View Item 

Show simple item record

Migratory monarchs that encounter resident monarchs show life‐history differences and higher rates of parasite infection
dc.contributor.authorSatterfield, Dara A.
dc.contributor.authorMaerz, John C.
dc.contributor.authorHunter, Mark D.
dc.contributor.authorFlockhart, D.T. Tyler
dc.contributor.authorHobson, Keith A.
dc.contributor.authorNorris, D. Ryan
dc.contributor.authorStreit, Hillary
dc.contributor.authorRoode, Jacobus C.
dc.contributor.authorAltizer, Sonia
dc.date.accessioned2018-11-20T15:33:40Z
dc.date.available2020-01-06T16:40:59Zen
dc.date.issued2018-11
dc.identifier.citationSatterfield, Dara A.; Maerz, John C.; Hunter, Mark D.; Flockhart, D.T. Tyler; Hobson, Keith A.; Norris, D. Ryan; Streit, Hillary; Roode, Jacobus C.; Altizer, Sonia (2018). "Migratory monarchs that encounter resident monarchs show life‐history differences and higher rates of parasite infection." Ecology Letters 21(11): 1670-1680.
dc.identifier.issn1461-023X
dc.identifier.issn1461-0248
dc.identifier.urihttps://hdl.handle.net/2027.42/146381
dc.description.abstractEnvironmental change induces some wildlife populations to shift from migratory to resident behaviours. Newly formed resident populations could influence the health and behaviour of remaining migrants. We investigated migrant–resident interactions among monarch butterflies and consequences for life history and parasitism. Eastern North American monarchs migrate annually to Mexico, but some now breed year‐round on exotic milkweed in the southern US and experience high infection prevalence of protozoan parasites. Using stable isotopes (δ2H, δ13C) and cardenolide profiles to estimate natal origins, we show that migrant and resident monarchs overlap during fall and spring migration. Migrants at sites with residents were 13 times more likely to have infections and three times more likely to be reproductive (outside normal breeding season) compared to other migrants. Exotic milkweed might either attract migrants that are already infected or reproductive, or alternatively, induce these states. Increased migrant–resident interactions could affect monarch parasitism, migratory success and long‐term conservation.
dc.publisherCornell University Press, Ithaca
dc.publisherWiley Periodicals, Inc.
dc.subject.otherpartial migration
dc.subject.otherreproductive diapause
dc.subject.otherstable isotopes
dc.subject.othertropical milkweed
dc.subject.othercardenolide profile
dc.subject.otherAsclepias curassavica
dc.subject.otherDanaus plexippus
dc.subject.othermigrant–resident interactions
dc.subject.otherOphryocystis elektroscirrha
dc.titleMigratory monarchs that encounter resident monarchs show life‐history differences and higher rates of parasite infection
dc.typeArticleen_US
dc.rights.robotsIndexNoFollow
dc.subject.hlbsecondlevelEcology and Evolutionary Biology
dc.subject.hlbtoplevelScience
dc.description.peerreviewedPeer Reviewed
dc.description.bitstreamurlhttps://deepblue.lib.umich.edu/bitstream/2027.42/146381/1/ele13144_am.pdf
dc.description.bitstreamurlhttps://deepblue.lib.umich.edu/bitstream/2027.42/146381/2/ele13144.pdf
dc.identifier.doi10.1111/ele.13144
dc.identifier.sourceEcology Letters
dc.identifier.citedreferenceOberhauser, K.S. & Hampton, R. ( 1995 ). The relationship between mating and oogenesis in monarch butterflies (Lepidoptera: Danainae). J. Insect Behav., 8, 701 – 713.
dc.identifier.citedreferenceLefèvre, T., Oliver, L., Hunter, M.D. & De Roode, J.C. ( 2010 ). Evidence for trans‐generational medication in nature. Ecol. Lett., 13, 1485 – 1493.
dc.identifier.citedreferenceLoehle, C. ( 1995 ). Social barriers to pathogen transmission in wild animal populations. Ecology, 76, 326 – 335.
