Neviditelná cesta reziduí včelím úlem - literatura
Literatura k článku Neviditelná cesta reziduí včelím úlem.
- .. Bernal J., Garrido-Bailón E., Del Nozal M.J. et al. 2010. Overview of Pesticide Residues in Stored Pollen and Their Potential Effect on Bee Colony (Apis mellifera) Losses in Spain. Journal of Economic Entomology 103: 1964-1971.
- . Bokšová A., Kazda J., Stejskalová M. et al. 2021. Findings of Herbicide and Fungicide Residues in Beebread. Plant, Soil and Environment 67: 343-352.
- . Brunet J. & Fragoso F.P. 2024. What are the main reasons for the worldwide decline in pollinator populations 19: 1.
- . Calatayud-Vernich P., Calatayud F., Simó E. et al. 2018. Pesticide residues in honey bees, pollen and beeswax: Assessing beehive exposure. Environmental Pollution 241: 106-114.
- . Capela N., Xu M., Simões S. et al. 2022. Exposure and Risk Assessment of Acetamiprid in Honey Bee Colonies under a Real Exposure Scenario in Eucalyptus Sp. landscape. Science of the Total Environment 840: 156485.
- . Colla S.R., Otterstatter M.C., Gegear R.J. et al. 2006. Plight of the bumble bee: Pathogen spillover from commercial to wild populations. Biological Conservation 129: 416-467.
- . Di Pasquale G., Salignon M., Le Conte Y. et al. 2013. Influence of pollen nutrition on honey bee health: do pollen quality and diversity matter? Plos One 8: e72016.
- . Erban T., Markovic M., Sopko B. 2024. Sublethal Acetamiprid Exposure Induces Immunity, Suppresses Pathways Linked to Juvenile Hormone Synthesis in Queens and Affects Cycle-Related Signaling in Emerging Bees. Environmental Pollution 349: 123901.
- . FAOSTAT. 2013. Dataset 2013. Available online: http://faostat.fao.org (accessed 13.09.2016).
- 0. Fine J.D., Foster L.J., McAfee, A. 2023. Indirect exposure to insect growth disruptors affects honey bee (Apis mellifera) reproductive behaviors and ovarian protein expression. Plos One 18(10): e0292176.
- . Klein A.M., Vaissière B.E., Cane J.H. et al. 2007. Importance of pollinators in changing landscapes for world crops. Proceedings of the Royal Society B 274(1608): 303-313.
- . Laurent M., Hendrikx P., Ribiere-Chabert M. et al. 2015. A pan-European epidemiological study on honeybee colony losses 2012-2014: 44 pp.
- . Murray M.C., Coffey M.F., Kehoe E. et al. 2013. Pathogen prevalence in commercially reared bumble bees and evidence of spillover in conspecific populations. Biological Conservation 159: 269-276.
- Ollerton J., Winfree, R., Tarrant, S. 2011. How many flowering plants are pollinated by animals? Oikos 120: 321-326.
- . Piechowicz B., Szpyrka E., Zaręba L. et al. 2018. Transfer of the Active Ingredients of Some Plant Protection Products from Raspberry Plants to Beehives. Archives of Environmental Contamination and Toxicology 75: 45-58.
- . Porrini C., Sabatini A.G., Girotti S. et al. 2003. The death of honey bees and environmental pollution by pesticides: the honey bees as biological indicators. Bulletin of Insectology 56(1): 147-152
- . . Principles, data, gaps and perspective from the European Food Safety Authority. Science of the Total Environment 587-588: 524-537.
- . Rortais A., Arnold G., Dorne J.-L. et al. 2017. Risk assessment of pesticides and other stressors in bees:
- . - Saadia H., Raj Karki P., Afroz M. et al. 2024. The Exposure of Pescticides to Honeybees: A Global Threat to Food Security. OnLine Journal of Biological Sciences 24: 232-243.
- . Scofield H.N. & Mattila H.R. 2015. Honey bee workers that are pollen stressed as larvae become poor foragers and waggle dancers as adults. Plos One 10: e0121731.
- . Shi J., Liao C., Wang, Z. et al. 2019. Effects of Sublethal Acetamiprid Doses on the Lifespan and Memory-Related Characteristics of Honey Bee (Apis mellifera) Workers. Apidologie 50: 553-563.
- . .Steinhauer N., Rennich K., Caron D.M. et al. 2016. Colony loss 2015-2016: preliminary results.
- . Wen X., Ma C., Sun M. et al. 2021. Pesticide Residues in the Pollen and Nectar of Oilseed Rape (Brassica Napus L) and Their Potential Risks to Honey Bees. Science of the Total Environment 786: 147443.