Hans Metz
Professor emeritus of Mathematic biology
- Name
- Prof.dr. J.A.J. Metz
- Telephone
- +31 71 527 5110
- j.a.j.metz@biology.leidenuniv.nl
Professor emeritus of Mathematic biology
- Science
- Instituut Biologie Leiden
- IBL Algemeen
- Diekmann O., Gyllenberg M. & Metz J.A.J. (2020), On models of physiologically structured populations and their reduction to ordinary differential equations, Journal of Mathematical Biology 80: 189-204.
- Diekmann O., Gyllenberg M. & Metz J.A.J. (2020), Finite dimensional state representation of physiologically structured populations, Journal of Mathematical Biology 80: 205-273.
- Diekmann O., Gyllenberg M. & Metz J.A.J. (2020), Correction to: Finite dimensional state representation of physiologically structured populations, Journal of Mathematical Biology 81: 905-906.
- Ito H.C., Dieckmann U. & Metz J.A.J. (2020), Lotka–Volterra approximations for evolutionary trait-substitution processes, Journal of Mathematical Biology 80: 2141-2226.
- Sun Z., Parvinen K., Heino M., Metz J.A.J., Roos A.M. de & Dieckmann U. (2020), Evolution of reproduction periods in seasonal environments , The American Naturalist 196(4): e88-e109.
- Diekmann O., Gyllenberg M. & Metz J.A.J. (2019), On models of physiologically structured populations and their reduction to ordinary differential equations, Journal of Mathematical Biology 80: 189-204.
- Diekmann O., Gyllenberg M. & Metz J.A.J. (2019), Finite dimensional state representation of physiologically structured populations, Journal of Mathematical Biology 80: 205-273.
- Diekmann O., Gyllenberg M. & Metz J.A.J. (2018), Finite Dimensional State Representation of Linear and Nonlinear Delay Systems, Journal of Dynamics and Differential Equations 30(4): 1439–1467.
- Galis F., Metz J.A.J. & Alphen J.J.M. van (2018), Development and evolutionary constraints in animals, Annual Review of Ecology Evolution and Systematics 49: 499-522.
- Johansson J., Brännström Å., Metz J.A.J. & Dieckmann U. (2018), Twelve fundamental life histories evolving through allocation-dependent fecundity and survival, Ecology and Evolution 8(6): 3172–3186.
- Lion S. & Metz J.A.J. (2018), Beyond R0 maximisation: on pathogen evolution and environmental dimensions, Trends in Ecology & Evolution 33(6): 458-473.
- Collet P., Méléard S. & Metz J.A.J. (2013), A rigorous model study of the adaptative dynamics of Mendelian diploids, 67(3): 569-607.
- De Roos A.M. & Metz J.A.J. (2013), Ontogenetic symmetry and asymmetry in energetics, 66(4-5): 889-914.
- Metz J.A.J. & Kovel C.G.F. de (2013), The canonical equation of adaptive dynamics for Mendelian diploids and haplo-diploids, Interface Focus 3(20130025): .
- Metz J.A.J. & Tran V.C. (2013), Daphnias: from the individual based model to the large population equation, 66(4-5): 915-933.
- Metz J.A.J. (2013), On the concept of individual in ecology and evolution, 66(4-5): 635-647.
- Rueffler C. & Metz J.A.J. (2013), Necessary and sufficient conditions for R0 to be a sum of contributions of fertility loops, 66(4-5): 635-647.
- Rueffler C., Van Dooren T.J.M. & Metz J.A.J. (2013), What life cycle graphs can tell about the evolution of life histories, 66(1): 225-279.
- Metz J.A.J. (2012), Adaptive Dynamics. In: Hastings A. & Louis J.G. (Eds.), Encyclopedia of Theoretical Ecology.. California: California University Press. 7-17.
- Gupta A., Metz J.A.J. & Tran V.C., A new proof for the convergence of an individual based model to the Trait substitution sequence. [blog entry].
