This work is licensed under the Creative Commons Attribution 4.0 International License.
Aizen, M. A., Smith-Ramirez, C., Morales, C.L., Vieli, L., Saez, A., Barahona-Segovia, R.M., … Harder, L. (2018). Coordinated species importation policies are needed to reduce serious invasions globally: The case of alien bumblebees in South America. Journal of Applied Ecology, 56(1), 100–106.AizenM. A.Smith-RamirezC.MoralesC.L.VieliL.SaezA.Barahona-SegoviaR.M.HarderL.2018Coordinated species importation policies are needed to reduce serious invasions globally: The case of alien bumblebees in South AmericaJournal of Applied Ecology56110010610.1111/1365-2664.13121Search in Google Scholar
Bandelt, H. J., Forster, P., Rohl, A. (1999). Median-joining networks for inferring intraspecific phylogenies. Molecular Biology and Evolution, 16(1), 37–48. DOI: 10.1093/oxfordjournals.molbev.a026036BandeltH. J.ForsterP.RohlA.1999Median-joining networks for inferring intraspecific phylogeniesMolecular Biology and Evolution161374810.1093/oxfordjournals.molbev.a02603610331250Open DOISearch in Google Scholar
Barkan, N. P., & Aytekin, A. M. (2013). Systematical studies on the species of the subgenus Bombus (Thoracobombus) (Hymenoptera: Apidae, Bombus Latreille) in Turkey. Zootaxa, 3737(2), 167–183. DOI: 10.11646/zootaxa.3737.2.5BarkanN. P.AytekinA. M.2013Systematical studies on the species of the subgenus Bombus (Thoracobombus) (Hymenoptera: Apidae, Bombus Latreille) in TurkeyZootaxa3737216718310.11646/zootaxa.3737.2.525112746Open DOISearch in Google Scholar
Bradbury, P. J., Zhang, Z., Kroon, D. E., Casstevens, T. M., Ramdoss, Y., Buckler, E. S. (2007). TASSEL: software for association mapping of complex traits in diverse samples. Bioinformatics, 23(19), 2633–2635. DOI: 10.1093/bioinformatics/btm308BradburyP. J.ZhangZ.KroonD. E.CasstevensT. M.RamdossY.BucklerE. S.2007TASSEL: software for association mapping of complex traits in diverse samplesBioinformatics23192633263510.1093/bioinformatics/btm30817586829Open DOISearch in Google Scholar
Cejas, D., Lopez-Lopez, A., Munoz, I., Ornosa, C., De la Rua, P. (2020). Unveiling introgression in bumblebee (Bombus terrestris) populations through mitogenome-based markers. Animal Genetics, 51(1), 70–77. DOI: 10.1111/age.12874CejasD.Lopez-LopezA.MunozI.OrnosaC.De la RuaP.2020Unveiling introgression in bumblebee (Bombus terrestris) populations through mitogenome-based markersAnimal Genetics511707710.1111/age.1287431648380Open DOISearch in Google Scholar
Cejas, D., Ornosa, C., Munoz, I., De la Rua, P. (2018). Searching for Molecular Markers to Differentiate Bombus terrestris (Linnaeus) Subspecies in the Iberian Peninsula. Sociobiology, 65(4), 558–565. DOI: 10.13102/sociobiology.v65i4.3442CejasD.OrnosaC.MunozI.De la RuaP.2018Searching for Molecular Markers to Differentiate Bombus terrestris (Linnaeus) Subspecies in the Iberian PeninsulaSociobiology65455856510.13102/sociobiology.v65i4.3442Open DOISearch in Google Scholar
Chandler, D., Cooper, E., Prince, G. (2019). Are there risks to wild European bumblebees from using commercial stocks of domesticated Bombus terrestris for crop pollination? Journal of Apicultural Research, 58(5), 665–681. DOI: 10.1080/00218839.2019.1637238ChandlerD.CooperE.PrinceG.2019Are there risks to wild European bumblebees from using commercial stocks of domesticated Bombus terrestris for crop pollination?Journal of Apicultural Research58566568110.1080/00218839.2019.1637238Open DOISearch in Google Scholar
