UNIVERSIDAD CENTRAL DE VENEZUELA
FACULTAD DE CIENCIAS
POSTGRADO EN ECOLOGIA
ECOLOGIA DE POBLACIONES
Septiembre 2006
Capítulo VI : Dinámica de Enfermedades Infecciosas
Bibliografía
General
Anderson, P.K., A.A. Cunningham, N.G. Patel, F.J. Morales, P.R. Epstein y P. Daszak. 2004.
Emerging infectious diseases of plants: pathogen pollution, climate change and
agrotechnology drivers. Tre. Ecol. Evol 19: 535-544.
Anderson, R.M. 1989. Discussion: Ecology of pests and pathogens. En J. Roughgarden, R.M.
May y S.A. Levin (Eds.) "Perspectives in Ecological Theory". Princeton University
Press. Princeton, New Jersey.
Anderson, R.M. 1991. Populations and infectious diseases: Ecology or Epidemiology?. J.
Anim. Ecol. 60: 1-50.
Anderson, R.M. 1995. Evolutionary pressures in the spread and persistence of infectious
agents in vertebrate populations. Proc. Roy. Soc. Lond. B 111: S15-S31.
Anderson, R.M. y R.M. May. 1986. The invasion, persistence and spread of infectious
diseases within animal and plant communities. Phil. Trans. R. Soc. Lond. B 314: 533570.
Anderson, R.M. y R.M. May. 1992. Infectious Diseases of Humans. Oxford University Press,
Oxford.
Anderson, R.M., R.M. May y S.Gupta. 1989. Non-linear phenomena in host-parasite
interactions. Parasitology 99: S59-S79.
Antonovics, J. 2004. Long-term study of a plant-pathogen metapopulation. En I, Hanski y
O.E. Gaggiotti (Eds.) Ecology, Genetics and Evolution of Metapopulations. Elsevier,
Amsterdam.
Awerbuch, T. 1994. Evolution of mathematical models of epidemics. Ann. N.Y. Acad. Sci.
740: 232-241.
Basáñez, M.-G., C. Marshall, H. Carabin, T. Gyorkos y L. Joseph. 2004. Bayesian statistics
for parasitologists. Tre. Parasitol. 20: 85-91.
Basáñez, M.-G., y D.J. Rodríguez. 2004. Dinámica de transmisión y modelos matemáticos en
enfermedades transmitidas por vectores. Entomotropica 19: 113-134.
Bauch, C.T., y D.J.D. Earn. 2004. Vaccination and the theory of games. Proc. Natl. Acad. Sci.
USA 101: 13391-13394.
Begon, M., R.G. Bowers, N. Kadianakis y D.E. Hodgkinson. Disease and community
structure: the importance of host self-regulation in a host-pathogen model. Amer.
Natur. 139: 1131-1150.
Begon, M., J.L. Harper y C.R. Townsend. 1996. Ecology. 3a edición. Blackwell, Cambridge,
Massachusetts. (Capítulo 12).
Binder, S., A.M. Levitt, J.J. Sacks y J.M. Hughes. 1999. Emerging infectious diseases: public
health issues for the 21st century. Science 284: 1311-1313.
Bolker, B.M. 2003. Combining endogenous and exogenous spatial variability in analytical
population models. Theor. Popul. Biol. 64: 255-270.
Bonsall, M. 2002. Evolutionary and ecological aspects of disease parasitism. Tre. Ecol. Evol.
17: 401-403.
Boots, M., y A. Sasaki. 2001. Parasite-driven extinction in spatially explicit host-parasite
systems. Amer. Natur. 159: 706-713.
Briggs, C.J., y H.C.J. Godfray. 1996. The dynamics of insect-pathogen interactions in
seasonal environments. Theor. Popul. Biol. 50: 149-177.
Brockhurst, M.A., P.B. Rainey y A. Buckling. 2004. The effect of spatial heterogeneity and
parasites on the evolution of host diversity. Proc. R. Soc. Lond. B 271: 107-111.
Brown, D.H., y B.M. Bolker. 2004. The effects of disease dispersal and host clustering on the
epidemic threshold in plants. Bull. Math. Biol. 66: 341-371.
Brunet, R.C., y C.J. Struchiner. 1996. Rate estimation from prevalence information on a
simple epidemiological model for health interventions. Theor. Popul. Biol. 50: 209-226.
Buckee, C. O’F., K. Koelle, M.J. Mustard y S. Gupta. 2004. The effect of host contact network
structure on pathogen diversity and strain structure. Proc. Natl. Acad. Sci. USA 101:
10839-10844.
Cope, D.R., G.R. Iason y I.J. Gordon. 2004. Disease reservoir in complex systems: a
comment on recent work by Laurenson et al. J. Anim. Ecol. 73: 807-810.
Cruickshank, I., W.S.C. Gurney y A.R. Veitch. 1999. The characteristics of epidemics and
invasions with thresholds. Theor. Popul. Biol. 56: 279-292.
Daszak, P., A.A. Cunningham y A.D. Hyatt. 2000. Emerging infectious diseases of wildlife –
Threats to biodiversity and human health. Science 287: 443-449.
Day, T. 2002. The evolution of virulence in vector-borne and directly transmitted parasites.
Theor. Popul. Biol. 62: 199-213.
2
Day, T. 2003. Virulence evolution and the timing of disease life-history events. Tre. Ecol.
Evol. 18: 113-118.
Day, T., y S.R. Proulx. 2004. A general theory for the evolutionary dynamics of virulence.
Amer. Natur. 163: E40-E63.
Dietz, K., y J.A.P. Heesterbeek. 2002. Daniel Bernoulli’s epidemiological model revisited.
Math. Biosci. 180: 1-21.
Dobson, A.P. 1988. The population biology of parasite-induced changes in host behavior.
Quart. Rev. Biol. 63: 139-165.
Dobson, A., y J. Foufopoulos. 2001. Emerging infectious pathogens of wildlife. Phil. Trans. R.
Soc. Lond. B 356: 1001-1012.
Dobson, A. 2004. Population dynamics of pathogens with multiple hosts species. Amer.
Natur. 164: S64-S78.
Dwyer, G., J. Dushoff, J.E. Elkinton y S.A. Levin. 2000. Pathogen-driven outbreaks in forest
defoliators revisited: building models from experimental data. Amer. Natur. 155: 105120.
Earn, D.J.D., P. Rohani, B.M. Bolker y B.T. Grenfell. 2000. A simple model for complex
dynamical transitions in epidemics. Science 287: 667-670.
Elliot, S.L., F.R. Adler y M.W. Sabelis. 2003. How virulent should a parasite be to its vector?.
Ecology 84: 2568-2574.
Eubank, S., H. Guclu, V.S.A. Kumar, M.V. Marathe, A. Srinivarsan, Z. Toroczkai y N. Wang.
2004. Modelling disease outbreaks in realistic urban social networks. Nature 429: 180184.
Farrington, C.P. 2003. On vaccine efficacy and reproduction numbers. Math. Biosci. 185: 89109.
Filipe, J.A.N., y G.J. Gibson. 1998. Studying and approximating spatio-temporal models for
epidemic spread and control. Proc. Roy. Soc. Lond. B 353: 2153-2162.
Filipe, J.A.N., y M.M. Maule. 2003. Analytical methods for predicting the behaviour of
population models with general spatial interactions. Math. Biosci. 183: 15-35.
Filipe, J.A.N., W. Otten, G.J. Gibson y C.A. Gilligan 2004. Inferring the dynamics of a spatial
epidemic from time-series data. Bull. Math. Biol. 66: 373-391.
Frank, S.A. 1996. Models of parasite virulence. Q. Rev. Biol. 71: 37-78.
Gandon, S., y Y. Michalakis. 2000. Evolution of parasite virulence against qualitative or
quantitative host resistance. Proc. R. Soc. Lond. B 267: 985-990.
