOI: 10.1016/j.scitotenv.2020.141036
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New Risk Assessment Approach for Systemic Insecticides:  The Case of Honey Bees and Imidacloprid (Gaucho)

Marie-Pierre Halm, A. Rortais, G. Arnold, J. N. Taséi and S. Rault
Environmental Science & Technology 40 (7) 2448 (2006)
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Honey Bees and Neonicotinoid‐Treated Corn Seed: Contamination, Exposure, and Effects

Chia‐Hua Lin, Douglas B. Sponsler, Rodney T. Richardson, Harold D. Watters, Donna A. Glinski, W. Matthew Henderson, Jeffrey M. Minucci, E. Henry Lee, S. Thomas Purucker and Reed M. Johnson
Environmental Toxicology and Chemistry 40 (4) 1212 (2021)
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Evaluating the Impact of Post-Emergence Weed Control in Honeybee Colonies Located in Different Agricultural Surroundings

Ivana N. Macri, Diego E. Vázquez, Eduardo A. Pagano, Jorge A. Zavala and Walter M. Farina
Insects 12 (2) 163 (2021)
DOI: 10.3390/insects12020163
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Potential risks from the accumulation of heavy metals in canola plants

Ahmed Ali Romeh
Environmental Science and Pollution Research 28 (37) 52529 (2021)
DOI: 10.1007/s11356-021-14330-6
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Sublethal concentrations of clothianidin affect honey bee colony growth and hive CO2 concentration

William G. Meikle, John J. Adamczyk, Milagra Weiss, et al.
Scientific Reports 11 (1) (2021)
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Effects of sugar feeding supplemented with three plant extracts on some parameters of honey bee colonies

Ahmad A. Al-Ghamdi, Hossam F. Abou-Shaara and Mohammad Javed Ansari
Saudi Journal of Biological Sciences 28 (4) 2076 (2021)
DOI: 10.1016/j.sjbs.2021.02.050
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Evaluation of the expression stability of reference genes in Apis mellifera under pyrethroid treatment

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Scientific Reports 10 (1) (2020)
DOI: 10.1038/s41598-020-73125-w
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Changes in innate immune response and detoxification in Melipona quadrifasciata (Apinae: Meliponini) on oral exposure to azadirachtin and spinosad

Thaís Andrade Viana, Wagner Faria Barbosa, Anete Pedro Lourenço, Weyder Cristiano Santana, Lúcio Oliveira Campos and Gustavo Ferreira Martins
Apidologie 52 (1) 252 (2021)
DOI: 10.1007/s13592-020-00814-w
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The development of the solitary bee Osmia bicornis is affected by some insecticide agrochemicals at environmentally relevant concentrations

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DOI: 10.1016/j.scitotenv.2021.145588
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Plant protection product residues in plant pollen and nectar: A review of current knowledge

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Environmental Research 189 109873 (2020)
DOI: 10.1016/j.envres.2020.109873
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Contaminants as a neglected source of behavioural variation

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Animal Behaviour 88 29 (2014)
DOI: 10.1016/j.anbehav.2013.11.018
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Honeybees fail to discriminate floral scents in a complex learning task after consuming a neonicotinoid pesticide

Julie A. Mustard, Annie Gott, Jennifer Scott, Nancy L. Chavarria and Geraldine A. Wright
Journal of Experimental Biology 223 (5) jeb217174 (2020)
DOI: 10.1242/jeb.217174
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A nicotinic acetylcholine receptor agonist affects honey bee sucrose responsiveness and decreases waggle dancing

Daren M. Eiri and James C. Nieh
Journal of Experimental Biology 215 (12) 2022 (2012)
DOI: 10.1242/jeb.068718
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Exposure to multiple cholinergic pesticides impairs olfactory learning and memory in honeybees

Sally M. Williamson and Geraldine A. Wright
Journal of Experimental Biology 216 (10) 1799 (2013)
DOI: 10.1242/jeb.083931
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Pesticide residues in daily bee pollen samples (April–July) from an intensive agricultural region in Southern Germany