dc.identifier.citedreferenceMalcolm, S.B., Cockrell, B.J. & Brower, L.P. ( 1989 ). Cardenolide fingerprint of monarch butterflies reared on common milkweed, Asclepias syriaca L. J. Chem. Ecol., 15, 819 – 853.
dc.identifier.citedreferenceMalcolm, S.B., Cockrell, B. & Brower, L. ( 1993 ). Spring recolonization of eastern North America by the monarch butterfly: Successive brood or single sweep migration? In: Biology and Conservation of the Monarch Butterfly (eds Malcolm, S.B. & Zalucki, M.P. ), Natural History Museum of Los Angeles, Los Angeles, pp. 253 – 267.
dc.identifier.citedreferenceMarini, L. & Zalucki, M.P. ( 2017 ). Density‐dependence in the declining population of the monarch butterfly. Sci. Reports, 7, 13957.
dc.identifier.citedreferenceMcLaughlin, R.E. & Myers, J. ( 1970 ). Ophryocystis elektroscirrha sp. n., a neogregarine pathogen of the monarch butterfly Danaus plexippus (L.) and the Florida queen butterfly D. gilippus berenice Cramer. J. Eukary. Microbiol., 17, 300 – 305.
dc.identifier.citedreferenceMiller, N.G., Wassenaar, L.I., Hobson, K.A. & Norris, D.R. ( 2012 ). Migratory connectivity of the monarch butterfly ( Danaus plexippus ): patterns of spring re‐colonization in eastern North America. PLoS ONE, 7, e31891.
dc.identifier.citedreferenceNewton, I. ( 2008 ). Migration Ecology of Birds. Academic Press, London.
dc.identifier.citedreferencePalacín, C., Alonso, J.C., Martín, C.A. & Alonso, J.A. ( 2017 ). Changes in bird migration patterns associated with human‐induced mortality. Conserv. Biol., 31, 106 – 115.
dc.identifier.citedreferencePartecke, J. & Gwinner, E. ( 2007 ). Increased sedentariness in European Blackbirds following urbanization: a consequence of local adaptation? Ecology, 88, 882 – 890.
dc.identifier.citedreferencePoulin, R., Closs, G.P., Lill, A.W.T., Hicks, A.S., Herrmann, K.K. & Kelly, D.W. ( 2012 ). Migration as an escape from parasitism in New Zealand galaxiid fishes. Oecologia, 169, 955 – 963.
dc.identifier.citedreferenceQviller, L., Risnes‐Olsen, N., Bærum, K.M., Meisingset, E.L., Loe, L.E., Ytrehus, B. et al. ( 2013 ). Landscape level variation in tick abundance relative to seasonal migration in red deer. PLoS ONE, 8, e71299.
dc.identifier.citedreferenceRies, L., Taron, D.J. & Rendón‐Salinas, E. ( 2015 ). The disconnect between summer and winter monarch trends for the eastern migratory population: possible links to differing drivers. Annals Entomol. Soc. Amer., 108, 691 – 699.
dc.identifier.citedreferencede Roode, J.C., Gold, L.R. & Altizer, S. ( 2007 ). Virulence determinants in a natural butterfly‐parasite system. Parasitol., 134, 657 – 668.
dc.identifier.citedreferencede Roode, J.C., Chi, J., Rarick, R.M. & Altizer, S. ( 2009 ). Strength in numbers: high parasite burdens increase transmission of a protozoan parasite of monarch butterflies ( Danaus plexippus ). Oecologia, 161, 67 – 75.
dc.identifier.citedreferenceSatterfield, D.A., Maerz, J.C. & Altizer, S. ( 2015 ). Loss of migratory behaviour increases infection risk for a butterfly host. Proc. Roy. Soc. B., 282, 20141734.
dc.identifier.citedreferenceSatterfield, D.A., Villablanca, F.X., Maerz, J.C. & Altizer, S. ( 2016 ). Migratory monarchs wintering in California experience low infection risk compared to monarchs breeding year‐round on non‐native milkweed. Integr. Comp. Biol., 56, 343 – 352. https://doi.org/10.1093/icb/icw030.