3
Gandon, S., P. Agnew y Y. Michalakis. 2002. Coevolution between parasite virulence and
host life-history traits. Amer. Natur. 160: 374-388.
Garnett, G.P. y E.C. Holmes. 1996. The ecology of emergent infectious diseases. BioScience
46: 127-135.
Gibson, G.J., A. Kleczkowski y C.A. Gilligan. 2004. Bayesian analysis of botanical epidemics
using stochastic compartmental models. Proc. Natl. Acad. Sci. USA 101: 1212012124.
Gilbert, G.S. y S.P. Hubbell. 1996. Plant diseases and the conservation of tropical forests.
BioScience 46: 98-106.
Gomes, M.G.M., L.J. White y G.F. Medley. 2004. Infection, reinfection, and vaccination under
suboptimal immune protection: epidemiological perspective. J. Theor. Biol. 228: 539549.
Gratz, N.G. 1999. Emerging and resurging vector-borne diseases. Annu. Rev. Entomol. 44:
51-75.
Grenfell, B.T., y A.P. Dobson (Eds.). 1995. Ecology of Infectious Diseases in Natural
Populations. Cambridge University Press, Cambridge.
Grenfell, B. y J. Harwood. 1997. (Meta)population dynamics of infectious diseases. Tre. Ecol.
Evol. 12: 395-399.
Greenman, J.V., y P.J. Hudson. 1999. Host exclusion and coexistence in apparent and direct
competition: an application of bifurcation theory. Theor. Popul. Biol. 56: 48-64.
Greenman, J.V., y P.J. Hudson. 2000. Multihost, multiparasite systems: An application of
bifurcation theory. IMA J. Math. Appl. Med. Biol. 16: 333-367.
Grutter, A.S. 2002. Cleaning symbioses from the parasites perspective. Parasitology 124:
S65-S81.
Gudelj, I., y K.A.J. White. 2004. Spatial heterogeneity, social structure and disease dynamics
of animal populations. Theor. Popul. Biol. 66: 139-149.
Guernier, V., M.E. Hochberg y J.-F. Guégan. 2004. Ecology drives the worldwide distribution
of human diseases. PLoS Biology 2: 0740-0746.
Hagenaars, T.J., C.A. Donnelly y N.M. Ferguson. 2004. Spatial heterogeneity and the
persistence of infectious diseases. J. Theor. Biol. 229: 349-359.
Hakoyama, H., y Y. Iwasa. 2004. Coexistence of a sexual and an unisexual form stabilized by
parasites. J. Theor. Biol. 226: 185-194.
4
Harvell, C.D., K. Kim, J.M. Burkholder, R.R. Colwell, P.R. Epstein, D.J. Grimes, E.E.
Hofmann, E.K. Lipp, A.D.M. Osterhaus, R.M. Overstreet, J.W. Porter, G.W. Smith y
G.R. Vasta. 1999. Emerging marine diseases – Climate links and anthropogenic
factors. Science 285: 1505-1510.
Harvell, D., R. Aronson, N. Baron, J. Connell, A. Dobson, S. Ellner, L. Gerber, K. Kim, A.
Kuris, H. McCallum, K. Lafferty, B. McKay, J. Porter, M. Pascual, G. Smith, K.
Sutherland y J. Ward. 2004. The rising tide of ocean diseases: unsolved problems and
research priorities. Front. Ecol. Environ. 2: 375-382.
Hassell, M.P., y R.M. Anderson. 1989. Predator-prey and host-pathogen interactions. En J.M.
Cherrett (Ed.) "Ecological Concepts". Blackwell, Oxford.
Hassell, M.P. y R.M. May. 1989. The population biology of host-parasite and host-parasitoid
associations. En J. Roughgarden, R.M. May y S.A. Levin (Eds.) "Perspectives in
Ecological Theory". Princeton University Press. Princeton, New Jersey.
Hastings, A. 1997.Population Biology. Concepts and Models. Springer Verlag, New
York.(Capítulo 10).
Hernández-Suárez, C.M. 2002. A Markov chain approach to calculate R0 in stochastic
epidemic models. J. Theor. Biol. 215: 83-93.
Hess, G.R. 1994. Conservation corridors and contagious disease: A cautionary note.
Conserv. Biol. 8: 256-262.
Hess, G. 1996. Disease in metapopulation models: Implications for conservation. Ecology 77:
1617-1632.
Hill, A.N., y I.M. Longini Jr. 2003. The critical vaccination fraction for heterogeneous epidemic
models. Math. Biosci. 181: 85-106.
Hethcote, H.W. 2000. The mathematics of infectious diseases. SIAM Review 42: 599-653.
Hethcote, H.W., W. Wang, L. Han y Z. Ma. 2004. A predator-prey model with infected prey.
Theor. Popul. Biol. 66: 259-268.
Hoberg, E.P., y G.J. Klassen. 2002. Revealing the faunal tapestry: co-evolution and historical
biogeography of hosts and parasites in marine ecosystems. Parasitology 124: S3-S22.
Holdenrieder, O., M. Pautasso, P.J. Weisberg y D. Lonsdale. 2004. Tree diseases and
landscape processes: the challenge of landscape pathology. Tre. Ecol. Evol. 19: 446452.
Holt, R.D. 1993. Infectious diseases of wildlife, in theory and practice. Tre. Ecol. Evol. 8: 423425.
Hufnagel, L., D. Brockmann y T. Geisel. 2004. Forecast and control of epidemics in a
globalized world. Proc. Natl. Acad. Sci. USA 101: 15124-15129.
5
Jones, L.E., y S.P. Ellner. 2004. Evolutionary tradeoff and equilibrium in an aquatic predatorprey system. Bull. Math. Biol. 66: 1547-1573.
Kakehashi, M. 1996. Populations and infectious diseases: dynamics and evolution. Res.
Popul. Ecol. 38: 203-210.
Keeling, M.J. 1999. The effects of local spatial structure on epidemiological invasions. Proc.
R. Soc. Lond. B 266: 859-867.
Keeling, M.J. 1999. Correlation equations for endemic diseases: externally imposed and
internally generated heterogeneity. Proc. R. Soc. Lond. B 266: 953-960.
Keeling, M.J. 2000. Evolutionary trade-offs and two time-scales: competition versus
persistencens. Proc. R. Soc. Lond. B 267: 385-391.
Keeling, M.J., B.T. Grenfell. 2000. Individual-based perspectives on R0. J. Theor. Biol. 203:
51-61.
Keeling, M.J., y P. Rohani. 2002. Estimating spatial coupling in epidemiological systems: a
mechanistic approecah. Ecology Letters 5: 20-29.
Keeling, M.J., H.B. Wilson y S.W. Pacala. 2002. Deterministic limits to stochastic spatial
models of natural enemies. Amer. Natur. 159: 57-80.
Keeling, M.J., O.N. Bjørnstad y B.T. Grenfell. 2004. Metapopulation dynamics of infectious
diseases. En I, Hanski y O.E. Gaggiotti (Eds.) Ecology, Genetics and Evolution of
Metapopulations. Elsevier, Amsterdam.
Kelly, D.W. 2001. Why are some people bitten more than others?. Tre. Parasitol. 17: 578581.
Kirchner, J.W., y B.A. Roy. 1999. The advantages of dying young: Epidemiological
implications of longevity in metapopulations. Amer. Natur. 154: 140-159.
Lafferty, K.D., J.W. Porter y S.E. Ford. 2004. Are diseases increasing in the ocean?. Annu.
Rev. Ecol. Evol. Syst. 35: 31-54
Levin, B.R., M. Lipsitch y S. Bonhoeffer. 1999. Population biology, evolution, and infectious
disease: convergence and synthesis. Science 283: 806-809.
Levins, R. 1994. Natural selection in pathogens. Ann. N.Y. Acad. Sci. 740: 260-270.
Levins, R., T. Awerbuch, U. Brinkmann, Y. Eckardt, P. Epstein, N. Makhoul, C. Albuquerque
de Posas, C. Puccia, A. Spielman y M.E. Wilson. 1994. The emergence of new
diseases. Amer. Sci. 82: 52-60.