Cilavdaroglu, E., & Gurel, F. (2020). Effectofrequeening on colony development in the bumblebee, Bombus terrestris. Journal of Apicultural Research, 59(4), 564–568. DOI: 10.1080/00218839.2020.1715568CilavdarogluE.GurelF.2020Effectofrequeening on colony development in the bumblebee, Bombus terrestrisJournal of Apicultural Research59456456810.1080/00218839.2020.1715568Open DOISearch in Google Scholar
Dafni, A. (1998). The threat of Bombus terrestris spread. Bee World, 79(3), 113–114. DOI: 10.1080/0005772x.1998.11099392DafniA.1998The threat of Bombus terrestris spreadBee World79311311410.1080/0005772x.1998.11099392Open DOISearch in Google Scholar
Doyle, J. J., & Doyle, J. L. (1990). Isolation ofplant DNA from fresh tissue. Focus, 12(13), 39–40.DoyleJ. J.DoyleJ. L.1990Isolation ofplant DNA from fresh tissueFocus12133940Search in Google Scholar
Estoup, A., Solignac, M., Cornuet, J. M., Goudet, J., Scholl, A. (1996). Genetic differentiation of continental and island populations of Bombus terrestris (Hymenoptera: Apidae) in Europe. Molecular Ecology, 5(1), 19–31. DOI: 10.1111/j.1365-294x.1996.tb00288.xEstoupA.SolignacM.CornuetJ. M.GoudetJ.SchollA.1996Genetic differentiation of continental and island populations of Bombus terrestris (Hymenoptera: Apidae) in EuropeMolecular Ecology51193110.1111/j.1365-294x.1996.tb00288.x9147693Open DOISearch in Google Scholar
Excoffier, L., Laval, G., Schneider, S. (2007). Arlequin (version 3.0): an integrated software package for population genetics data analysis. Evol Bioinform Online, 1, 47–50. Retrieved from https://www.ncbi.nlm.nih.gov/pubmed/19325852https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2658868/pdf/ebo-01-47.pdfExcoffierL.LavalG.SchneiderS.2007Arlequin (version 3.0): an integrated software package for population genetics data analysisEvol Bioinform Online14750Retrieved from https://www.ncbi.nlm.nih.gov/pubmed/19325852https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2658868/pdf/ebo-01-47.pdf10.1177/117693430500100003Search in Google Scholar
Francoso, E., Zuntini, A. R., Carnaval, A. C., Arias, M. C. (2016). Comparative phylogeography in the Atlantic forest and Brazilian savannas: pleistocene fluctuations and dispersal shape spatial patterns in two bumblebees. Bmc Evolutionary Biology, 16. DOI: ARTN 26710.1186/s12862-016-0803-0FrancosoE.ZuntiniA. R.CarnavalA. C.AriasM. C.2016Comparative phylogeography in the Atlantic forest and Brazilian savannas: pleistocene fluctuations and dispersal shape spatial patterns in two bumblebeesBmc Evolutionary Biology16ARTN26710.1186/s12862-016-0803-0Open DOISearch in Google Scholar
Goka, K., Okabe, K., Yoneda, M., Niwa, S. (2001). Bumblebee commercialization will cause worldwide migration of parasitic mites. Molecular Ecology, 10(8), 2095–2099. DOI: 10.1046/j.0962-1083.2001.01323.xGokaK.OkabeK.YonedaM.NiwaS.2001Bumblebee commercialization will cause worldwide migration of parasitic mitesMolecular Ecology1082095209910.1046/j.0962-1083.2001.01323.x11555253Open DOISearch in Google Scholar
Goulson, D. (2003). Effects of introduced bees on native ecosystems. Annual Review of Ecology Evolution and Systematics, 34, 1–26. DOI: 10.1146/annurev.ecolsys.34.011802.132355GoulsonD.2003Effects of introduced bees on native ecosystemsAnnual Review of Ecology Evolution and Systematics3412610.1146/annurev.ecolsys.34.011802.132355Open DOISearch in Google Scholar
Goulson, D. (2010). Impacts of non-native bumblebees in Western Europe and North America. Applied Entomology and Zoology, 45(1), 7–12. DOI: 10.1303/aez.2010.7GoulsonD.2010Impacts of non-native bumblebees in Western Europe and North AmericaApplied Entomology and Zoology45171210.1303/aez.2010.7Open DOISearch in Google Scholar