dc.identifier.citedreferenceSatterfield, D.A., Marra, P.P., Sillett, T.S. & Altizer, S.A. ( 2018 ). Responses of migratory species and their pathogens to supplemental feeding. Phil. Trans. Roy. Soc. B, 373, 20170094.
dc.identifier.citedreferenceSeiber, J.N., Brower, L.P., Lee, S.M., McChesney, M.M., Cheung, H.T.A., Nelson, C.J. et al. ( 1986 ). Cardenolide connection between overwintering monarch butterflies from Mexico and their larval food plant, Asclepias syriaca. J. Chem. Ecol., 12, 1157 – 1170.
dc.identifier.citedreferenceSemmens, B.X., Semmens, D.J., Thogmartin, W.E., Wiederholt, R., Lopez‐Hoffman, L., Diffendorfer, J.E. et al. ( 2016 ). Quasi‐extinction risk and population targets for the eastern, migratory population of monarch butterflies ( Danaus plexippus ). Sci. Rep., 6, 23265.
dc.identifier.citedreferenceSutherland, W.J. ( 1998 ). Evidence for flexibility and constraint in migration systems. J. Avian Biol., 29, 441 – 446.
dc.identifier.citedreferenceTeitelbaum, C.S., Converse, S.J., Fagan, W.F., Böhning‐Gaese, K., O’Hara, R.B., Lacy, A.E. et al. ( 2016 ). Experience drives innovation of new migration patterns of Whooping Cranes in response to global change. Nature Comm., 7, 12793.
dc.identifier.citedreferenceThogmartin, W.E., Wiederholt, R., Oberhauser, K., Drum, R.G., Diffendorfer, J.E., Altizer, S. et al. ( 2017 ). Monarch butterfly population decline in North America: identifying the threatening processes. Roy. Soc. Open Sci., 4, 170760.
dc.identifier.citedreferenceTortosa, F.S., Máñez, M. & Barcell, M. ( 1995 ). Wintering White Storks ( Ciconia ciconia ) in south west Spain in the years 1991 and 1992. Die Vogelwarte, 38, 41 – 45.
dc.identifier.citedreferenceTortosa, F.S., Caballero, J.M. & Reyes‐López, J. ( 2002 ). Effect of rubbish dumps on breeding success in the White Stork in southern Spain. Waterbirds, 25, 39 – 43.
dc.identifier.citedreferenceUrquhart, F.A. & Urquhart, N.R. ( 1978 ). Autumnal migration routes of the eastern population of the monarch butterfly ( Danaus p. plexippus L.; Danaidae; Lepidoptera) in North America to the overwintering site in the Neovolcanic Plateau of Mexico. Canadian J. Zool., 56, 1759 – 1764.
dc.identifier.citedreferenceVan Der Ree, R., McDonnell, M.J., Temby, I., Nelson, J. & Whittingham, E. ( 2006 ). The establishment and dynamics of a recently established urban camp of flying foxes ( Pteropus poliocephalus ) outside their geographic range. J. Zool., 268, 177 – 185.
dc.identifier.citedreferenceVidal, O. & Rendon‐Salinas, E. ( 2014 ). Dynamics and trends of overwintering colonies of the monarch butterfly in Mexico. Biol. Conserv., 180, 165 – 175.
dc.identifier.citedreferenceWassenaar, L.I. & Hobson, K.A. ( 1998 ). Natal origins of migratory monarch butterflies at wintering colonies in Mexico: new isotopic evidence. PNAS, 95, 15436 – 15439.
dc.identifier.citedreferenceWilcove, D.S. & Wikelski, M. ( 2008 ). Going, going, gone: is animal migration disappearing? PLoS Biol., 6, e188.