6
Liebhold, A., W.D. Koenig y O.N. Bjørnstad. 2004. Spatial synchrony in population dynamics.
Annu. Rev. Ecol. Evol. Syst. 35: 467-490.
Lloyd, A.L. 2001. Destabilization of epidemic models with the inclusion of realistic
distributions on infectious periods. Proc. R. Soc. Lond B 268: 985-993.
Lloyd, A.L., y V.A.A. Jansen. 2004. Spatiotemporal dynamics of epidemics: synchrony in
metapopulation models. Math. Biosci. 188: 1-16.
Logan, J.A., J. Régnière y J.A. Powell. 2003. Assessing the impact of global warming on
forest insect pests. Front. Ecol. Environ. 1: 130-137.
Lounibos, L.P. 2002. Invasions by insect vectors of human diseases. Annu. Rev. Ecol. Syst.
47:
Mack, R.N., D. Simberloff, W.M. Lonsdale, H. Evans, M. Clout y F.A. Bazzaz. 2000. Biological
invasions: causes, epidemiology, global consequences, and control. Ecol. Appl. 10:
689-710.
MacKenzie, K. 2002. Parasites as biological tags in population studies of marine organisms:
an update. Parasitology 124: S153-S163.
Marcogliese, D.J. 2002. Food webs and the transmission of parasites to marine fish.
Parasitology 124: S83-S99.
May, R.M., S. Gupta y A.R. McLean. 2001. Infectious disease dynamics: What characterizes
a successful invader?. Phil. Trans. R. Soc. Lond B 356: 901-910.
McCallum, H., N. Barlow y J. Hone. 2001. How should pathogen transmission be modelled?.
Tre. Ecol. Evol. 16: 295-300.
McCallum, H., y A. Dobson. 2002. Disease, habitat fragmentation and conservation. Proc. R.
Soc. Lond. B 269: 2041-2049.
McCallum, H.I., A. Kuris, C.D. Harvell, K.D. Lafferty, G.W. Smith y J. Porter. 2004. Does
terrestrial epidemiology apply to marine systems?. Tre. Ecol. Evol. 19: 585-591.
McLean , A.R., R.M. May, J. Pattison y R.A. Weiss. 2004. Introduction. Phil. Trans. R. Soc.
Lond. B 359: 1047-1048.
McMichael, A.J. 2004. Environmental and social influences on emerging infectious diseases:
past, present and future. Phil. Trans. R. Soc. Lond. B 359: 1049-1058.
Medlock, J., y M. Kot. 2003. Spreading disease: integro-differntial equations old and new.
Math. Biosci. 184: 201-222.
Mohtashemi, M., y R. Levins. 2001. Transient dynamics and early diagnostics in infectious
diseases. J. Math. Biol. 43: 446-470.
7
Morens, DM., G.K. Folkers y A.S. Fauci. 2004. The challenge of emerging and re-emerging
infectious diseases. Nature 430: 242-249.
Morgan, A.D., y A Buckling. 2004. Parasites mediate the relationship between host diversity
and disturbance frequency. Ecol. Letters 7: 1029-1034.
Mouritsen, K.M., y R. Poulin. 2002. Parasitism, community structure and biodiversity in
intertidal ecosystems. Parasitology 124: S101-S117.
Myers, J.H., y L.E. Rothman. 1995. Virulence and transmision of infectious diseases in
humans and insects: evolutionary and demographic patterns. Tre. Ecol. Evol. 10: 194198.
Newman, M.E.J. 2002. The spread of epidemic disease ion networks. Santa Fe Institute
Working Paper # 02-04-020.
Newman, M.E.J., I. Jensen y R.M. Ziff. 2001. Percolation and epidemics in a two-dimensional
small world. Santa Fe Institute Working Paper # 01-09-046.
Otten, W., J.A.N. Filipe, D.J. Bailey y C.A. Gilligan. 2003. Quantification and analysis of
transmission rates for soilborne epidemics. Ecology 84: 3232-3239.
Park, A.W., J.L.N. Wood, J.M. Daly, J.R. Newton, K. Glass, W. Henley, J.A. Mumford y B.T.
Grenfell. 2004. The effects of strain heterology on the epidemiology of equine
influenza in a vaccinated population. Proc. R. Soc. Lond B 271: 1547-1555.
Petermann, T., y P. De Los Rios. 2004. Cluster approximations for epidemic processes: a
systematic description of correlations beyond the pair level. J. Theor. Biol. 229: 1-11.
Pimentel, D., M. Tort, L. D’Anna, A. Krawic, J. Berger, J. Rossman, F. Mugo, N. Doon, M.
hriberg, E. Howard, S. Lee y J. Talbot. 1998. Ecology of Increasing Disease. Poblation
growth and environmental degradation. BioScience 48:817-826.
Poulin, R., y S. Morand. 2000. The diversity of parasites. Q. Rev. Biol. 75: 277-293.
Prender, J., C. MacNeil, J.T.A. Dick y A.M. Dunn. 2004. Roles of parasites in animal
invasions. Tre. Ecol. Evol. 19: 385-390.
Puccia, C., T. Awerbuch y R. Levins. 1994. Models for new and resurgent diseases. Ann.
N.Y. Acad. Sci 740: 225-231.
Real, L.A. 1996. Sustainability and the ecology of infectious diseases. BioScience 46: 88-97.
Regoes, R.R., M.A. Nowak y S. Bonfoeffer.2000. Evolution of virulence in a heterogeneous
host population. Evolution 54: 64-71.
8
Ricklefs, R.E., y G.E. Miller. 2000. Ecology. 4a edición. Freeman, New York. (Capítulo 24).
Rhodes, C.J. y R.M. Anderson. 1997. Epidemic thresholds and vaccination in a lattice model
of disease spread. Theor. Popul. Biol. 52: 101-118.
Roberts, M.G. 2004. Modelling strategies for minimizing the impact of an imported exotic
infection. Proc. R. Soc. Lond B 271: 2411-2415
Roberts, M.G., y J.A.P. Heesterbeek. 2003. A new method for estimating the effort required
to control an infectious disease. Proc. R. Soc. Lond. B 270: 1359-1364.
Rohani, P., D.J.D. Earn y B.T. Grenfell. 1999. Oposite patterns of synchrony in sympatric
disease metapopulations. Science 286: 968-971.
Roughgarden, J. 1997. Primer of Ecological Theory. Prentice Hall, New Jersey. (Capítulo 6).
Roy, B.A., y J.W. Kirhner. 2000. Evolutionary dynamics of pathogen resistance and tolerance.
Evolution 54: 51-63.
Ruppel, A., y M.J. Doenhoff. 1998. Vector biology and the control of parasitic diseases.
Paras. Today 14: 299-300.
Schrag, S.J., y P. Wiener. 1995. Emerging infectious disease: What are the relative roles of
ecology and evolution?. Tre. Ecol. Evol. 10: 319-324.
Skorping, A., y K.H. Jensen. 2004. Disease dynamics: all caused by males?. Tre. Ecol. Evol.
19: 219-220.
Smith, G. 1994. Characteristics of host-parasite systems that promote parasite persistence.
Ann. N.Y. Acad. Sci. 740: 242-248.
Smith, K.F., A.P. Dobson, F.E. McKenzie, L.A. Real, D.L. Smith y M.L. Wilson. 2005.
Ecological theory to enhance infectious disease control and public health policy. Front.
Ecol. Environ. 3: 29-37.
Stauffer, J.R.,Jr., M.E Arnegard, M. Cetron, J.J. Sullivan, L.A. Chistulo, G.F. Turner, S.
Chiotha y K.R. McKaye. 1997. Controlling vectors and hosts of parasitic diseases
using fishes. BioScience 47: 41-49.
Sutherst, R.W., J.S.I. Ingram y H. Scherm. 1998. Global change and vector-borne diseases.
