Sex and population dynamics
1994; Royal Society; Volume: 257; Issue: 1348 Linguagem: Inglês
10.1098/rspb.1994.0088
ISSN1471-2954
AutoresMichael Doebeli, Jacob C. Koella,
Tópico(s)Evolutionary Game Theory and Cooperation
ResumoRestricted accessMoreSectionsView PDF ToolsAdd to favoritesDownload CitationsTrack Citations ShareShare onFacebookTwitterLinked InRedditEmail Cite this article Doebeli Michael and Koella Jacob C. 1994Sex and population dynamicsProc. R. Soc. Lond. B.25717–23http://doi.org/10.1098/rspb.1994.0088SectionRestricted accessArticleSex and population dynamics Michael Doebeli Google Scholar Find this author on PubMed Search for more papers by this author and Jacob C. Koella Google Scholar Find this author on PubMed Search for more papers by this author Michael Doebeli Google Scholar Find this author on PubMed and Jacob C. Koella Google Scholar Find this author on PubMed Published:22 July 1994https://doi.org/10.1098/rspb.1994.0088AbstractChaos has been found in many mathematical models of population dynamics. This suggests that it should be a common feature of natural populations, quite in contrast to the scarcity of systems where it has been demonstrated. We suggest in this paper that the reason for this contrast may lie in the reproductive system. Whereas ecological modelling traditionally deals with asexual organisms, we introduce sexual reproduction (and thus explicit population genetics) into the population dynamic models. As specific examples, we describe the effect of sexual reproduction on two models (a host–parasite model and a predator–prey model) which exhibit chaotic behaviour for many sets of parameters. The results show that sexual reproduction generally reduces the complexity of the system, leading to a stable equilibrium or other forms of simple dynamics, or at least reducing the fluctuations of the system. Thus the chaotic behaviour predicted by many population dynamic models may be restricted to systems with asexual reproduction.FootnotesThis text was harvested from a scanned image of the original document using optical character recognition (OCR) software. As such, it may contain errors. 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Plard F, Schindler S, Arlettaz R and Schaub M (2018) Sex-Specific Heterogeneity in Fixed Morphological Traits Influences Individual Fitness in a Monogamous Bird Population, The American Naturalist, 10.1086/694823, 191:1, (106-119), Online publication date: 1-Jan-2018. Kawatsu K (2017) Ecological effects of sex differ with trophic positions in a simple food web, Ecology and Evolution, 10.1002/ece3.3740, 8:2, (1239-1246), Online publication date: 1-Jan-2018. Terry A (2015) A population model with birth pulses, age structure, and non-overlapping generations, Applied Mathematics and Computation, 10.1016/j.amc.2015.09.006, 271, (400-417), Online publication date: 1-Nov-2015. Arriaza M, Domínguez-Rodrigo M, Martínez-Maza C, Mabulla A, Baquedano E and Crowther M (2015) Differential Predation by Age and Sex Classes in Blue Wildebeest in Serengeti: Study of a Modern Carnivore Den in Olduvai Gorge (Tanzania), PLOS ONE, 10.1371/journal.pone.0125944, 10:5, (e0125944) Schindler S, Neuhaus P, Gaillard J and Coulson T (2013) The Influence of Nonrandom Mating on Population Growth, The American Naturalist, 10.1086/670753, 182:1, (28-41), Online publication date: 1-Jul-2013. Merdan H and Gümüş Ö (2012) Stability analysis of a general discrete-time population model involving delay and Allee effects, Applied Mathematics and Computation, 10.1016/j.amc.2012.08.021, 219:4, (1821-1832), Online publication date: 1-Nov-2012. Araújo M, Bolnick D and Layman C (2011) The ecological causes of individual specialisation, Ecology Letters, 10.1111/j.1461-0248.2011.01662.x, 14:9, (948-958), Online publication date: 1-Sep-2011. Bolnick D, Amarasekare P, Araújo M, Bürger R, Levine J, Novak M, Rudolf V, Schreiber S, Urban M and Vasseur D (2011) Why intraspecific trait variation matters in community ecology, Trends in Ecology & Evolution, 10.1016/j.tree.2011.01.009, 26:4, (183-192), Online publication date: 1-Apr-2011. Bessa-Gomes C, Legendre S and Clobert J (2010) Discrete two-sex models of population dynamics: On modelling the mating function, Acta Oecologica, 10.1016/j.actao.2010.02.010, 36:5, (439-445), Online publication date: 1-Sep-2010. Lively C (2010) A Review of Red Queen Models for the Persistence of Obligate Sexual Reproduction, Journal of Heredity, 10.1093/jhered/esq010, 101:Supplement 1, (S13-S20), Online publication date: 1-Mar-2010. LIVELY C (2009) The