dc.identifier.citedreferenceZalucki, M.P. & Rochester, W.A. ( 1999 ). Estimating the effect of climate on the distribution and abundance of Danaus plexippus: a tale of two continents. In: 1997 North American Conference on the Monarch (eds Hoth, J., Merino, L., Oberhauser, K., Pisantry, I., Price, S. & Wilkinson, T. ). Canada, Commission for Environmental Cooperation, p. 151.
dc.identifier.citedreferenceZalucki, M.P., Malcolm, S.B., Paine, T.D., Hanlon, C.C., Brower, L.P. & Clarke, A.R. ( 2001 ). It’s the first bites that count: survival of first‐instar monarchs on milkweeds. Austral Ecol., 26, 547 – 555.
dc.identifier.citedreferenceAdriaensen, F. & Dhondt, A.A. ( 1990 ). Population dynamics and partial migration of the European Robin ( Erithacus rubecula ) in different habitats. J. Anim. Ecol., 59, 1077 – 1090.
dc.identifier.citedreferenceAgrawal, A.A., Petschenka, G., Bingham, R.A., Weber, M.G. & Rasmann, S. ( 2012 ). Toxic cardenolides: chemical ecology and coevolution of specialized plant‐herbivore interactions. New Phytol., 194, 28 – 45.
dc.identifier.citedreferenceAkbar, H., Pinçon, C., Aliouat‐Denis, C.‐M., Derouiche, S., Taylor, M.‐L., Pottier, M. et al. ( 2012 ). Characterizing pneumocystis in the lungs of bats: understanding pneumocystis evolution and the spread of pneumocystis organisms in mammal populations. Appl. Environ. Microbiol., 78, 8122 – 8136.
dc.identifier.citedreferenceAltizer, S.M., Oberhauser, K.S. & Brower, L.P. ( 2000 ). Associations between host migration and the prevalence of a protozoan parasite in natural populations of adult monarch butterflies. Ecol. Entomol., 25, 125 – 139.
dc.identifier.citedreferenceAltizer, S., Oberhauser, K. & Geurts, K. ( 2004 ). Transmission of the protozoan parasite Ophryocystis elektroscirrha in monarch butterfly populations: implications for prevalence and population‐level impacts. In The Monarch Butterfly: Biology and Conservation (eds Oberhauser, K.S., Solensky, M. ). Cornell University Press, Ithaca, NY.
dc.identifier.citedreferenceAltizer, S., Bartel, R. & Han, B.A. ( 2011 ). Animal migration and infectious disease risk. Science, 331, 296 – 302.
dc.identifier.citedreferenceAltizer, S., Hobson, K.A., Davis, A.K., De Roode, J.C. & Wassenaar, L.I. ( 2015 ). Do healthy monarchs migrate farther? Tracking natal origins of parasitized vs. uninfected monarch butterflies overwintering in Mexico. PLoS ONE, 10, e0141371.
dc.identifier.citedreferenceBartel, R.A., Oberhauser, K.S., de Roode, J.C. & Altizer, S.M. ( 2011 ). Monarch butterfly migration and parasite transmission in eastern North America. Ecology, 92, 342 – 351.
dc.identifier.citedreferenceBaskin, Y. ( 1993 ). Trumpeter swans relearn migration. Bioscience, 43, 76 – 79.
dc.identifier.citedreferenceBatalden, R. & Oberhauser, K. ( 2015 ). Potential changes in eastern North American monarch migration in response to an introduced milkweed, Asclepias curassavica. In Monarchs in a Changing World: Biology and Conservation of an Iconic Insect (eds Oberhauser, K.S., Nail, K.R., Altizer, S. ). Cornell University Press, Ithaca, NY, pp. 215 – 224.
dc.identifier.citedreferenceBauer, S. & Hoye, B.J. ( 2014 ). Migratory animals couple biodiversity and ecosystem functioning worldwide. Science, 344, 54 – 62.
dc.identifier.citedreferenceBerthold, P. ( 1999 ). A comprehensive theory for the evolution, control and adaptability of avian migration. Ostrich, 70, 1 – 11.