Paras. Today 14: 297-299.
Swinton, J. 1998. Extinction times and phase transitions for spatially structured closed
populations. Bull. Math. Biol. 60: 215-230.
Taylor, L.H., S.M. Latham y M.E.J. Woolhouse. 2001. Risk factors for human disease
emergence. Phil. Trans. R. Soc. Lond. B 356: 983-989.
9
Thrall, P.H. y J.J. Burdon. 1997. Host-pathogen in a metapopulation context: the ecological
and evolutionary consequences of being spatial. J. Ecol. 85: 743-753.
Torchin, M.E., K.D. Lafferty, A.P. Dobson, V.J. McKenzie y A.M. Kuris. Introduced species
and their missing parasites. Nature 421: 628-630.
Trapman, P., R. Meester y H. Heesterbeek. 2004. A branching model for the spread of
infectious animal diseases in varying environments. J. Math. Biol. 49: 553-576.
Van Ballegooijen, W.M., y M.C. Boerlijst. 2004. Emergent trade-offs and selection for
outbreak frequency in spatial epidemics. Proc. Natl. Acad. Sci. USA 101: 1824618250.
van Baalen, M., y M.W. Sabelis. 1995. The dynamics of multiple infection and the evolution of
virulence. Amer. Natur. 146: 881-910.
Wang, W., y X.-Q. Zhao. 2004. An epidemic model in a patchy environment. Math. Biosci.
190: 97-112.
Ward, J.R., y K.D. Lafferty. 2004. The elusive baseline of marine disease: Are diseases in
ocean ecosystems increasing?. PLoS Biology 2: 0542-0547.
White, A., R.G. Bowers y M. Begon. 1999. The spread of infection in seasonal insectpathogen systems. Oikos 85: 487-498.
White, K.A.J., y K. Wilson. 1999. Modelling density-dependent resistance in insect-pathogen
interactions. Theor. Popul. Biol. 56: 163-181.
Woolhouse, M.E.J., L.H. Taylor y D.T. Haydon. 2001. Population biology of multihost
pathogens. Science 292: 1109-1112.
Microparásitos
Abeku, T.A., S.J. de Vlas, G.J.J.M. Borsboom, A. Tadege, Y. Gebreyesus, H.
Gebreyohannes, D. Alamirew, A. Seifu, N.J.D. Nagelkerke y J.D.F. Habbema. 2004.
Effects of meteorological factors on epidemic malaria in Ethiopia: a statistical
modelling approach based on theoretical reasoning. Parasitology 128: 585-593.
Abeku, T.A., S.I. Hay, S. Ochola, P. Langi, B. Beard, S.J. de Vlas y J. Cox. 2004. Malaria
epidemic early warning and detection in African highlands. Tre. Parasitol. 20: 400-405.
Ackleh, A.S., y L.J.S. Allen. 2003. Competitive exclusion and coexistence for pathogens in an
epidemic model with variable population size. J. Math. Biol. 47: 153-168.
10
Alexander, M.E., y S.M. Moghadas. 2004. Periodicity in an epidemic model with a generalized
non-linear incidente. Math. Biosci. 189: 75-96.
Alen, L.J.S., M. Langlais y C.J. Phillips. 2003. The dynamics of two viral infections in a single
host population with applications to hantavirus. Math. Biosci. 186: 191-217.
Allan, B.F., F. Keesing y R.S. Ostfeld. 2003. Effect of fragmentation on Lyme Disease risk.
Conserv. Biol. 17: 267-272.
Anderson, R.M. 1981. Population ecology of infectious disease agents. En R.M.May (Ed.)
"Theoretical Ecology". Sinauer, Massachusetts.
Anderson, R.M. 1981. Infectious disease agents and cyclic fluctuations in host abundance.
En R.W. Hiorns y D. Cooke (Eds.) "The Mathematical Theory of the Dynamics of
Biological Populations. II". Academic Press, New York.
Anderson, R.M. 1982. Population Dynamics of Infectious Diseases. Chapman and Hall,
London.
Anderson, R.M., y B.T. Grenfell. 1984. Oscillatory fluctuations in the incidence of infectious
disease and the impact of vaccination: time series analysis. J. Hyg., Camb. 93: 587608.
Anderson, R.M. y R.M. May. 1979. Population biology of infectious diseases. Part I. Nature
280: 361-367.
Anderson, R.M. y R.M. May. 1982. Directly transmitted infectious diseases. Control by
vaccination. Science 215: 1053-1060.
Anderson, R.M., C.A. Donnelly, N.M. Ferguson, M.E.J. Woolhouse, C.J. Watt, H.J. Udy, S.
MaWhinnay, S.P. Dunstan, T.R.E. Southwood, J.W. Wilesmith, J.B.M. Ryan, L.J.
Hoinville, J.E. Hillerton, A.R. Austin y G.A.H. Wells. 1996. Transmission dynamics and
epidemiology of BSE in British cattle. Nature 382: 779-788.
Anderson, R.M., C. Fraser, A.C. Ghani, C.A. Donnelly, S. Riley, N.M. Ferguson, G.M. Leung,
T.H. Lam y A J. Hedley. 2004. Epidemiology, transmission dynamics and control of
SARS: the 2002-2003 epidemic. Phil. Trans. R. Soc. Lond. B 359: 1091-1105.
Andreasen, V. 2003. Dynamics of annual influenza A epidemics with immuno-selection. J.
Math. Biol. 46: 504-536.
Antia, R., B.R. Levin y R.M. May. 1994. Within-host population dynamics and the evolution
and maintenance of microparasite virulence. Amer. Natur. 144: 457-472.
Aparicio, J.P., A.F. Capurro y C. Castillo-Chávez. 2000. Transmission dynamics of
tuberculosis on generalzed households. J. Theor. Biol. 206: 327-341.
11
Aparicio, J.P., H.G. Solari y N. Bonino. 2004. Competition and coexistence in host-parasite
systems: the myxomatosis case. Popul. Ecol. 46: 71-85.
Arrigoni, F., y A. Pugliese. 2002. Limits of a multi-patch epidemic model. J. Math. Biol. 45:
419-440.
Aylor, D.E. 2003. Spread of plant disease on a continental scale: role of aerial dispersal of
pathogens. Ecology 84: 1989-1997.
Barlow, N.D. 2000. Non-linear trnamissiom and simple models for bovine tuberculosis. J.
Anim. Ecol. 69: 703-713.
Berthier, K., M. Langlais, P. Auger y D. Pontier. 2000. Dynamics of a feline virus with two
transmission modes within exponentially growing host populations. Proc. R. Soc. Lond
B 267: 2049-2056.
Bolker, B.M., y B.T. Grenfell. 1993. Chaos and biological complexity in measles epidemics.
Proc. Roy. Soc. Lond. B 251: 75-81.
Bond, J.G., J.C. Rojas, J.I. Arredondo-Jiménez, H. Quiroz-Martínez, J. Valle y T. Williams.
2004. Population control of the malaria vector Anopheles pseudopunctipennis by
habitat manipulation. Proc. R. Soc. Lond. B 271: 2161-2169.
Boni, M.F., J.R. Gog, V. Andreasen y F.B. Christiansen. 2004. Influenza drift and epidemic
size. Theor. Popul. Biol. 65: 179-191.
Bjørnstad, O.N., B.F. Finkenstädt y B.T. Grenfell. 2002. Dynamics of measles epidemics:
estimating scaling of transmission rates using a time series SIR model. Ecolog.
Monogr. 72: 169-184.
Bolker, B.M. 1999. Analytic models for the patchy spread of plant disease. Bull. Math. Biol.
61: 849-874.
Bolker, B., y B. Grenfell. 1995. Space, persistence and dynamics. Phil. Tran. R. Soc. Lond. B
348: 309-320.