Goulson, D., & Hanley, M. E. (2004). Distribution and forage use of exotic bumblebees in South Island, New Zealand. New Zealand Journal of Ecology, 28(2), 225–232. Retrieved from <Go to ISI>://WOS:000226147100006GoulsonD.HanleyM. E.2004Distribution and forage use of exotic bumblebees in South Island, New ZealandNew Zealand Journal of Ecology282225232Retrieved from <Go to ISI>://WOS:000226147100006Search in Google Scholar
Goulson, D., & Hughes, W. O. H. (2015). Mitigating the anthropogenic spread of bee parasites to protect wild pollinators. Biological Conservation, 191, 10–19. DOI: 10.1016/j.biocon.2015.06.023GoulsonD.HughesW. O. H.2015Mitigating the anthropogenic spread of bee parasites to protect wild pollinatorsBiological Conservation191101910.1016/j.biocon.2015.06.023Open DOISearch in Google Scholar
Goulson, D., Lye, G. C., Darvill, B. (2008). Decline and conservation of bumblebees. Annual Review of Entomology, 53, 191–208. DOI: 10.1146/annurev.ento.53.103106.093454GoulsonD.LyeG. C.DarvillB.2008Decline and conservation of bumblebeesAnnual Review of Entomology5319120810.1146/annurev.ento.53.103106.09345417803456Open DOISearch in Google Scholar
Gösterit, A. (2017). Colony traits of native Bombus terrestris dalmatinus from the Western Black Sea region of Turkey: comparison with commercial colonies. Mediterranean Agricultural Sciences, 30(2), 169–172.GösteritA.2017Colony traits of native Bombus terrestris dalmatinus from the Western Black Sea region of Turkey: comparison with commercial coloniesMediterranean Agricultural Sciences302169172Search in Google Scholar
Gürel, F., Talay, R., Efendi, Y., Balcıoğlu, M.S. (1999). Effectiveness and quality of bombus bee pollen (Bombus terrestris) pollination in undergrowing tomato cultivation. Paper presented at the GAP I. Agriculture Congress., Şanlıurfa - Turkey.GürelF.TalayR.EfendiY.BalcıoğluM.S.1999Effectiveness and quality of bombus bee pollen (Bombus terrestris) pollination in undergrowing tomato cultivationPaper presented at the GAP I. Agriculture CongressŞanlıurfa - TurkeySearch in Google Scholar
Han, T., Kim, S. H., Yoon, H. J., Park, I. G., Park, H. (2019). Genetic variations of DNA barcoding region of bumblebees (Hymenoptera: Apidae) from South Korea. Mitochondrial DNA Part A, 30(1), 30–42. DOI: 10.1080/24701394.2018.1450396HanT.KimS. H.YoonH. J.ParkI. G.ParkH.2019Genetic variations of DNA barcoding region of bumblebees (Hymenoptera: Apidae) from South KoreaMitochondrial DNA Part A301304210.1080/24701394.2018.145039629557238Open DOISearch in Google Scholar
Hingston, A. B. (2006). Is the exotic bumblebee Bombus terrestris really invading Tasmanian native vegetation? Journal of Insect Conservation, 10(3), 289–293. DOI: 10.1007/s10841-006-6711-7HingstonA. B.2006Is the exotic bumblebee Bombus terrestris really invading Tasmanian native vegetation?Journal of Insect Conservation10328929310.1007/s10841-006-6711-7Open DOISearch in Google Scholar
Hingston, A. B., Marsden-Smedley, J., Driscoll, D. A., Corbett, S., Fenton, J., Anderson, R., … Desmarchelier, J. M. (2002). Extent of invasion of Tasmanian native vegetation by the exotic bumblebee Bombus terrestris (Apoidea : Apidae). Austral Ecology, 27(2), 162–172. DOI: 10.1046/j.1442-9993.2002.01179.xHingstonA. B.Marsden-SmedleyJ.DriscollD. A.CorbettS.FentonJ.AndersonR.DesmarchelierJ. M.2002Extent of invasion of Tasmanian native vegetation by the exotic bumblebee Bombus terrestris (Apoidea : Apidae)Austral Ecology27216217210.1046/j.1442-9993.2002.01179.xOpen DOISearch in Google Scholar
Ings, T. C., Ings, N. L., Chittka, L., Rasmont, P. (2010). A failed invasion? Commercially introduced pollinators in Southern France. Apidologie, 41(1), 1–13. DOI: 10.1051/apido/2009044IngsT. C.IngsN. L.ChittkaL.RasmontP.2010A failed invasion? Commercially introduced pollinators in Southern FranceApidologie41111310.1051/apido/2009044Open DOISearch in Google Scholar