dc.identifier.citedreferenceBorland, J, Johnson, CC, Crumpton, T., Thomas, M, Altizer, SM & Oberhauser, KS. ( 2004 ). Characteristics of fall migratory monarch butterflies, Danaus plexippus, in Minnesota and Texas. In: The Monarch Butterfly: Biology & Conservation (eds Oberhauser, K.S. & Solensky, M. ). Cornell University Press, Ithaca, NY, p. 97.
dc.identifier.citedreferenceBradley, C.A. & Altizer, S. ( 2005 ). Parasites hinder monarch butterfly flight: implications for disease spread in migratory hosts. Ecol. Lett., 8, 290 – 300.
dc.identifier.citedreferenceBrodersen, J., Ådahl, E., Brönmark, C. & Hansson, L.‐A. ( 2008 ). Ecosystem effects of partial fish migration in lakes. Oikos, 117, 40 – 46.
dc.identifier.citedreferenceBrower, L.P. ( 1985 ). New perspectives on the migration biology of the monarch butterfly, Danaus plexippus L. In: Migration: Mechanisms and Adaptive Significance (eds Rankin, M.A. ), Contributions in Marine Science. University of Texas, Austin, TX, pp. 748 – 786.
dc.identifier.citedreferenceBrower, L.P., Calvert, W.H., Hedrick, L.E. & Christian, J. ( 1977 ). Biological observations on an overwintering colony of monarch butterflies ( Danaus plexippus, Danaidae) in Mexico. J. Lepid. Soc., 31, 232 – 242.
dc.identifier.citedreferenceBrower, L.P., Taylor, O.R., Williams, E.H., Slayback, D.A., Zubieta, R.R. & Ramírez, M.I. ( 2012 ). Decline of monarch butterflies overwintering in Mexico: is the migratory phenomenon at risk? Insect Conserv. Divers, 5, 95 – 100.
dc.identifier.citedreferenceCaccamise, D.F., Reed, L.M., Castelli, P.M., Wainright, S. & Nichols, T.C. ( 2000 ). Distinguishing migratory and resident Canada Geese using stable isotope analysis. J. Wildl. Manag., 64, 1084 – 1091.
dc.identifier.citedreferenceCalvert, W.H. ( 1999 ). Patterns in the spatial and temporal use of Texas milkweeds (Asclepiadaceae) by the monarch butterfly ( Danaus plexippus L.) during fall, 1996. J. Lepid. Soc., 53, 37 – 44.
dc.identifier.citedreferenceCalvert, W.H. & Wagner, M. ( 1999 ). Patterns in the monarch butterfly migration through Texas ‐ 1993 to 1995. In: 1997 North American Conference on the Monarch Butterfly (eds Hoth, J., Merino, L., Oberhauser, K., Pisantry, I., Price, S., Wilkinson, T. ). Commission for Environmental Cooperation, Montreal. pp. 119 – 125.
dc.identifier.citedreferenceChapman, B.B., Brönmark, C., Nilsson, J.‐Å. & Hansson, L.‐A. ( 2011a ). Partial migration: an introduction. Oikos, 120, 1761 – 1763.
dc.identifier.citedreferenceChapman, B.B., Brönmark, C., Nilsson, J.‐Å. & Hansson, L.‐A. ( 2011b ). The ecology and evolution of partial migration. Oikos, 120, 1764 – 1775.
dc.identifier.citedreferenceChapman, B.B., Skov, C., Hulthén, K., Brodersen, J., Nilsson, P.A., Hansson, L.‐A. et al. ( 2012 ). Partial migration in fishes: definitions, methodologies and taxonomic distribution. J. Fish Biol., 81, 479 – 499.
dc.identifier.citedreferenceCross, P.C., Cole, E.K., Dobson, A.P., Edwards, W.H., Hamlin, K.L., Luikart, G. et al. ( 2010 ). Probable causes of increasing brucellosis in free‐ranging elk of the Greater Yellowstone Ecosystem. Ecol. Appl., 20, 278 – 288.