Bolker, B.M., y B.T, Grenfell. 1996. Impact of vaccination on the spatial correlation and
persistence of measles epidemics. Proc. Natl. Acad. Sci. USA 93: 12648-12653.
Bonsall, M.B., H.C.J. Godfray C.J. Briggs y M.P. Hassell. 1999. Does host self-regulation
increase the likelihood of insect-pathogen population cycles?. Amer. Natur. 153: 228235.
Boots, M., y R: norman. 2000. Sublethal infection and the population dynamics of hostmicroparasite interactions. J. Anim. Ecol. 69: 517-524.
Bortz, D.M., y P.W. Nelson. 2003. Sensitivity análisis of a nonlinear lumped parameter model
of HIV infection dynamics. Bull. Math. Biol. 66: 1009-1026.
12
Bowers, R.G. 2001. The basic depression ratio of the host: the evolution of host resistance to
microparasites. Proc. R. Soc. Lond. B 268: 342-250.
Briggs, C.J., y H.C.J. Godfray. 1995. The dynamics of insect-pathogen interactions in stagestructured populations. Amer. Natur. 145: 855-887.
Broutin, H., E. Elguero, F. Simondon y J.-F. Guégan. 2004. Spatial dynamics of pertussis in a
small region of Senegal. Proc. R. Soc. Lond. B 271: 2091-2098.
Caron, A., P.C. Cross y J.T. du Toit. 2003. Ecological implications of bovine tuberculosis in
African buffalo herds. Ecol. Appl. 13: 1338-1345.
Castañera, M.B., J.P. Aparicio y R.E. Gürtler. 2003. A stage-structures stochastic model of
the population dynamics of Triatoma infestans, the main vector of Chagas disease.
Ecol. Model. 162: 33-53.
Chattopadhyay, J., R.R. Sarkar, S. Chaki y S. Battacharya. 2004. Effects of environmental
fluctuations on the occurrence of malignant malaria – a model based study. Ecol.
Model. 177: 179-182.
Childs, J.E., A.T. Curns, M.E. Dey, L.A. Real, L. Feinstein, O.N. BjØrnstad y J.W. Krebs.
2000. Predicting the local dynamics of epizootic rabies amog racoons in the United
States. Proc. Natl. Acad. Sci. 97: 13666-13671.
Chowell, G., P.W. Fenimore, M.A. Castillo-Garsow y C. Castllo-Chávez. 2003. SARS
outbreaks in Ontario, Hong Kong and Singapore: the role of diagnosis and isolation as
a control mechanism. J. Theor. Biol. 224: 1-8.
Collins, F.H., y S.M. Paskewitz. 1995. Malaria: Current and future prospects for control. Annu.
Rev. Entomol. 40: 195-219.
Colwell, R.R. 1996. Global climate and infectious disease: the cholera paradigm. Science
274: 2025-2031.
Cottingham, K.L., D.A. Chiavelli y R.K. Taylor. 2003. Environmental microbe and human
pathogen: the ecology and microbiology of Vibrio cholerae. Front. Ecol. Environ. 2: 8086.
Coutinho, F.A., L.F. López, M.N. Burattini y E. Massad. 2001. Modelling the natural history of
HIV infection in individuals and its epidemiological implications. Bull. Math. Biol. 63:
1041-1062.
Culshaw, R.V., S. Ruan y R.J. Spiteri. 2004. Optimal HIV treatment by maximising immune
response. J. Math. Biol. 48: 545-562.
13
Cummings, D.A.T., R.A. Irizarry, N.E. Huang, T.P. Endy, A. Nisalak, K, Ungchusak y D.S.
Burke. 2004. Travelling waves in the occurrence of dengue haemorrhagic fever in
Thailand. Nature 427: 344-347.
Day, T., y N. Gay. 2003. Modeling the SARS epidemic. Science 300: 1884-1885.
de Koeijer, A., H. Heesterbeek, B. Schreuder, R. Oberthür, J. Wilesmith, H. van Roermund y
M. de Jong. 2004. Quantifying BSE control by calculating the basic reproduction ratio
R0 for the infection among cattle. J. Math. Biol. 48: 1-22.
De Leo, G.A., y A.P. Dobson. 1996. Allomtery and simple epidemic models for
microparasites. Nature 379: 720-722.
Dietz, K. 1989. Mathematical models for transmission and control of malaria. En W.H.
Wensdorfer y Sir I. McGregor (Eds.) “Malaria. Principles and Practice of Malariology”.
Churchill, Edinburgh.
Dobson, A. 2004. Population dynamics of pathogens with multiple hosts species. Amer.
Natur. 164 (Suppl.): S64-S78.
Dugaw, C.J., A. Hastings, E.L. Preisser y D.R. Strong. 2004. Seasonally limited host supply
generates microparasite population cycles. Bull. Math. Biol. 66: 583-594.
Duncan, C.J., S.R. Duncan y S. Scott. 1997. The dynamics of measles epidemics. Theor.
Popul. Biol. 52: 155-163.
Durand, B., M.A. Dubois, P. Sabatier, D. Calavas, C. Ducrot y A. Van de Wielle. 2004.
Multiscale modelling of scrapie epidemiology. II. Geographical level: hierarchical
transfer of the herd model to the regional disease spread. Ecol. Model. 179: 515-531.
Dushoff, J., y G. Dwyer. 2001. Evaluating the risks of engineered viruses: modeling pathogen
competition. Ecol. Appl. 11: 1602-1609.
Dwyer, G. 1992. On the spatial spread of insect pathogens: theory and experiment. Ecology
73: 479-494.
Dwyer, G. 1994. Density dependence and spatial structure in the dynamics of insect
pathogens. Amer. Natur. 143: 533-562.
Dwyer, G., J.S. Elkinton y J.P. Buonaccorsi. 1997. Host heterogeneity in susceptibility and
disease dynamics: tests of a mathematical model. Amer. Natur. 150: 685-707.
Dwyer, G., S.A. Levin y L. Buttel. 1990. A simulation model of the population dynamics and
evolution of myxomatosis. Ecol. Monogr. 60: 423-447.
Dye, C., y P. Reiter. 2000. Temperatures without fevers?. Science 289: 1697-1698.
14
Eames, K.T.D., y M.J. Keeling. 2003. Contact tracing and disease control. Proc. R. Soc.
Lond. B 270: 2565-2571.
Eames, K.T.D., y M.J. Keeling. 2004. Monogamous networks and the spread of sexually
transmitted diseases. Math. Biosci. 189: 115-130.
Earn, D.J.D., P. Rohani, B.M. Bolker y B.T. Grenfell. 2000. A simple model for complex
dynamical transitions in epidemics. Science 287: 667-670.
Earn, D.J.D., J. Dushoff y S.A. Levin. 2002. Ecology and evolution of the flu. Tre. Ecol. Evol.
17: 334-340.
El Paul, R., M. Diallo y P.T. Brey.ñ 2004. Mosquitoes and transmission of malaria parasites –
not just vectors. BMC Ecology 3: 39.
Ellner, S.P., B.A. Bailey, G.V. Bobashev, A.R. Gallant, B.T. Grenfell y D.W. Nychka. 1998.
Noise and nonlinearity in measles epidemics: combining mechanistic and statistical
approaches to population modeling. Amer. Natur. 151: 425-440.
Epstein, P.R. 2000. Is global warming harmful to health. Sci. Amer. August 2000: 36-43.
Escalnte, A.A., O.E. Cornejo, A. Rojas, V. Udhayakumar y A.A. Lal. 2004. Assessing the
effect of natural selection in malarial parasites. Tre. Parasitol. 20: 388-395.
Esteva, L., y C. Vargas. 1999. A model for dengue disease with variable human population. J.
Math. Biol. 38: 220-240.
Esteva, L., y C. Vargas. 2003. Coexistence of different serotypes of dengue virus. J. Math.
Biol. 46: 31-47.
Feliciangeli, M.D., D. Campbell-Lendrun, C. Martinez, D. Gonzalez. P. Coleman y C. Davies.