Ings, T. C., Ward, N. L., Chittka, L. (2006). Can commercially imported bumble bees out-compete their native conspecifics? Journal of Applied Ecology, 43(5), 940–948. DOI: 10.1111/j.1365-2664.2006.01199.xIngsT. C.WardN. L.ChittkaL.2006Can commercially imported bumble bees out-compete their native conspecifics?Journal of Applied Ecology43594094810.1111/j.1365-2664.2006.01199.xOpen DOISearch in Google Scholar
Inoue, M. N., & Yokoyama, J. (2010). Competition for flower resources and nest sites between Bombus terrestris (L.) and Japanese native bumblebees. Applied Entomology and Zoology, 45(1), 29–35. DOI: 10.1303/aez.2010.29InoueM. N.YokoyamaJ.2010Competition for flower resources and nest sites between Bombus terrestris (L.) and Japanese native bumblebeesApplied Entomology and Zoology451293510.1303/aez.2010.29Open DOISearch in Google Scholar
Inoue, M. N., Yokoyama, J., Washitani, I. (2008). Displacement of Japanese native bumblebees by the recently introduced Bombus terrestris (L.) (Hymenoptera : Apidae). Journal of Insect Conservation, 12(2), 135–146. DOI: 10.1007/s10841-007-9071-zInoueM. N.YokoyamaJ.WashitaniI.2008Displacement of Japanese native bumblebees by the recently introduced Bombus terrestris (L.) (Hymenoptera : Apidae)Journal of Insect Conservation12213514610.1007/s10841-007-9071-zOpen DOISearch in Google Scholar
Kanbe, Y., Okada, I., Yoneda, M., Goka, K., Tsuchida, K. (2008). Interspecific mating of the introduced bumblebee Bombus terrestris and the native Japanese bumblebee Bombus hypocrita sapporoensis results in inviable hybrids. Naturwissenschaften, 95(10), 1003–1008. DOI: 10.1007/s00114-008-0415-7KanbeY.OkadaI.YonedaM.GokaK.TsuchidaK.2008Interspecific mating of the introduced bumblebee Bombus terrestris and the native Japanese bumblebee Bombus hypocrita sapporoensis results in inviable hybridsNaturwissenschaften95101003100810.1007/s00114-008-0415-718594790Open DOISearch in Google Scholar
Koulianos, S., & Schmid-Hempel, P. (2000). Phylogenetic relationships among bumblebees (Bombus, latreille) inferred from mitochondrial cytochrome b and cytochrome oxidase I sequences. Molecular Phylogenetics and Evolution, 14(3), 335–341. DOI 10.1006/mpev.1999.0621KoulianosS.Schmid-HempelP.2000Phylogenetic relationships among bumblebees (Bombus, latreille) inferred from mitochondrial cytochrome b and cytochrome oxidase I sequencesMolecular Phylogenetics and Evolution14333534110.1006/mpev.1999.062110712839Open DOISearch in Google Scholar
Kraus, F. B., Szentgyorgyi, H., Rozej, E., Rhode, M., Moron, D., Woyciechowski, M., Moritz, R. F. A. (2011). Greenhouse bumblebees (Bombus terrestris) spread their genes into the wild. Conservation Genetics, 12(1), 187–192. DOI: 10.1007/s10592-010-0131-7KrausF. B.SzentgyorgyiH.RozejE.RhodeM.MoronD.WoyciechowskiM.MoritzR. F. A.2011Greenhouse bumblebees (Bombus terrestris) spread their genes into the wildConservation Genetics12118719210.1007/s10592-010-0131-7Open DOISearch in Google Scholar
Lecocq, T., Coppee, A., Michez, D., Brasero, N., Rasplus, J. Y., Valterova, I., Rasmont, P. (2016). The alien's identity: consequences of taxonomic status for the international bumblebee trade regulations. Biological Conservation, 195, 169–176. DOI: 10.1016/j.biocon.2016.01.004LecocqT.CoppeeA.MichezD.BraseroN.RasplusJ. Y.ValterovaI.RasmontP.2016The alien's identity: consequences of taxonomic status for the international bumblebee trade regulationsBiological Conservation19516917610.1016/j.biocon.2016.01.004Open DOISearch in Google Scholar