- Metz J.A.J. (2012), On the concept of individual in ecology and evolution, : .
- Metz J.A.J. & Tran V.C. (2012), Daphnias: from the individual based model to the large population equation, Journal of Mathematical Biology 66(4-5): 915-933.
- Rueffler C., Dooren T.J.M. van & Metz J.A.J. (2012), What life cycle graphs can tell about the evolution of life histories, : .
- Rueffler C. & Metz J.A.J. (2012), Necessary and sufficient conditions for R0 to be a sum of contributions of fertility loops, : .
- Roos A.M. de & Metz J.A.J. (2012), Ontogenetic symmetry and asymmetry in energetics, Journal of Mathematical Biology 66: 889-914.
- Collet P., Méléard S. & Metz J.A.J. (2012), A rigorous model study of the adaptative dynamics of Mendelian diploids, : .
- Gyllenberg M., Metz J.A.J. & Service R. (2011), When do optimisation arguments make evolutionary sense?. In: Chalub F.A.C.C. & Rodrigues J.F. (Eds.), The Mathematics of Darwin's Legacy. Basel: Birkhauser. 235-269.
- Metz J.A.J. (2011), Thoughts on the geometry of meso-evolution: collecting mathematical elements for a post-modern synthesis. In: Chalub F.A.C.C. & Rodrigues J.F. (Eds.), The Mathematics of Darwin's Legacy. Basel: Birkhauser. 197-234.
- Jesse M., Mazucco R., Metz J.A.J., Dieckmann U., Heesterbeek J.A.P. & Metz J.A.J. (2011), Invasion and persistence of infectious agents in fragmented host populations, PLoS ONE 6(9): e24006.
- Metz J.A.J. & Leimar O. (2011), A simple fitness proxy for ESS calculations in structured populations with continuous traits, with applications to the evolution of haplo-diploids and genetic dimorphisms, Journal of Biological Dynamics 5: 163-190.
- Berg F. van den, Bacaer N., Metz J.A.J., Lannou C. & Bosch F. van den (2011), Periodic host absence can select for higher or lower parasite transmission rates, Evolutionary Ecology 25: 121-137.
- Metz J.A.J., Klinkhamer P.G.L. & Jong T.J. de (2009), A different model to explain delayed germination, Evol. Ecol. Res. 11: 177-190.
- Diekmann O., Gyllenberg M., Metz J.A.J., Nakaoka S. & Roos A.M. de (2009), Daphnia revisited: local stability and bifurcation theory for physiologically structured population models explained by way of an example, J. Math. Biol. : .
- Parvinen K. & Metz J.A.J. (2008), On diploid versus clonal ESSes in metapopulations, Theoretical Population Biology 73: 517-528.
- Metz J.A.J., Mylius S.M. & Diekmann O. (2008), Even in the odd cases when evolution optimises, unrelated population dynamical details may shine through in the ESS, Evolutionary Ecology Research 10: 655-666.
- Metz J.A.J. (2008), Fitness. In: Jørgensen Sven Erik (Ed.), Encyclopedia of Ecology. Oxford: Elsevier.
- Deutsch A., Bravo de la Parra R., Boer R.J. de, Diekmann O., Jagers P., Kisdi E., Kretzschmar M., Lansky E.P. & Metz J.A.J. (2008), Mathematical Modeling of Biological Systems. In: Deutsch A. & et al. (Eds.), Mathematical Modeling of Biological Systems: Birkhäuser.
- Metz J.A.J., Mylius S.M. & Diekmann O. (2008), When does evolution optimise?, Evolutionary Ecology Research 10: 629-654.
- Durinx M., Metz J.A.J. & Meszéna G. (2008), Adaptive dynamics for physiologically structured models, 56: 673-742.
- Galis F. & Metz J.A.J. (2007), Evolutionary novelties: the making and breaking of pleiotropic constraints, Integrative & Comparative Biology 47: 409-419.
