Keywords
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsPreview
Unable to display preview. Download preview PDF.
References
Abu-Madi MA, Behnke JM, Lewis JW, Gilbert FS (1998) Descriptive epidemiology of Heligmosomoides polygyrus in Apodemus sylvaticus from three contrasting habitats in south-east England. J Helmintol 72:93–100
Adler FR, Kretzschmar M (1992) Aggregation and stability in parasite-host models. Parasitology 104:199–205
Anderson RC (2000) Nematode parasites of vertebrates: Their development and transmission, 2nd edn. CABI, Wallingford
Anderson RM, May RM (1978) Regulation and stability of host-parasite population interactions. I. Regulatory processes. J Anim Ecol 47:219–247
Anderson RM, May RM (1982) Coevolution of hosts and parasites. Parasitology 85:411–426
Anderson RM, May RM (1985) Age-related changes in the rate of transmission: Implications for the design of vaccinations programmes. J Hyg 94:365–436
Arneberg P, Skorping A, Read AF (1998) Parasite abundance, body size, life histories and the energetic equivalent rule. Amer Nat 151:497–513
Bailey NTJ (1975). The mathematical theory of infectious diseases and its applications. Griffin, London
Begon M, Bowers RG (1995) Beyond host-pathogen dynamics. In: Grenfell BT, Dobson AP (eds) Ecology of infectious diseases in natural populations. Cambridge Univ Press, Cambridge, pp 478–509
Behnke JM, Keymer AE, Lewis JW (1991) Heligmosomoides polygyrus or Nematospiroides Dubius? Parasitol Today 7:177–179
Behnke JM, Lewis JW, Mohd Zain SN, Gilbert FS (1999) Helminth infections in Apodemus sylvaticus in southern England: Interactive effects of host age, sex and year on the prevalence and abundance of infections. J Helmintol 73:31–44
Cattadori IM, Boag B, Björnstadt ON, Cornell SJ, Hudson PJ (2005) Peak shift and epidemiology in a seasonal host-nematode system. Proc R Soc Lond B 272:1163–1169
Chan MS, Mutapi F, Woolhouse MEJ, Isham VS (2000) Stochastic simulation and the detection of immunity to schistosome infections. Parasitology 120:161–169
Cornell S (2005) Modelling nematodes populations: 20 years of progress. Trends Parasitol 11:483–546
Craine NG, Randolph SE, Nuttall PA (1995) Seasonal variation in the role of grey squirrels as hosts of Ixodes ricinus, the tick vector of the Lyme disease spirochaete, in a British woodland. Folia Parasitol 42:73–80
Crofton HD (1971) A quantitative approach to parasitism. Parasitology 63:179–193
Diekmann O, Kretzschmar M (1991) Patterns in the effects of infectious diseases on population growth. J Math Biol 29:539–570
Dobson AP, Hudson PJ (1992) Regulation and stability of a free-living hostparasite system: Trichostrongylus tenuis in red grouse. II. Population models. J Anim Ecol 61:487–498
Duerr HP, Dietz K, Eichner M (2003) On the interpretation of age-intensity profiles and dispersion patterns in parasitological surveys. Parasitology 126:87–101
Eisen L, Lane RS (2002) Vectors of Borrelia burgdorferi sensu lato. In: Gray O, Kahl RS, Lane RS, Stanek G (eds) Lyme borreliosis: Biology, epidemiology and control, CABI, New York, pp 91–115
Enriquez FJ, Scarpino V, Cypress RH, Wassom DL (1988) In vivo and in vitro egg production by Nematospiroides dubius during primary and challenge infections in resistant and susceptible strains of mice. J Parasitol 74:262–266
Fernàndez S, Šarkunas M, Roepstorff A (2001) Survival of infective Ostertagia Ostertagi larvae on pasture plots under different simulated grazing conditions. Vet Parasitol 96:291–299
Ferrari N, Cattadori IM, Nespereira J, Rizzoli A., Hudson PJ (2004) The role of host sex in parasite dynamics: Field experiments on the yellow-necked mouse Apodemus flavicollis. Ecol Lett 7:88–94
Flowerdew J (1984) Wood mice. Anthony Nelson, Oswestry, Shropshire
Gaba S, Ginot V, Cabaret J (2005) Modelling macroparasite aggregation using a nematode-sheep system: The Weibull distribution as an alternative to the negative binomial distribution? Parasitology 131:393–401
Gern L, Rais O (1996) Efficient transmission of Borrelia burgdorferi between cofeeding Ixodes ricinus ticks (Acari: Ixodidae). J Med Entomol 33:189–192
Ghosh, M, Pugliese A (2004) Seasonal population dynamics of ticks, and its influence on infection transmission: A semi-discrete approach. Bull Math Biol 66:1659–168
Gilbert L, Norman R, Laurenson KM, Reid HW, Hudson PJ (2001) Disease persistence and apparent competition in a three-host community: An empirical and analytical study of large-scale, wild populations. J Anim Ecol 70:1053–1061