dc.identifier.citedreferenceDingle, H. ( 2014 ). Migration: the Biology of Life on the Move, 2nd edn. Oxford University Press, Oxford.
dc.identifier.citedreferenceDockx, C. ( 2012 ). Differences in phenotypic traits and migratory strategies between eastern North American monarch butterflies, Danaus plexippus (L.). Biol. J. Linnean Soc., 106, 717 – 736.
dc.identifier.citedreferenceDockx, C., Brower, L.P., Wassenaar, L.I. & Hobson, K.A. ( 2004 ). Do North American monarch butterflies travel to Cuba? Stable isotope and chemical tracer techniques. Ecol. Appl., 14, 1106 – 1114.
dc.identifier.citedreferenceElmberg, J., Hessel, R., Fox, A.D. & Dalby, L. ( 2014 ). Interpreting seasonal range shifts in migratory birds: a critical assessment of ‘short‐stopping’ and a suggested terminology. J. Ornithol., 155, 571 – 579.
dc.identifier.citedreferenceEstes, R.D. ( 2014 ). Male and Female Life Histories. The Gnu’s World: Serengeti Wildebeest Ecology and Life History. University of California Press, Berkeley, pp. 181 – 184.
dc.identifier.citedreferenceFiedler, W. ( 2003 ). Recent changes in migratory behaviour of birds: a compilation of field observations and ringing data. In Avian Migration. (eds Berthold, P.D.P., Gwinner, P.D.E., Sonnenschein, E. ). Springer, Berlin Heidelberg, pp. 21 – 38.
dc.identifier.citedreferenceFlockhart, D.T.T., Wassenaar, L.I., Martin, T.G., Hobson, K.A., Wunder, M.B. & Norris, D.R. ( 2013 ). Tracking multi‐generational colonization of the breeding grounds by monarch butterflies in eastern North America. Proc. Roy. Soc. B, 280, 20131087.
dc.identifier.citedreferenceFlockhart, D.T.T., Pichancourt, J.‐B., Norris, D.R. & Martin, T.G. ( 2015 ). Unravelling the annual cycle in a migratory animal: breeding‐season habitat loss drives population declines of monarch butterflies. J. Anim. Ecol., 84, 155 – 165.
dc.identifier.citedreferenceFlockhart, D.T.T., Dabydeen, A., Satterfield, D.A., Hobson, K.A., Wassenaar, L.I. & Norris, D.R. ( 2018 ). Patterns of parasitism in monarch butterflies during the breeding season in eastern North America. Ecol. Entomol., 43, 28 – 36.
dc.identifier.citedreferenceFolstad, I., Nilssen, A.C., Halvorsen, O. & Andersen, J. ( 1991 ). Parasite avoidance: the cause of post‐calving migrations in Rangifer ? Canadian. J. Zool., 69, 2423 – 2429.
dc.identifier.citedreferenceGatehouse, A.G. ( 1997 ). Behavior and ecological genetics of wind‐borne migration by insects. Annu. Rev. Entomol., 42, 475 – 502.
dc.identifier.citedreferenceGoehring, L. & Oberhauser, K.S. ( 2002 ). Effects of photoperiod, temperature, and host plant age on induction of reproductive diapause and development time in Danaus plexippus. Ecol. Entomol., 27, 674 – 685.
dc.identifier.citedreferenceGriswold, C.K., Taylor, C.M. & Norris, D.R. ( 2011 ). The equilibrium population size of a partially migratory population and its response to environmental change. Oikos, 120, 1847 – 1859.
dc.identifier.citedreferenceHall, R.J., Altizer, S. & Bartel, R.A. ( 2014 ). Greater migratory propensity in hosts lowers pathogen transmission and impacts. J. Anim. Ecol., 83, 1068 – 1077.
dc.identifier.citedreferenceHebblewhite, M. & Merrill, E.H. ( 2009 ). Trade‐offs between predation risk and forage differ between migrant strategies in a migratory ungulate. Ecology, 90, 3445 – 3454.