- Galis F., Sluijs I. van der, Dooren T.J.M. van, Metz J.A.J. & Nussbaumer M. (2007), Do large dogs die young?, Journal of Experimental Zoology. Part B: Molecular and Developmental Evolution 308B: 119-126.
- Rueffler C., Dooren T.J.M. van & Metz J.A.J. (2007), The interplay between behavior and morphology in the evolutionary dynamics of resource specialization, The American Naturalist 169: E34-E52.
- Diekmann O, Gyllenberg M & Metz J.A.J. (2007), Physiologically structured population models: towards a general mathematical theory. In: Takeuchi Y., Iwasa Y. & Sato K. (Eds.), Mathematics for Ecology and Environmental Sciences. Berlin: Springer. 5-20.
- Rueffler C., Egas M. & Metz J.A.J. (2006), Evolutionary predictions should be based on individual-level traits, American Naturalist 167: E148-E162.
- Galis F., Dooren T.J.M. van, Feuth J.D., Metz J.A.J., Witkam A., Ruinard S., Steigenga M.J. & Wijnaendts L.C.D. (2006), Extreme selection against homeotic transformations of cervical vertebrae in humans, Evolution 60: 2643-2654.
- Dieckmann U. & Metz J.A.J. (2006), Surprising evolutionary predictions from enhanced ecological realism, Theoretical Population Biology 69: 263-281.
- Rueffler C., Egas M. & Metz J.A.J. (2006), Evolutionary predictions should be based on individual traits, American Naturalist 168: 148-162.
- Mesz G., Gyllenberg M., Elsztor L. & Metz J.A.J. (2006), Competitive exclusion and limiting similarity: a unified theory, Theoretical Population Biology 69: 68-87.
- Rueffer C., Dooren T.J.M. van & Metz J.A.J. (2006), The evolution of resource specialization through frequency-dependent and frequency-independent mechanisms, American Naturalist 167: 81-93.
- Galis F., Dooren T.J.M. van, Feuth J.D.M., Metz J.A.J., Witkam A., Ruinard S., Steigenga M.J. & Wijnaendts L.C.D. (2006), Extreme selection in humans against homeotic transformations of cervical vertebrae, Evolution 60: 2643-2654.
- Durinx M. & Metz J.A.J. (2005), Multi-type Branching Processes and Adaptive Dynamics of Structured Populations. In: Haccou P., Jagers P. & Vatutin V. (Eds.), Branching Processes in Biology: Variation, Growth and Extinction Cambridge Studies in Adaptive Dynamics 5: Cambridge UP. 266-277.
- Metz J.A.J. (2005), Commentary: Eight personal rules for doing science, Journal of Evolutionary Biology 18: 1178-1181.
- Galis F., Kundrát M. & Metz J.A.J. (2005), Hox genes, digit identities and the theropod/bird transition, JOURNAL OF EXPERIMENTAL ZOOLOGY PART B-MOLECULAR AND DEVELOPMENTAL EVOLUTION 304B: 198-205.
- Meszéna G., Gyllenberg M., Jacobs F.J. & Metz J.A.J. (2005), Dynamics of similar populations: the link between population and dynamics evolution, Physical Review Letters 95(7): 078105.
- Doebeli M., Dieckmann U., Metz J.A.J. & Tautz D. (2005), What we have also learned: Adaptive speciation is theoretically plausible, Evolution 59: 691-695.
- Beltman J.B. & Metz J.A.J. (2005), Speciation: more likely through a genetic or through a learned habitat preference?, Proceedings of the Royal Society B: Biological Sciences 272(1571): 1455-1463.
- Reffler C., Dooren T.J.M. van & Metz J.A.J. (2004), Adaptive walks on changing landscapes: Levins' approach extended, Theoretical Population Biology 65: 165-178.
- Heesterbeek J.O., Diekmann O. & Metz J.A.J. (2004), De wiskundige kat, de biologische muis en de jacht op inzicht;verkenningen op het grensvlak van wiskunde en biologie. Utrecht: Epsilon Uitgaven.