2003. Chagas disease control in Venezuela: lessons for the Andean region and
beyond. Tre. Parasitol. 19: 44-49.
Ferguson, N.M., C.A. Donnelly y R.M. Anderson. 2001. The Foot-and-Mouth epidemic in
Great Britain: Pattern of spread and impact of interventions. Science 292: 1155-1160.
Ferguson, N.M., A.C. Ghani, C.A. Donnelly, T.J. Hagenaars y R.M. Anderson. 2002.
Estimating the human health risk from possible BSE infection of the British sheep
flock. Nature 415: 420-424.
Ferguson, N.M., M.J. Keeling, W.J. Edmunds, R. Gani, B.T. Grenfell, R.M. Anderson y S.
Leach. 2003. Planning for smallpox outbreaks. Nature 425: 681-685.
Fernandes Lopez, L., F.A. Bezerra Coutinho, M. Nascimento Burattini y E. Massad. 2002.
Threshold conditions for infection persistence in complex host-vectors interactions.
C.R. Biologies 325: 1073-1084.
15
Finkenstädt, B., M. Keeling y B. Grenfell. 1998. Patterns of density dependence in measless
dynamics. Proc. R. Soc. Lond. B 265: 753-762.
Foley, J.E., P. Foley y N.C. Pedersen. 1999. The persistence of a SIS disease in a
metapopulation. J. Appl. Ecol. 36: 555-563.
Ghoshal, G., L.M. Sander y I.M. Sokolov. 2004. SIS epidemics with household structure: the
self-consistent field method. Math. Biosci. 190: 71-85.
Glass, K., Y. Xia y B.T. Grenfell. 2003. Interpreting time-series analyses for continuous-time
biological models – measles as a case of study. J. Theor. Biol. 223: 19-25.
Gregory, R.D., y P.J. Hudson. 2000. Parasites take control. Nature 406: 33-34.
Grenfell, B.T. 1992. Chance and chaos in measles epidemics. J. Roy. Stat. Soc. B 54: 383398.
Grenfell, B.T., O.N. Bjørnstad y B.F.. 2002. Dynamics of measles epidemics: scaling noise,
determinism, and predictability with the TSIR model. Ecolog. Monogr. 72: 185-202.
Gumel, A.B., S. Ruan, T. Day, J. Watmough, F. Bauer, P. van den Driessche, D. Gabrielson,
C. Bowman, M.E. Alexander, S. Ardal, J. Wu y B.M. Sahai. 2004. Modelling strategies
for controlling SARS outbreaks. Proc. R. Soc. Lond. B 271: 2223-2232.
Hakre, S., P. Masuoka, E. Vanzie y D.R. Roberts. 2004. Spatial correlation of mapped
malaria rates with environmental factors in Belize, Central America. Int. J. Health.
Geogr. 3: 6.
Haydon, D.T., M.K. Laurenson y C, Sillero-Zubiri. 2002. Integrating epidemiology into
population viability analysis: Managing the risk posed by Rabies and Canine Distemper
to the Ethiopian Wolf. Conserv. Biol. 16: 1372-1385.
He, D., y L. Stone. 2003. Spatio-temporal synchronization of recurrent epidemics. Proc. R.
Soc. Lond. B 270: 1519-1526.
Hochberg, M.E., y R.D. Holt. 1990. The coexistence of competing parasites. I. The role of
cross-species infection. Amer. Natur. 136: 517-541.
Hoshen, M.B., R. Heinrich, W.D. Stein y H. Ginsburg. 2000. Mathematical modelling of the
within-host dynamics of Plasmodium falciparum. Parasitology 121: 227-235.
Hwang, T.-H., y Y. Kuang. 2003. Deterministic extinction effect of parasites on host
populations. J. Math. Biol. 46: 17-30.
Inaba, H., y H. Sekine. 2004. A mathematical model for Chagas disease with infection-agedependent infectivity. Math. Biosci. 190: 39-69.
16
Jones, C.G., R.S. Ostfeld, M.P. Richard, E.M. Schauber y J.O. Wolff. 1998. Chain reactions
linking acorns to gypsi moth outbreaks and lyme disease risk. Science 279: 10231026.
Kaiser, J. 1998. Of mice and moths – and Lyme Disease?. Science 279: 984-985.
Keeling, M.J., y C.A. Gilligan. 2000. Metapopulation dynamics of bubonic plague. Nature 407:
903-906.
Keeling, M.J., D.A. Ran y A.J. Morris. 1997. Correlation models for childhood epidemics.
Proc. R. Soc. Lond. B 264: 1149-1156.
Keeling. M.J., y C.A. Gilligan. 2000. Bubonic plague: a metapopulation model of a zoonosis.
Proc. Roy. Soc. Lond B 267: 2219-2230.
Keeling, M.J., y B.T. Grenfell. 2002. Understanding the persistence of measles: reconciling
theory, simulation and observation. Proc. Roy. Soc. Lond B 269: 335-343.
Keeling, M.J., P. Rohani. 2002. Estimating spatial coupling in epidemiological systems: a
mechanistic approach. Ecol. Letters 5: 20-29.
Koella, J.C., y R. Antia. 2003. Epidemiological models for the spread of anti-malarial
resistance. Malaria J. 2: 3.
Kirupaharan, N., y L.J.S. Allen. 2004. Coexistence of multiple pathogen strains in stochastic
epidemic models with density-dependent mortality. Bull Math. Biol. 66: 841-864.
Knolle, H., 2004. A discrete branching process model for the spread of HIV via steady sexual
partnerships. J. Math. Biol 48: 423-443.
Koella, J.C., y M. Doebelli. 1999. Ppulation dynamics and the evolution of virulence in
epidemiological models with discrete host generations. J. Theor. Biol. 198: 461-475.
Koella, J.C., y C. Boëte. 2003. A model for the coevolution of immunity and immune evasión
in vector-borne diseases with implications for the epidemiology of malaria. Amer.
Natur. 161: 698-707.
Koella, K., y M. Pascual. 2004. Disentangling extrinsic from intrinsic factors in disease
dynamics: A nonlinear time series approach with an application to cholera. Amer.
Natur. 163: 901-913.
Korobeinikov, A. 2004. Global properties of basic virus dynamics models. Bull. Math. Biol. 66:
879-883.
Lafferty, K.D., y R.D. Holt. 2003. How should environmental stress affect the population
dynamics of disease?. Ecol. Letters 6: 654-664.
17
Leung, B., y B.T. Grenfell. 2003. A spatial stochastic model simulating a scabies epidemic
and coyote population dynamics. Ecol. Model. 166: 41-52.
Levin, S.A., J. Dushoff y J.B. Plotkin. 2004. Evolution and persistence of influenza A and
other diseases. Math. Biosci. 188: 17-28.
LoGiudice, K., R.S. Ostfeld, K.A. Schmidt y F. Keesing. 2003. The ecology of infectious
disease: Effects of host diversity and community composition on Lyme disease risk.
Proc. Natl. Acad. Sci. USA 100: 567-571.
Lipsitch, M., y M.B. Murray. 2003. Multiple equilibria: Tuberculosis transmission require
unrealistic assumptions. Theor. Popul. Biol. 63: 169-170.
Li, J., Z. Ma, S.P. Blythe y C. Castillo-Chavez. 2003. Coexistence of pathogens in sexuallytransmitted disease models. J. Math. Biol. 47: 547-568.
Lin, J., V. Andreassen, R. Casagrandi y S.A. Levin. 2003. Traveling waves in a model of
influenza A drift. J. Theor. Biol. 222: 437-445.
Lloyd-Smith, J.O., A.P. Galvani y W.M. Getz. 2003. Curtailing transmission of severe acute
respiratory syndrome within a community and its hospital. Proc. R. Soc. Lond. B 270:
1979-1989.
Mackinnon, M.J., y A.F. Read. 2004. Immunity promotes virulence evolution in a malaria
model. PLoS Biology 2: e230.