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DOI: 10.1007/s11356-020-12318-2
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A systematic scoping review of the methodological approaches and effects of pesticide exposure on solitary bees

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PLOS ONE 16 (5) e0251197 (2021)
DOI: 10.1371/journal.pone.0251197
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Be(e)coming experts: The controversy over insecticides in the honey bee colony collapse disorder

Sainath Suryanarayanan and Daniel Lee Kleinman
Social Studies of Science 43 (2) 215 (2013)
DOI: 10.1177/0306312712466186
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The effect of diet on Apis mellifera larval susceptibility to Paenibacillus larvae

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DOI: 10.1080/00218839.2020.1727086
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Low Concentration of Quercetin Reduces the Lethal and Sublethal Effects of Imidacloprid on Apis cerana (Hymenoptera: Apidae)

Jialin Liu, Yaying Li, Zihui Zhang, Wenhua Luo, Lan Cao, Huai Liu and Reed Johnson
Journal of Economic Entomology 114 (3) 1053 (2021)
DOI: 10.1093/jee/toab043
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A food-ingested sublethal concentration of thiamethoxam has harmful effects on the stingless bee Melipona scutellaris

Lucas Miotelo, Ana Luiza Mendes dos Reis, Annelise Rosa-Fontana, Jéssica Karina da Silva Pachú, José Bruno Malaquias, Osmar Malaspina and Thaisa Cristina Roat
Chemosphere 288 132461 (2022)
DOI: 10.1016/j.chemosphere.2021.132461
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Beebread consumption by honey bees is fast: results of a six-week field study

Ivo Roessink and Jozef J. M. van der Steen
Journal of Apicultural Research 60 (5) 659 (2021)
DOI: 10.1080/00218839.2021.1915612
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Inferring pesticide toxicity to honey bees from a field‐based feeding study using a colony model and Bayesian inference

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Ecological Applications 31 (8) (2021)
DOI: 10.1002/eap.2442
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Comment on “A Common Pesticide Decreases Foraging Success and Survival in Honey Bees”

James E. Cresswell and Helen M. Thompson
Science 337 (6101) 1453 (2012)
DOI: 10.1126/science.1224618
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A Common Pesticide Decreases Foraging Success and Survival in Honey Bees

Mickaël Henry, Maxime Béguin, Fabrice Requier, Orianne Rollin, Jean-François Odoux, Pierrick Aupinel, Jean Aptel, Sylvie Tchamitchian and Axel Decourtye
Science 336 (6079) 348 (2012)
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Ozone Induces Distress Behaviors in Fig Wasps with a Reduced Chance of Recovery

Maryse Vanderplanck, Benoit Lapeyre, Shéhérazade Lucas and Magali Proffit
Insects 12 (11) 995 (2021)
DOI: 10.3390/insects12110995
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Audrey J. Parish, Danny W. Rice, Vicki M. Tanquary, Jason M. Tennessen and Irene L.G. Newton
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Traces of a neonicotinoid pesticide stimulate different honey bee colony activities, but do not increase colony size or longevity

William G. Meikle, Théotime Colin, John J. Adamczyk, Milagra Weiss and Andrew B. Barron
Ecotoxicology and Environmental Safety 231 113202 (2022)
DOI: 10.1016/j.ecoenv.2022.113202
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Pesticide Residues in Honey from Stingless Bee Melipona Subnitida (Meliponini, Apidae)

Carolina de Gouveia M. D. E. Pinheiro, Fabiano Aurélio D. S. Oliveira, Silvia Catarina S. Oloris, Jean Berg A. da Silva and Benito Soto-Blanco
Journal of Apicultural Science 64 (1) 29 (2020)
DOI: 10.2478/jas-2020-0010
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ApisRAM Formal Model Description

Xiaodong Duan, David Wallis, Fani Hatjina, Noa Simon‐Delso, Annette Bruun Jensen and Christopher John Topping
EFSA Supporting Publications 19 (2) (2022)
DOI: 10.2903/sp.efsa.2022.EN-7184
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Testing the ability of chitosan nanoparticles to improve development and performance of honey bee colonies during early spring