maintenance of sex: host-parasite coevolution with density-dependent virulence, Journal of Evolutionary Biology, 10.1111/j.1420-9101.2009.01824.x, 22:10, (2086-2093), Online publication date: 1-Oct-2009. Merdan H, Duman O, Akın Ö and Çelik C (2009) Allee effects on population dynamics in continuous (overlapping) case, Chaos, Solitons & Fractals, 10.1016/j.chaos.2007.06.062, 39:4, (1994-2001), Online publication date: 1-Feb-2009. Vellend M and Litrico I (2008) Sex and space destabilize intransitive competition within and between species, Proceedings of the Royal Society B: Biological Sciences, 275:1645, (1857-1864), Online publication date: 22-Aug-2008. Boukal D, Berec L, Křivan V and Brooks R (2008) Does Sex-Selective Predation Stabilize or Destabilize Predator-Prey Dynamics?, PLoS ONE, 10.1371/journal.pone.0002687, 3:7, (e2687) Çelik C, Merdan H, Duman O and Akın Ö (2008) Allee effects on population dynamics with delay, Chaos, Solitons & Fractals, 10.1016/j.chaos.2006.08.019, 37:1, (65-74), Online publication date: 1-Jul-2008. J. Rankin D and Kokko H (2007) Do males matter? The role of males in population dynamics, Oikos, 10.1111/j.2006.0030-1299.15451.x, 116:2, (335-348), Online publication date: 1-Feb-2007. J. Rankin D and Kokko H (2007) Do males matter? The role of males in population dynamics, Oikos, 10.1111/j.0030-1299.2007.15451.x, 116:2, (335-348), Online publication date: 1-Feb-2007. Ranta E, Lundberg P and Kaitala V (2009) Ecology of Populations Flatt T and Scheuring I (2004) Stabilizing factors interact in promoting host–parasite coexistence, Journal of Theoretical Biology, 10.1016/j.jtbi.2003.12.015, 228:2, (241-249), Online publication date: 1-May-2004. Scheuring I (2002) Is Chaos Due to Over-simplification in Models of Population Dynamics?, Selection, 10.1556/Select.2.2001.1-2.13, 2:1-2, (179-191), Online publication date: 1-Apr-2002. FLATT T, MAIRE N and DOEBELI M (2001) A Bit of Sex Stabilizes Host–Parasite Dynamics, Journal of Theoretical Biology, 10.1006/jtbi.2001.2380, 212:3, (345-354), Online publication date: 1-Oct-2001. Schliekelman P and Ellner S (2001) Egg Size Evolution and Energetic Constraints on Population Dynamics, Theoretical Population Biology, 10.1006/tpbi.2001.1524, 60:2, (73-92), Online publication date: 1-Sep-2001. Underwood N and Rausher M (2000) THE EFFECTS OF HOST-PLANT GENOTYPE ON HERBIVORE POPULATION DYNAMICS, Ecology, 10.1890/0012-9658(2000)081[1565:TEOHPG]2.0.CO;2, 81:6, (1565-1576), Online publication date: 1-Jun-2000. Hatcher M, Taneyhill D, Dunn A and Tofts C (1999) Population Dynamics under Parasitic Sex Ratio Distortion, Theoretical Population Biology, 10.1006/tpbi.1998.1410, 56:1, (11-28), Online publication date: 1-Aug-1999. Scheuring I (1999) Allee Effect Increases the Dynamical Stability of Populations, Journal of Theoretical Biology, 10.1006/jtbi.1999.0966, 199:4, (407-414), Online publication date: 1-Aug-1999. Doebeli M and de Jong G (1999) Genetic Variability in Sensitivity to Population Density Affects the Dynamics of Simple Ecological Models, Theoretical Population Biology, 10.1006/tpbi.1998.1385, 55:1, (37-52), Online publication date: 1-Feb-1999. Lindström J and Kokko H (1998) Sexual reproduction and population dynamics: the role of polygyny and demographic sex differences, Proceedings of the Royal Society of London. Series B: Biological Sciences, 265:1395, (483-488), Online publication date: 22-Mar-1998. Crone E (1997) Delayed Density Dependence and the Stability of Interacting Populations and Subpopulations, Theoretical Population Biology, 10.1006/tpbi.1997.1309, 51:1, (67-76), Online publication date: 1-Feb-1997. Doebeli M (2017) QUANTITATIVE GENETICS AND POPULATION DYNAMICS, Evolution, 10.1111/j.1558-5646.1996.tb03866.x, 50:2, (532-546), Online publication date: 1-Apr-1996. Morand S, Manning S and Woolhouse M (1997) Parasite―host coevolution and geographic patterns of parasite infectivity and host susceptibility, Proceedings of the Royal Society of London. Series B: Biological Sciences, 263:1366, (119-128), Online publication date: 22-Jan-1996. This Issue22 July 1994Volume 257Issue 1348 Article InformationDOI:https://doi.org/10.1098/rspb.1994.0088Published by:Royal SocietyPrint ISSN:0962-8452Online ISSN:1471-2954History: Manuscript received14/03/1994Manuscript accepted12/04/1994Published online01/01/1997Published in print22/07/1994 License:Scanned images copyright © 2017, Royal Society Citations and impact Large datasets are available through Proceedings B's partnership with Dryad
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