Mackinnon, M.J., y A.F. Read. 2004. Virulence in malaria: an evolutionary viewpoint. Phil.
Trans. R. Soc. Lond. B 359: 965-986.
Manfredi, P., y J.R. Williams. 2004. Realistic population dynamics in epidemiological models:
the impact of population decline on the dynamics of childhood infectious diseases.
Measles in Italy as an example. Math. Biosci. 192: 153-175.
Margheri, A., y C. Rebelo. 2003. Some examples of persistence in epidemiological models. J.
Math. Biol. 46: 564-570.
Martcheva, M., y H.R. Thieme. 2003. Progression age enhanced backward bifurcation in an
epidemic model with super-infection. J. Math. Biol. 46: 385-324.
Matthews, L., D.T. Haydon, D.J. Shaw, M.E. Chase-Topping, M.J. Keeling y M.E.J.
Woolhouse. 2003. Neighbourhood control policies and the spread of infectious
diseases. Proc. R. Soc. Lond. B 270: 1659-1666.
May, R.M. 1983. Parasitic infections as regulators of animal populations. Amer. Sci. 71: 3645.
May, R.M. 1986. Population biology of microparasitic infections. En T.G. Hallam y S.A. Levin
(Eds.) "Mathematical Ecology", Biomathematics vol. 17. Springer-Verlag, Berlin.
18
May, R.M. 2000. Simple rules with complex dynamics. Science 287: 601-602.
Michael, E., M.N. Malecela-Lazaro, P.E. Simonsen, E.M. Pedersen, G. Barker, A. Kumar y
J.W. Kazura. 2004. Mathematical modeling and the control of lymphatic filariasis. The
Lancet Infectious Diseases 4: 223-234.
Molineaux, L., H.H. Diebner, M. Eichner, W.E. Collins, G.M. Jeffery y K. Dietz. 2001.
Plasmodium falciparum parasitaemia described by a new mathematical model.
Parasitology 122: 379-391.
Motta Jafelice, R., L. Carvalho de Barros, R.C. Bassanezi y F. Gomide. 2004. Fuzzy
modeling in symptomatic HIV virus infected population. Bull. Math. Biol. 66: 15971620.
Murdoch, W.W., y C.J. Briggs. 2002. Spatial dynamics of measles epidemics: maybe there is
a watchmaker. Tre. Ecol. Evol. 399-40 .
Nichol, S.T., J. Arikawa y Y. Kawaoka. 2000. Emerging viral diseases. Proc. Natl. Acad. Sci.
97: 12411-12412.
Nowak, M.A. 1999. The mathematical biology of human infections. Cons. Ecol. 3: 12(Disponible en www.consecol.org/vol3/iss2/art12)
Norman, R., M. Begon y R.G. Bowers. 1994. The population dynamics of microparasites and
vertebrate hosts: the importance of immunity and recovery. Theor. Popul. Biol. 46: 96119.
Norman, R., D. Ross, M.K. Laurenson y P.J. Hudson. 2004. The role of non-viraemic
transmission on the persistence and dynamics of a tick borne virus – Louping ill in red
grouse (Lagopus lagopus scoticus) and mountain hares (Lepus timidus). J. Math. Biol.
48: 119-134.
Nowak, M.A., y C.R.M. Bangham. 1996. Population dynamics of immune response to
persisten viruses. Science 272: 74-79.
Patz, J.A. 2002. A human disease indicator for the effects of recent global climate change.
Proc. Natl. Acad. Sci. USA 99: 12506-12508.
Pascual, M., X. Rodó, S.P. Ellner, R. Colwell y M.J. Bouma. 2000. Cholera dynamics and El
Niño-Southern Oscillation. Science 289: 1766-1769
Perelson, A.S., y P.W. Nelson. 1999. Mathematical analysis of HIV-I dynaics in vivo. SIAM
Review 41: 3-44.
Rabinovich, J.E., y M.D. Feliciangeli. 2004. Parameters of Leishmania braziliensis
transmisión by indoor Lutzomyia ovallesi in Venezuela. Am. J. Trop. Med. Hyg. 70:
373-382.
19
Reluga, T. 2004. A two-phase epidemic driven by diffusion. J.. Theor. Biol. 229: 249-261.
Retallyck, R.W.R., H. McCallum y R. Speare. 2004. Endemic infection of the amphibian
chytrid fungus in a frog community post-decline. PLoS Biology 2: e351.
Revilla, T., y G. García-Ramos. 2004. Fighting virus with a virus: a dynamic model for HIV-1
therapy. Math. Biosci. 185: 191-203.
Reynolds, K.T., y I.C.W. Hardy. 2004. Superparasitism: a non-adaptive strategy?. Tre. Ecol.
Evol. 19: 347-348.
Rodó, X., M. Pascual, G. Fuchs y A.S.G. Faruque. 2002. ENSO and cholera: A nonstationary
limk related to climate change?. Proc. Natl.Acad. Sci. USA 99: 12901-12906.
Rohani, P., M.J. Keeling y B.T. Grenfell. 2002. The interplay between determinism and
stochasticity in childhood diseases. Amer. Natur. 159: 469-481.
Rogers, D.J. 1988. The dynamics of vector-transmitted diseases in human communities. Phil.
Trans. R. Soc. Lond. B 321: 513-539.
Rogers, D.J., y S.E. Randolph. 2000. The global spread of malaria in a future, warmer world.
Science 289: 1763-1766.
Rohani, P., D.J. Earn, B. Finkenstädt y B.T. Grenfell. 1998. Population dynamic interference
among childhood diseases. Proc. Roy. Soc. Lond. B 265: 2033-2041.
Rohani, P., C.J. Green, N.B. Mantilla-Beniers y B.T. Grenfell. 2003. Ecological interference
between fatal diseases. Nature 422: 885-888.
Sattenspiel, L. y K. Dietz. 1995. A structured epidemic model incorporating geographic
mobility among regions. Math. Biosci. 128: 71-91.
Sattenspiel, L., y D.A. Herring. 1998. Structured epidemic models and the spread of influenza
in the Central Canadian Subarctic. Human Biology 70: 91-115.
Sattenspiel, L., A. Mobarry y D.A. Herring. 2000. Modeling the influence of settlement
structure on the spread on influenza. Amer. J. Human Biol. 12: 736-748.
Sattenspiel, L., y D.A. Herring. 2003. Simulating the effect of quarantine on the spread of the
1918-19 flu in Central Canada. Bull. Math. Biol. 65: 1-26.
Sattenspiel, L., y C.P. Simon. 1988. The spread and persistence of infectious diseases in
structured populations. Math. Biosci. 90: 341-366.
Sauvage, F., M. Langlais, N.G. Yoccoz y D. Pontier. 2003. Modelling hantavirus in fluctuating
populations of bank voles: the role of indirect transmission on virus persistence. J.
Anim. Ecol. 72: 1-13.
20
Smith, G.C., y C.L. Cheeseman. 2001. A mathematical model for the control of diseases in
wildlife populations: culling, vaccination and fertility control. Ecol. Model. 150: 45-53.
Smith, D.L., B. Lucey, L.A. Waller, J.E. Childs y L.A. Real. 2002. Predicting the spatial
dynamics of rabies epidemics on heterogeneous landscapes. Proc. Natl. Acad. Sci.
USA 99: 3668-3672.
Smith, D.L., J. Dushoff y F.E. McKenzie. 2004. The risk of a mosquito-borne infection in a
heterogeneous environment. PLoS Biology 2: e368.
Smith, T. 2002. Imperfect vaccines and imperfect models. Tre. Ecol. Evol. 17: 154-158.
Streftaris, G., y G.J. Gibson. 2004. Bayesian analysis of experimental epidemics of foot-andmouth disease. Proc. R. Soc. Lond. B. 271: 1111-1117.
Suppo, C., J.-M. Noaulin, M. Langlais y M. Artois . 2000. A modelling approach to vaccination
and contraception programmes for rabies control in fox populations. Proc. R. Soc.
