Kolar CS & Lodge DM Advances in invasion biology: predicting invaders. Eco instructions. Evol. 16199-204 (2001).
Google Scholar
Hoy, C.; et al. Dedication of invasion and susceptibility to environmental networks. Biol. Inv. 18971-983 (2016).
Google Scholar
Williamson, M.; organic invasions (Chapman & Corridor, 1996).
Google Scholar
Lowe, S., Browne, M., Boudjelas, S. & DePoorter, M. The World’s 100 Worst Invasive Alien Species: A Choice from the International Invasive Species Database. The Invasive Species Specialist Group (ISSG) of the Worldwide Union for Conservation of Nature (IUCN). 12 p. (2000).
Bertelsmeier, C., Ollier, S., Liebhold, A. & Keller, L. Current human historical past governs the dynamics of world ant invasion. nat. icol. Evol. 1(7), 0184. https://doi.org/10.1038/s41559-017-0184 (2017).
Google Scholar
Van Wilgenburg, E., Torres, C.W. & Tsutsui, N.D. International enlargement of a single super-ant. Evol. software 3136-143 (2010).
Google Scholar
Fournier D, de Peseau JC and Aaron S. Genetics, behaviors, and chemical identification of invasive ants, Veedul megacephala. mall. icol. 18186-199 (2009).
Google Scholar
Thomas, M.L., Becker, Okay., Abbott, Okay. & Feldhaar, H. Supercolony mosaics: two completely different invasions by the yellow-crazed ant, Anoplolepis gracilipeson Christmas Island. Indian Ocean. Biol. Inv. 12677-687 (2010).
Google Scholar
Eyre, b. et al. The superior colonial composition of the invasive populations of the tawny mad ant, Nylanderia fulvain america. BMC Evol. Biol. 18209. https://doi.org/10.1186/s12862-018-1336-5 (2018).
Google Scholar
Helanterä, H., Strassmann, J.E., Carillo, J. & Queller, D.C. Unicolonial ants: the place do they arrive from, what are they and the place do they go?. Eco instructions. Evol. 24341–349 (2009).
Google Scholar
Holway DA, Lach L., Suarez AV, Tsutsui ND & Case TJ Causes and penalties of ant invasions. Annu. Rev. Ecol. the system. 33181-233 (2002).
Google Scholar
Taxonomic descriptions by Fisher, BL & Cowl, SP. in Ants of North America: A Information to the Genera (eds. Fisher, BL & Cowl, SP) (College of California Press, 2007).
Google Scholar
Buczkowski, G. Resilience of the historical past of utmost life and the evolution of invasive traits in a home ant. Biol. Inv. 123343–3349 (2010).
Google Scholar
Minky, S.; et al. Is it straightforward to be city? Converging success in city habitats amongst widespread native ant subspecies. Plus one 5e9194. https://doi.org/10.1371/journal.pone.0009194 (2010).
Google Scholar
Blumenfeld, A.J., Eyer, P.-A., Helms, A.M., Buczkowski, G. & Vargo, E.L. Constant signatures of city adaptation in a home city invading ant sessile tapenoma. mall. icol. 314832-4850 (2021).
Google Scholar
Buczkowski, G. & Bennett, GW Centrally dispersed foraging within the poly-scented home ant, sessile tapenoma As revealed by the protein marker. ins. an organization 53282-290 (2006).
Google Scholar
Buczkowski, G. & Bennett, GW Seasonal polygamy in a super-polygamous colony of odorous home ants, sessile tapenoma. icol. Intomol. 33780-788 (2008).
Google Scholar
Salyer, A., Bennett, GW & Buczkowski, G. Odorless home ants (sessile tapenoma) as back-seat drivers of the decline of localized ants in city habitats. Plus one 9(12), E 113878. https://doi.org/10.1371/journal.pone.0113878 (2014).
Google Scholar
Buczkowski, G. & Krushelnycky, P. The odorous home ant, sessile tapenoma (Hymenoptera: Formicidae), as a brand new invader of temperate origin. Mir. Information 1661-66 (2012).
Google Scholar
Roulston TH, Buczkowski G. & Silverman J. Nestmate discrimination in ants: impact of a bioassay on aggressive conduct. Insect Society. 50151-159 (2003).
Google Scholar
Vasquez GM & Silverman J. Nonspecific aggression and colony fusion in Argentine ants. animation. Behav. 75583-593 (2008).
Google Scholar
Foitzik, S. & Heinze, J. Nest positioning and colony seize in ants Leptothorax neilandiri. Behav. icol. 9367-375 (1998).
Google Scholar
Fortelius, W., Rosengren, R., Cherix, D. & Chautens, D. Queen recruitment in a polygynous supercolony of Formica logopress (Hymenoptera, Formicidae). Oikos 67193-200 (1993).
Google Scholar
Holloway DA, Suarez AV & Case TJ Lack of nonspecific aggression within the success of a widespread invasive social insect. Sciences 282949-952 (1998).
Google Scholar
Tsutsui ND & Case TJ Inhabitants genetics and colony construction of Argentine ants (Linepithema is unpretentious) of their unique and launched ranges. improvement 55976-985 (2001).
Google Scholar
Herbers, J. Environmental determinants of queen quantity in ants. in Queen quantity and si in bugs (ed. Keeler, L.) 262-293 (Oxford College Press, 1993).
Google Scholar
Crozier, RH & Pamilio, P. Evolution of social insect colonies (Oxford College Press, 1996).
Google Scholar
Sturgis SJ & Gordon DM Nestmate identification in ants (Hymenoptera: Formicidae): a overview. Mir. Information 16101–110 (2012).
Google Scholar
Bhatkar AD & Whitcomb WH A man-made weight-reduction plan for rearing completely different species of ants. fl. 53229-232 (1970).
Google Scholar
Suarez AV, Holloway DA, Liang D., Tsutsui ND & Case TJ. Spatiotemporal patterns of nonspecific aggression in Argentine invasive ants. animation. Behav. 64697-708 (2002).
Google Scholar
Gallagher, P., Craig, B.A., Luttermoser, T. & Buczkowski, G. Twin competitors evaluation utilizing combined fashions. in Convention on the applying of statistics in agriculture. (2016).
SAS Institute. SAS/STAT Handbook for PCs, Model 9.2. SAS Institute, Cary, NC (2008).
#Behavioral #assays #reveal #mechanisms #superior #colony #formation #odorous #home #ants