Hossam F. Abou‐Shaara
Entomological Research 52 (4) 214 (2022)
DOI: 10.1111/1748-5967.12579
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Exposure of Larvae to Sublethal Thiacloprid Delays Bee Development and Affects Transcriptional Responses of Newly Emerged Honey Bees

Bin Li, Li Ke, Ai-Rui Li, Qing-Yun Diao, Qiang Wang and Yong-Jun Liu
Frontiers in Insect Science 2 (2022)
DOI: 10.3389/finsc.2022.844957
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Evaluation of the risks for animal health related to the presence of hydroxymethylfurfural (HMF) in feed for honey bees

Laurent Bodin, Jesús del Mazo, Bettina Grasl‐Kraupp, Christer Hogstrand, Jean‐Charles Leblanc, Margherita Bignami, Laurentius (Ron) Hoogenboom, Carlo Stefano Nebbia, Elsa Nielsen, Evangelia Ntzani, Annette Petersen, Dieter Schrenk, Christiane Vleminckx, Heather Wallace, Andreas Focks, Ales Gregorc, Manfred Metzler, Fabio Sgolastra, Simone Tosi, Zsuzsanna Horvath, Alessio Ippolito, Agnes Rortais, Hans Steinkellner, Csaba Szentes and Salomon Sand
EFSA Journal 20 (4) (2022)
DOI: 10.2903/j.efsa.2022.7227
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Is there a risk to honeybees from use of thiamethoxam as a sugar beet seed treatment?

Helen Thompson, Sarah Vaughan, Anne‐Katrin Mahlein, Erwin Ladewig and Christine Kenter
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DOI: 10.1002/ieam.4498
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Fungicides and bees: a review of exposure and risk

Sabrina Rondeau and Nigel E. Raine
Environment International 165 107311 (2022)
DOI: 10.1016/j.envint.2022.107311
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Distribution of chemical residues in the beehive compartments and their transfer to the honeybee brood

María Murcia Morales, María José Gómez Ramos, Piedad Parrilla Vázquez, Francisco José Díaz Galiano, Mar García Valverde, Victoria Gámiz López, José Manuel Flores and Amadeo R. Fernández-Alba
Science of The Total Environment 710 136288 (2020)
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Determination and uptake of abamectin and difenoconazole in the stingless bee Melipona scutellaris Latreille, 1811 via oral and topic acute exposure

Fernanda Scavassa Ribeiro do Prado, Dayana Moscardi dos Santos, Thiessa Maramaldo de Almeida Oliveira, José Augusto Micheletti Burgarelli, Janete Brigante Castele and Eny Maria Vieira
Environmental Pollution 265 114313 (2020)
DOI: 10.1016/j.envpol.2020.114313
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Honey bee symbiont buffers larvae against nutritional stress and supplements lysine

Audrey J. Parish, Danny W. Rice, Vicki M. Tanquary, Jason M. Tennessen and Irene L. G. Newton
The ISME Journal (2022)
DOI: 10.1038/s41396-022-01268-x
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Exposure of larvae to thiamethoxam affects the survival and physiology of the honey bee at post-embryonic stages

Daiana Antonia Tavares, Claudia Dussaubat, André Kretzschmar, Stephan Malfitano Carvalho, Elaine C.M. Silva-Zacarin, Osmar Malaspina, Géraldine Bérail, Jean-Luc Brunet and Luc P. Belzunces
Environmental Pollution 229 386 (2017)
DOI: 10.1016/j.envpol.2017.05.092
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Apis mellifera and Melipona scutellaris exhibit differential sensitivity to thiamethoxam

Lucas Miotelo, Ana Luiza Mendes dos Reis, José Bruno Malaquias, Osmar Malaspina and Thaisa Cristina Roat
Environmental Pollution 268 115770 (2021)
DOI: 10.1016/j.envpol.2020.115770
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