dc.identifier.citedreferenceHendry, A.P. ( 2004 ). To sea or not to sea: anadromy versus non‐anadromy in salmonids. In: Evolution Illuminated: Salmon and their Relatives (eds Hendry, A.P. & Stearns, S.C. ). Oxford University Press, New York, pp. 92 – 125.
dc.identifier.citedreferenceHerman, W.S. ( 1973 ). The endocrine basis of reproductive inactivity in monarch butterflies overwintering in central California. J. Insect Physiol., 19, 1883 – 1887.
dc.identifier.citedreferenceHerman, W.S. ( 1981 ). Studies on the adult reproductive diapause of the monarch butterfly, Danaus plexippus. Biol. Bulletin, 160, 89 – 106.
dc.identifier.citedreferenceHill, N.J., Takekawa, J.Y., Ackerman, J.T., Hobson, K.A., Herring, G., Cardona, C.J. et al. ( 2012 ). Migration strategy affects avian influenza dynamics in mallards ( Anas platyrhynchos ). Mol. Ecol., 21, 5986 – 5999.
dc.identifier.citedreferenceHines, A.M., Ezenwa, V.O., Cross, P. & Rogerson, J.D. ( 2007 ). Effects of supplemental feeding on gastrointestinal parasite infection in elk ( Cervus elaphus ): preliminary observations. Vet. Parasitol., 148, 350 – 355.
dc.identifier.citedreferenceHobson, K.A., Wassenaar, L.I. & Taylor, O.R. ( 1999 ). Stable isotopes (δD and δ13C) are geographic indicators of natal origins of monarch butterflies in eastern North America. Oecologia, 120, 397 – 404.
dc.identifier.citedreferenceHoward, E. & Davis, A.K. ( 2008 ). The fall migration flyways of monarch butterflies in eastern North America revealed by citizen scientists. J. Insect Conserv., 13, 279 – 286.
dc.identifier.citedreferenceHoward, E., Aschen, H. & Davis, A.K. ( 2010 ). Citizen science observations of monarch butterfly overwintering in the southern United States. Psyche. J. Entomol., 2010, 1 – 6.
dc.identifier.citedreferenceInamine, H., Ellner, S.P., Springer, J.P. & Agrawal, A.A. ( 2016 ). Linking the continental migratory cycle of the monarch butterfly to understand its population decline. Oikos, 125, 1081 – 1091.
dc.identifier.citedreferenceJones, J.D., Kauffman, M.J., Monteith, K.L., Scurlock, B.M., Albeke, S.E. & Cross, P.C. ( 2014 ). Supplemental feeding alters migration of a temperate ungulate. Ecol. Appl., 24, 1769 – 1779.
dc.identifier.citedreferenceKennedy, J.S. ( 1985 ). Migration: behavioral and ecological. In: Migration: Mechanisms and Adaptive Significance. (eds Rankin, M.A. ). Contrib. Mar. Sci., 5 – 26.
dc.identifier.citedreferenceKnight, A. & Brower, L.P. ( 2009 ). The influence of eastern North American autumnal migrant monarch butterflies ( Danaus plexippus L.) on continuously breeding resident monarch populations in southern Florida. J. Chem. Ecol., 35, 816 – 823.
dc.owningcollnameInterdisciplinary and Peer-Reviewed


Files in this item

Name:
ele13144_am.pdf
Size:
525.8KB
Format:
PDF
View/Open
Name:
ele13144.pdf
Size:
1.137MB
Format:
PDF
View/Open

Show simple item record

Remediation of Harmful Language

The University of Michigan Library aims to describe library materials in a way that respects the people and communities who create, use, and are represented in our collections. Report harmful or offensive language in catalog records, finding aids, or elsewhere in our collections anonymously through our metadata feedback form. More information at Remediation of Harmful Language.

Accessibility

If you are unable to use this file in its current format, please select the Contact Us link and we can modify it to make it more accessible to you.