Lecocq, T., Vereecken, N. J., Michez, D., Dellicour, S., Lhomme, P., Valterova, I., . . . Rasmont, P. (2013). Patterns of Genetic and Reproductive Traits Differentiation in Mainland vs. Corsican Populations of Bumblebees. PLoS ONE, 8(6). https://doi.org/10.1371/journal.pone.0065642LecocqT.VereeckenN. J.MichezD.DellicourS.LhommeP.ValterovaI.RasmontP.2013Patterns of Genetic and Reproductive Traits Differentiation in Mainland vs. Corsican Populations of BumblebeesPLoS ONE86https://doi.org/10.1371/journal.pone.006564210.1371/journal.pone.0065642367502323755263Search in Google Scholar
Meydan, H., Argun Karslı, B., Gürel, F., Balcıoglu, M.S., Yildiz, M.A. (2016). Determination of Genetic Variation in Some Native and Commercial B. terrestris Populations in Turkey by Microsatellite Markers. Journal of Lalahan Livestock Research Institute, 56(2), 48–55.MeydanH.Argun KarslıB.GürelF.BalcıogluM.S.YildizM.A.2016Determination of Genetic Variation in Some Native and Commercial B. terrestris Populations in Turkey by Microsatellite MarkersJournal of Lalahan Livestock Research Institute5624855Search in Google Scholar
Michener, C. D. (2000). The Bees of the World: The Johns Hopkins University Press.MichenerC. D.2000The Bees of the WorldThe Johns Hopkins University PressSearch in Google Scholar
Morath, S. U. (2007). Assessing genetic variation among Bombus Impatiens (Hymenoptera: Apidae) in two boroughs of New York City using mitochondrial DNA. 441 E Fordham Road. Bronx, NY 10458.MorathS. U.2007Assessing genetic variation among Bombus Impatiens (Hymenoptera: Apidae) in two boroughs of New York City using mitochondrial DNA441 E Fordham Road.Bronx, NY 10458Search in Google Scholar
Moreira, A. S., Horgan, F. G., Murray, T. E., Kakouli-Duarte, T. (2015). Population genetic structure of Bombus terrestris in Europe: Isolation and genetic differentiation of Irish and British populations. Molecular Ecology, 24(13), 3257–3268. DOI: 10.1111/mec.13235MoreiraA. S.HorganF. G.MurrayT. E.Kakouli-DuarteT.2015Population genetic structure of Bombus terrestris in Europe: Isolation and genetic differentiation of Irish and British populationsMolecular Ecology24133257326810.1111/mec.1323525958977Open DOISearch in Google Scholar
Murray, T. E., Fitzpatrick, U., Brown, M. J. F., Paxton, R. J. (2008). Cryptic species diversity in a widespread bumblebee complex revealed using mitochondrial DNA RFLPs. Conservation Genetics, 9(3), 653–666. DOI: 10.1007/s10592-007-9394-zMurrayT. E.FitzpatrickU.BrownM. J. F.PaxtonR. J.2008Cryptic species diversity in a widespread bumblebee complex revealed using mitochondrial DNA RFLPsConservation Genetics9365366610.1007/s10592-007-9394-zOpen DOISearch in Google Scholar
Ono, M. (1998). Why now bumblebee (in Japanese). The Nature and Insects 33(6), 2–3.OnoM.1998Why now bumblebee (in Japanese)The Nature and Insects33623Search in Google Scholar
Özbek, H. (1997). Bumble bee fauna of Turkey with distribution maps (Hymenoptera: Apidae, Bombinae) Part 1: Alpigeno bombus Skorikov, Bombias Robertson, and Bombus Latreille. Turkish Journal of Entomology, 21(1), 37–56.ÖzbekH.1997Bumble bee fauna of Turkey with distribution maps (Hymenoptera: Apidae, Bombinae) Part 1: Alpigeno bombus Skorikov, Bombias Robertson, and Bombus LatreilleTurkish Journal of Entomology2113756Search in Google Scholar
Pedersen, B. V. (1996). A phylogenetic analysis of cuckoo bumblebees (Psithyrus, Lepeletier) and bumblebees (Bombus, Latreille) inferred from sequences of the mitochondrial gene cytochrome oxidase. Molecular Phylogenetics and Evolution, 5(2), 289–297. DOI: 10.1006/mpev.1996.0024PedersenB. V.1996A phylogenetic analysis of cuckoo bumblebees (Psithyrus, Lepeletier) and bumblebees (Bombus, Latreille) inferred from sequences of the mitochondrial gene cytochrome oxidaseMolecular Phylogenetics and Evolution5228929710.1006/mpev.1996.00248728387Open DOISearch in Google Scholar