- Cadet C., Metz J.A.J. & Klinkhamer P.G.L. (2004), Size and the not-so-single sex: Disentangling the effects of size and budget on sex allocation in hermaphrodites, American Naturalist 164(6): 779-792.
- Jacobs F.J.A. & Metz J.A.J. (2003), On the concept of attractor for community-dynamical processes I: The case of unstructued populations, 47: 222-234.
- Parvinen K., Dieckmann U., Gyllenberg M. & Metz J.A.J. (2003), Evolution of dispersal in metapopulations with local density dependence and demographic stochasticity, Journal of Evolutionary Biology 16: 143-153.
- Cadet C., Ferrière R., Metz J.A.J. & Baalen M. van (2003), The Evolution of Dispersal under Demographic stochasticity, American Naturalist 162: 427-441.
- Galis F. & Metz J.A.J. (2003), Anti-cancer selection as a source of developmental and evolutionary constraints, Bioessays 25: 1035-1039.
- Gyllenberg M., Jacobs F.J.A. & Metz J.A.J. (2003), On the concept of attractor for community-dynamical processes II: The case of structured populations, 47: 235-248.
- Galis F., Sinervo B. & Metz J.A.J. (2002), The Digital Arch Model Reconsidered, Trends in Ecology & Evolution 17(9): 405.
- Sabelis M.W. & Metz J.A.J. (2002), Taking Stock: Relating Theory to Experiment. In: Dieckmann U., Metz J.A.J., Sabelis M.W. & Sigmund K. (Eds.), Adaptive Dynamics of Infectious Diseases: In Pursuit of Virulence Management. Cambridge: Cambridge University Press. 379-398.
- Galis F., Alphen J.J.M. van & Metz J.A.J. (2002), Digit reduction: via repatterning or developmental arrest?, Evolution and Development 4: 249-251.
- Galis F. & Metz J.A.J. (2002), Waarom zoogdieren zeven nekwervels hebben, Natuur & Techniek 70(3): 45.
- Galis F., Dooren T.J.M. van & Metz J.A.J. (2002), Conservation of the segmented germband stage: robustness or pleiotropy?, Trends in Genetics 18: 504-509.
- Galis F., Alphen J.J.M. van & Metz J.A.J. (2002), Pseudo-homeosis in avian feet, Trends in Ecology & Evolution 17(6): 256.
- Heino M., Metz J.A.J. & Kaitala V. (1998), The enigma of frequency-dependent selection, TREE 13: 367-370.
- Heino M., Metz J.A.J. & Kaitala V. (1998), Reply from M Heino, JAJ Metz & V Kaitala. TREE 13, (12 December 1998): 509, TREE 13: 367-370.
- Galis F. & Metz J.A.J. (1998), Why are there so many cichlid species?, TREE 13: 1-2.
- Diekmann O., Jong M.C.M. & Metz J.A.J. (1998), A deterministic epidemic model taking account of repeated contacts between the same individuals, J.App.Prob. 35: 448-462.
- Diekmann O, Gyllenberg M, Metz J.A.J. & Thieme H.R. (1998), On the formulation and analysis of general deterministic structured population models. I. Linear theory, 36: 349-388.
- Galis F. & Metz J.A.J. (1998), Why are there so many cichlid species? Comments on the interplay of speciation and adaptive radiation, Trends in Ecological Evolution 13: 1-2.
- Geritz S.A.H., Kisdi E., Meszéna G. & Metz J.A.J. (1998), Evolutionarily singular strategies and the adaptive growth and branching of the evolutionary tree, Evolutionary Ecology 12: 35-37.
- Dooren T.J.M. van & Metz J.A.J. (1998), Delayed maturation in temporally structured populations with non-equilibrium dynamics, Journal of Evolutionary Biology 11: 41-62.
- Metz J.A.J., Haccou P. & Meelis E. (1994), On the Shapiro-Wilk test and Darling's test for exponentiality, Biometrics 50: 527-530.