Lond B 267: 1575-1582.
Teklehaimanot, H.D., J. Schwartz, A. Teklehaimanot y M. Lipsitch. 2004. Weather-based
prediction of Plasmodium falciparum malaria in epidemic-prone regions of Ethiopia. II.
Weather-based prediction systems perform comparably to early detection systems in
identifying times for interventions. Malaria J. 3: 44.
Turchin, P., S.N. Wood, S.P. Ellner, B.E. Kendall, W.W. Murdoch, A. Fischlin, J. Casas, E.
McCauley y C.J. Briggs. 2003. Dynamical effects of plant quality and parasitism on
population cycles of larch budmoth. Ecology 84: 1207-1214.
Turner, J., M. Begon y R.G. Bowers. 2003. Modelling pathogen transmission: the
interrelationship between local and global approaches. Proc. R. Soc. Lond. B 270:
105-112.
Velasco-Hernández, J.X. 1994. A model for Chagas disease involving transmission by
vectors and blood transfusion. Theor. Popul. Biol. 46: 1-31.
Wang, W., y S. Ruan. 2004. Simulating the SARS outbreak in Beijing with limited data. J.
Theor. Biol. 27: 369-379.
Webster, D. 2000. Malaria kills one child every 30 seconds. Smithsonian 31: 32-44.
White, A., R.G. Bowers y M. Begon. 1996. Host-pathogen cycles in self-regulated forest
insect systems: resolving conflicting predictions. Amer. Natur. 148: 220-225.
Wodarz, D., y M.A. Nowak. 2002. Mathematical models of HIV pathogenesis and treatment.
BioEssays 24: 1178-1187.
21
Xia, Y., O.N. Bjørnstad y B.T. Grenfell. 2004. Measles metapopulation dynamics: A gravity
model for epidemiological coupling and dynamics. Amer. Natur. 164: 267-281.
Yates, T.L. y otros. 2002. The ecology and evolutionary history of an emergent disease:
Hantavirus pulmonary síndrome. BioScience 52: 989-998.
Zhang, J., y Z. Ma. 2003. Global dynamics of an SEIR epidemic model with saturating contact
rate. Math. Biosci. 185: 15-32.
Zhou, G., N. Minakawa, A.K. Githeko y G. Yan. 2004. Association between climate variability
and malaria epidemics in the East African highlands. Proc. Natl. Acad. Sci. USA 101:
2375-2380.
Macroparásitos
Anderson, R.M. y R.M. May. 1978. Regulation and stability of host-parasite population
interactions. I. Regulatory processes. J. Anim. Ecol. 47: 219-247.
Anderson, R.M. y R.M. May. 1985. Helminth infections of humans: Mathematical models,
population dynamics, and control. Adv. Parasitol. 23: 1-101.
Anderson, R.M. y R.M. May. 1985. Community control of helminth infection of man by mass
and selective chemotherapy. Parasitology 90: 629-660.
Arneberg, P., A. Skorping, B. Grenfell y A.F. Read. 1998. Host densities as determinants of
abundance in parasite communities. Proc. Roy. Soc. Lond. B 265: 1283-1289.
Basañez, M.-G., y M. Boussinesq. 1999. Population biology of human onchoerciasis. Phil.
Trans. R. Soc. Lond. B 354: 809-826.
Boots, M. 1999. A general host-pathogen model with free-living infective stages and differing
rates of uptake of the infective stages by infected and susceptible hosts. Res. Popul.
Ecol. 41: 189-194.
Boulinier, T., A.R. Ives y E. Danchin. 1996. Measuring aggregation of parasites at different
population levels. Parasitology 112: 581-587.
Bundy, D.A.P. 1988. Population ecology of intestinal helminth infections in human
communities. Phil. Trans. R. Soc. Lond. B 321: 405-420.
Cornell, S.J., V.S. Isham y B.T. Grenfell. 2004. Stochastic and spatial dynamics of nematode
parasites in farmed ruminants. Proc. R. Soc. Lond. B 271: 1243-1250.
Davies. C.M., J.P. Webster y M.E.J. Woolhouse. 2001. Trade-offs in the evolution of
virulence in an indirectly transmitted macroparasite. Proc. R. Soc. Lond. B 268: 251257.
22
Feng, Z., C.-C. Li y F.A. Milner. 2002. Schistosomiasis models with density dependence and
age of infection in snail dynamics. Math. Biosci. 177&178: 271-286.
Ghosh, M., y A. Pugliese. 2004. Seasonal population dynamics of ticks, and its influence on
infection transmission: a semi-discrete approach. Bull. Math. Biol. 66: 1659-1684.
Greenman, J.V., y P.J. Hudson. 2000. Parasite-mediated and direct competition in a two-host
shared macroparasite system. Theor. Popul. Biol. 57: 13-34.
Hudson, P.J., A.P. Dobson y D. Newborn. 1998. Prevention of population cycles by parasite
removal. Science 282: 2256-2258.
Jaenike, J. 1998. On the capacity of macroparasites to control insect populations. Amer.
Natur. 151: 84-96.
Krasnov, B.R., I.S. Khokhlova y G.I. Shenbrot. 2003. Density-dependent host selection in
ectoparasites: An application of isodar theory to fleas parasitizing rodents. Oecologia
134: 365-372.
Krasnov, B.R., R. Poulin, G.I. Shenbrot, D. Mouillot y I.S. Khokhlova. 2004. Ectoparasitic
“jack-of-all-trades”: Relationship between abundance and host specificity in fleas
(Siphonaptera) parasitic on small mammals. Amer. Natur. 164: 506-516.
Lello, J., B. Boag, A. Fenton I.R. Stevenson y P.J. Hudson. 204. Competition and mutualism
among the gut helminthes of a mammalian host. Nature 428: 840-844
May, R.M. y R.M. Anderson. 1978. Regulation and stability of host-parasite population
interactions. II. Destabilizing processes. J. Anim. Ecol. 47: 249-267.
Poulin, R., y D. Mouillot. 2004. The relationship between specialization and local abundance :
the case of helminth parasites of birds. Oecologia 140: 372-378.
Pugliese, A. 2000. Coexistence of macrparasites without direct interactions. Theor Popul.
Biol. 57: 145-165.
Pugliese, A., y L. Tonetto. 2004. Thresholds for macroparasite infections. J. Math. Biol. 49:
83-110.
Revilla, T., y G. García-Ramos. 2003. Fighting a virus with a virus: a dynamic model for HIV-1
therapy. Math. Biosci. 185: 191-203.
Roberts, M.G., y A.P. Dobson. 1995. The population dynamics of communities of parasitic
helminthes. Math. Biosci. 126: 191-214.
Rosá, R., A. Pugliese, A. Villani y A. Rizzoli. 2003. Individual-based vs. deterministic models
for macroparasites host cycles and extinction. Theor. Popul. Biol. 63: 295-307.
23
Shaw, D.J., y A.P. Dobson. 1995. Patterns of macoparasite abundance and aggregation in
wildlife populations: a quantitative review. Parasitology 111: S111-S133.
Sousa, W.P. 1994. Patterns and processes in communities of helminth parasites. Tre. Ecol.
Evol. 9: 52-57.
Stanko, M., D. Miklisová, J. Goüy de Bellocq y S. Morand. 2002. Mammal density and
patterns of ectoparasite species richness and abundance. Oecologia 131: 289-295.
Webster, J.P., C.M. Gower y L. Blair. 2004. Do hosts and parasites evolve? Empirical support
from the Schistosoma system. Amer. Natur. 164: S33-S51.
Yan, G. 1996. Parasite mediated competition: a model of directly transmitted macroparasites.
Amer. Natur. 148: 1089-112.
Yang, H.M. 2003. Comparison between schistosomiasis transmission modelings considering
acquired immunity and age-structured contact pattern with infested water. Math.
Biosci. 184: 1-26.
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