Pirounakis, K., Koulianos, S., Hempel, P.S. (1998). Genetic variation among European populations of Bombus pascuorum (Hymenoptera: Apidae) from mitochondrial DNA sequence data. European Journal of Entomology, 95, 27–33.PirounakisK.KoulianosS.HempelP.S.1998Genetic variation among European populations of Bombus pascuorum (Hymenoptera: Apidae) from mitochondrial DNA sequence dataEuropean Journal of Entomology952733Search in Google Scholar
Pizzirani, C., Viola, P., Gabbianelli, F., Fagotti, A., Simoncelli, F., Di Rosa, I., … Lucentini, L. (2020). First evidence of heteroplasmy in Grey Partridge (Perdix perdix). Avian Research, 11(1). DOI: ARTN 2710.1186/s40657-020-00213-wPizziraniC.ViolaP.GabbianelliF.FagottiA.SimoncelliF.Di RosaI.LucentiniL.2020First evidence of heteroplasmy in Grey Partridge (Perdix perdix)Avian Research111ARTN2710.1186/s40657-020-00213-wOpen DOISearch in Google Scholar
Rhymer, J. M., & Simberloff, D. (1996). Extinction by hybridization and introgression. Annual Review of Ecology and Systematics, 27, 83–109. DOI: 10.1146/annurev.ecolsys.27.1.83RhymerJ. M.SimberloffD.1996Extinction by hybridization and introgressionAnnual Review of Ecology and Systematics278310910.1146/annurev.ecolsys.27.1.83Open DOISearch in Google Scholar
Ricardo, P. C., Francoso, E., Arias, M. C. (2020). Mitochondrial DNA intra-individual variation in a bumblebee species: A challenge for evolutionary studies and molecular identification. Mitochondrion, 53, 243–254. DOI: 10.1016/j.mito.2020.06.007RicardoP. C.FrancosoE.AriasM. C.2020Mitochondrial DNA intra-individual variation in a bumblebee species: A challenge for evolutionary studies and molecular identificationMitochondrion5324325410.1016/j.mito.2020.06.00732569843Open DOISearch in Google Scholar
Rozas, J., Librado, P., Sanchez-Delbarrio, J.C., Messeguer, X., Rozas, R. (2010). Current Released Version: 5.10.1.RozasJ.LibradoP.Sanchez-DelbarrioJ.C.MesseguerX.RozasR.2010Current Released Version: 5.10.1Search in Google Scholar
Rubinoff, D., & Holland, B. S. (2005). Between two extremes: Mitochondrial DNA is neither the panacea nor the nemesis of phylogenetic and taxonomic inference. Systematic Biology, 54(6), 952–961. DOI: 10.1080/10635150500234674RubinoffD.HollandB. S.2005Between two extremes: Mitochondrial DNA is neither the panacea nor the nemesis of phylogenetic and taxonomic inferenceSystematic Biology54695296110.1080/1063515050023467416385775Open DOISearch in Google Scholar
Saitou, N., & Nei, M. (1987). The Neighbor-Joining Method - a New Method for Reconstructing Phylogenetic Trees. Molecular Biology and Evolution, 4(4), 406–425. DOI: 10.1093/oxfordjournals.molbev.a040454SaitouN.NeiM.1987The Neighbor-Joining Method - a New Method for Reconstructing Phylogenetic TreesMolecular Biology and Evolution4440642510.1093/oxfordjournals.molbev.a0404543447015Open DOISearch in Google Scholar
Seabra, S. G., Silva, S. E., Nunes, V. L., Sousa, V. C., Martins, J., Marabuto, E., … Paulo, O. S. (2019). Genomic signatures of introgression between commercial and native bumblebees, Bombus terrestris, in western Iberian Peninsula-Implications for conservation and trade regulation. Evolutionary Applications, 12(4), 679–691. DOI: 10.1111/eva.12732SeabraS. G.SilvaS. E.NunesV. L.SousaV. C.MartinsJ.MarabutoE.PauloO. S.2019Genomic signatures of introgression between commercial and native bumblebees, Bombus terrestris, in western Iberian Peninsula-Implications for conservation and trade regulationEvolutionary Applications12467969110.1111/eva.12732643949530976302Open DOISearch in Google Scholar
Tamura, K., Stecher, G., Peterson, D., Filipski, A., Kumar, S. (2013). MEGA6: Molecular Evolutionary Genetics Analysis Version 6.0. Molecular Biology and Evolution, 30(12), 2725–2729. DOI: 10.1093/molbev/mst197TamuraK.StecherG.PetersonD.FilipskiA.KumarS.2013MEGA6: Molecular Evolutionary Genetics Analysis Version 6.0Molecular Biology and Evolution30122725272910.1093/molbev/mst197384031224132122Open DOISearch in Google Scholar
Tikochinski, Y., Carreras, C., Tikochinski, G., Vilaca, S. T. (2020). Population-specific signatures of intra-individual mitochondrial DNA heteroplasmy and their potential evolutionary advantages (vol 81, 514, 2020). Scientific Reports, 10(1). DOI: ARTN 1318010.1038/s41598-020-69872-5TikochinskiY.CarrerasC.TikochinskiG.VilacaS. T.2020Population-specific signatures of intra-individual mitochondrial DNA heteroplasmy and their potential evolutionary advantages (vol 81, 514, 2020)Scientific Reports101ARTN1318010.1038/s41598-020-69872-5Open DOISearch in Google Scholar
Tokoro, S., Yoneda, M., Kunitake, Y.K., Goka, K. (2010). Special Feature for Ecological Risk Assessment of Introduced Bumblebees Geographic variation in mitochondrial DNA of Bombus ignites (Hymenoptera: Apidae). Applied Entomology and Zoology, 45(1) 77–87.TokoroS.YonedaM.KunitakeY.K.GokaK.2010Special Feature for Ecological Risk Assessment of Introduced Bumblebees Geographic variation in mitochondrial DNA of Bombus ignites (Hymenoptera: Apidae)Applied Entomology and Zoology451778710.1303/aez.2010.77Search in Google Scholar
Trillo, A., Montero-Castano, A., Gonzalez-Varo, J. P., Gonzalez-Moreno, P., Ortiz-Sanchez, F. J., Vila, M. (2019). Contrasting occurrence patterns of managed and native bumblebees in natural habitats across a greenhouse landscape gradient. Agriculture Ecosystems & Environment, 272, 230–236. DOI: 10.1016/j.agee.2018.11.018TrilloA.Montero-CastanoA.Gonzalez-VaroJ. P.Gonzalez-MorenoP.Ortiz-SanchezF. J.VilaM.2019Contrasting occurrence patterns of managed and native bumblebees in natural habitats across a greenhouse landscape gradientAgriculture Ecosystems & Environment27223023610.1016/j.agee.2018.11.018Open DOISearch in Google Scholar
Tsuchida, K., Yamaguchi, A., Kanbe, Y., Goka, K. (2019). Reproductive Interference in an Introduced Bumblebee: Polyandry may Mitigate Negative Reproductive Impact. Insects, 10(2). DOI: ARTN 5910.3390/insects10020059TsuchidaK.YamaguchiA.KanbeY.GokaK.2019Reproductive Interference in an Introduced Bumblebee: Polyandry may Mitigate Negative Reproductive ImpactInsects102ARTN5910.3390/insects10020059Open DOISearch in Google Scholar
Velthuis, H. H. W., & van Doorn, A. (2006). A century of advances in bumblebee domestication and the economic and environmental aspects of its commercialization for pollination. Apidologie, 37(4), 421–451. DOI: 10.1051/apido:2006019VelthuisH. H. W.van DoornA.2006A century of advances in bumblebee domestication and the economic and environmental aspects of its commercialization for pollinationApidologie37442145110.1051/apido:2006019Open DOISearch in Google Scholar
Wernick, R. I., Estes, S., Howe, D. K., Denver, D. R. (2016). Paths of Heritable Mitochondrial DNA Mutation and Heteroplasmy in Reference and gas-1 Strains of Caenorhabditis elegans. Frontiers in Genetics, 7. DOI: ARTN 5110.3389/fgene.2016.00051WernickR. I.EstesS.HoweD. K.DenverD. R.2016Paths of Heritable Mitochondrial DNA Mutation and Heteroplasmy in Reference and gas-1 Strains of Caenorhabditis elegansFrontiers in Genetics7ARTN5110.3389/fgene.2016.00051Open DOISearch in Google Scholar
Whitehorn, P. R., Tinsley, M. C., Brown, M. J. F., Goulson, D. (2013). Investigating the impact of deploying commercial Bombus terrestris for crop pollination on pathogen dynamics in wild bumble bees. Journal of Apicultural Research, 52(3), 149–157. DOI: 10.3896/Ibra.1.52.3.06WhitehornP. R.TinsleyM. C.BrownM. J. F.GoulsonD.2013Investigating the impact of deploying commercial Bombus terrestris for crop pollination on pathogen dynamics in wild bumble beesJournal of Apicultural Research52314915710.3896/Ibra.1.52.3.06Open DOISearch in Google Scholar
Widmer, A., & Schmid-Hempel, P. (1999). The population genetic structure of a large temperate pollinator species, Bombus pascuorum (Scopoli) (Hymenoptera: Apidae). Molecular Ecology, 8(3), 387–398. DOI: 10.1046/j.1365-294X.1999.00584.xWidmerA.Schmid-HempelP.1999The population genetic structure of a large temperate pollinator species, Bombus pascuorum (Scopoli) (Hymenoptera: Apidae)Molecular Ecology8338739810.1046/j.1365-294X.1999.00584.x10199006Open DOISearch in Google Scholar
Widmer, A., Schmid-Hempel, P., Estoup, A., Scholl, A. (1998). Population genetic structure and colonization history of Bombus terrestris s.l. (Hymenoptera: Apidae) from the Canary Islands and Madeira. Heredity, 81, 563–572. DOI: 10.1038/sj.hdy.6884070WidmerA.Schmid-HempelP.EstoupA.SchollA.1998Population genetic structure and colonization history of Bombus terrestris s.l. (Hymenoptera: Apidae) from the Canary Islands and MadeiraHeredity8156357210.1038/sj.hdy.6884070Open DOISearch in Google Scholar
Williams, P. H., Berezin, M. V., Cannings, S. G., Cederberg, B., Odegaard, F., Rasmussen, C., … Byvaltsev, A. M. (2019). The arctic and alpine bumblebees of the subgenus Alpinobombus revised from integrative assessment of species’ gene coalescents and morphology (Hymenoptera, Apidae, Bombus). Zootaxa, 4625(1), 1–68. DOI: 10.11646/zootaxa.4625.1.1WilliamsP. H.BerezinM. V.CanningsS. G.CederbergB.OdegaardF.RasmussenC.ByvaltsevA. M.2019The arctic and alpine bumblebees of the subgenus Alpinobombus revised from integrative assessment of species’ gene coalescents and morphology (Hymenoptera, Apidae, Bombus)Zootaxa4625116810.11646/zootaxa.4625.1.131712545Open DOISearch in Google Scholar
Williams, P. H., Brown, M. J. F., Carolan, J. C., An, J. D., Goulson, D., Aytekin, A. M., … Xie, Z. H. (2012). Unveiling cryptic species of the bumblebee subgenus Bombus s. str. worldwide with COI barcodes (Hymenoptera: Apidae). Systematics and Biodiversity, 10(1), 21–56. DOI: 10.1080/14772000.2012.664574WilliamsP. H.BrownM. J. F.CarolanJ. C.AnJ. D.GoulsonD.AytekinA. M.XieZ. H.2012Unveiling cryptic species of the bumblebee subgenus Bombus s. str. worldwide with COI barcodes (Hymenoptera: Apidae)Systematics and Biodiversity101215610.1080/14772000.2012.664574Open DOISearch in Google Scholar
Williams, P. H., & Osborne, J. L. (2009). Bumblebee vulnerability and conservation world-wide. Apidologie, 40(3), 367–387. DOI: 10.1051/apido/2009025WilliamsP. H.OsborneJ. L.2009Bumblebee vulnerability and conservation world-wideApidologie40336738710.1051/apido/2009025Open DOISearch in Google Scholar
Yoon, H. J., Kim, S.E., Lee, M.L., Kim, I., Bae, J.S., Sohn, H.D., Jin, B.R. (2003). Genetic homogeneity of the Korean native bumble bee, Bombus ardens (Hymenoptera: Apidae), detected by mitochondrial COI gene sequences. International Journal of Industrial Entomology, 6(1), 63–68.YoonH. J.KimS.E.LeeM.L.KimI.BaeJ.S.SohnH.D.JinB.R.2003Genetic homogeneity of the Korean native bumble bee, Bombus ardens (Hymenoptera: Apidae), detected by mitochondrial COI gene sequencesInternational Journal of Industrial Entomology616368Search in Google Scholar