Gregory RD (1991) Parasite epidemiology and host population growth: Heligmosomoides Polygyrus (Nematoda) in enclosed wood mouse populations. J Anim Ecol 60:805–821
Gregory, RD (1992) On the interpretation of host-parasite ecology: Heligmosomoides Polygyrus (Nematoda) in wild wood mouse (Apodemus sylvaticus) Populations. J Zool Lond 226:109–121
Gregory RD, Keymer AE, Clarke JR (1990) Genetics, sex, and exposure: The ecology of Heligmosomoides polygyrus (Nematoda) in the wood mouse. J Anim Ecol 59:363–378
Gregory RD, Montgomery SSJ, Montgomery WI (1992) Population biology of Heligmosomoides polygyrus in the wood mouse. J Anim Ecol 61:749–757
Grenfell BT (1992) Parasitism and the dynamics of ungulate grazing systems. Amer Nat 139:907–929
Grenfell BT, Dietz K, Roberts MG (1995) Modelling the immuno-epidemiology of macroparasites in wildlife host populations In: Grenfell BT, Dobson AP (eds) Ecology of infectious diseases in natural populations. Cambridge Univ Press, Cambridge, pp 362–383
Herbert J, Isham V (2000) Stochastic host-parasite interaction models. J Math Biol 40:343–371
Hess G (1996) Disease in metapopulation models: Implications for conservation. Ecology 77:1617–1632
Hudson PJ, Dobson AP (1995) Macroparasites: Observed patterns. In: Grenfell BT, Dobson AP (eds) Ecology of infectious diseases in natural populations. Cambridge Univ Press, Cambridge, pp 144–176
Hudson PJ, Norman R, Laurenson MK, Newborn D, Gaunt M, Jones L, Reid H, Gould E, Bowers R, Dobson AP (1995) Persistence and transmission of tickborne viruses: Ixodes ricinus and louping-ill virus in red grouse populations. Parasitology 111:S49–S58
Hudson PJ, Dobson AP, Newborn D (1998) Prevention of population cycles by parasite removal. Science 282:2256–2258
Hudson PJ, Rizzoli A, Grenfell BT, Heesterbeek H, Dobson AP (eds) (2001) The ecology of wildlife diseases. Oxford Univ Press, Oxford
Hughes VL, Randolph SE (2001) Testosterone depresses innate and acquired resistance to ticks in natural rodent hosts: A force for aggregated distributions of parasites. J Parasitol 87:49–54
Isham V (1995) Stochastic models of host-macroparasite interaction. Ann Appl Prob 5:720–740
Jones LD, Davies CR, Steele GM, Nuttall PA (1987) A novel mode of arbovirus transmission involving a nonviraemic host. Science 237:775–777
Jones LD, Gaunt M, Hails RS, Laurenson K, Hudson PJ, Reid H, Henbest P, Gould EA (1997) Transmission of louping-ill virus between infected and uninfected ticks co-feeding on muntain hares (Lepus timidus). Med Vet Entomol 11:172–176
Kaitala V, Ranta E Lindstroem J (1996) Cyclic population dynamics and random Perturbations. J Anim Ecol 65:249–251
Keeling MJ (1999) The effects of local spatial structure on epidemiological invasions. Proc R Soc Lond B 266:859–867
Keymer AE (1985) Experimental epidemiology: Nematospiroides dubius and laboratory mouse. In: Rollison D, Anderson RM (eds) Ecology and genetics of host-parasite interactions. Acad Press, London, pp 55–75
Keymer AE, Hiorns RW (1986) Heligmosomoides polygyrus (Nematoda): The dynamics of primary and repeated infection in outbred mice. Proc R Soc Lon B 229:47–67
Kitron U, Mannelli A (1994) Modeling the ecological dynamics of tick-borne Zoonoses. In: Mather TN, Sonenshine DE (eds) Ecological dynamics of tickborne Zoonoses. Oxford Univ Press, Oxford, pp 198–239
Kostizin VA (1934) Symbiose, parasitisme et èvolution (ètude mathèmatique). Hermann, Paris. Translated in: Scudo F, Ziegler J (eds) (1978) The golden age of theoretical ecology. Lecture notes in biomathematics, vol 52. SpringerVerlag, Berlin, pp 369–408
Labuda M, Randolph SE (1999) Survival strategy of tick-borne encephalitis virus: Cellular basis and environmental determinants. Zentralbl Bakteriol 289:513–524
Labuda M, Jones LD, Williams T, Nuttal P (1993) Enhancement of tick borne encephalitis virus transmission by tick salivary gland extracts. Med Vet Entomol 7:193–196
Labuda M, Kozuch O, Zuffova E, Eleckova E, Hails RS, Nuttal PA (1997) Tickborne encephalitis virus transmission though ticks co-feeding on specific immune natural rodent hosts. Virology 235:138–143
Lewis JW (1987) Helminth parasites of British rodents and insectivores. Mammal Rev 17:81–93
LoGiudice K, Ostfeld RS, Schmidt KA, Keesing F (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
McCallum H, Dobson AP (1995) Detecting disease and parasite threats to endangered species and ecosystems. Trends Ecol Evol 10:190–194
McCurdy DG, Shutler D, Mullie A, Forbes MR (1998) Sex-biased parasitism of avian host: Relations to blood parasite taxon and mating system. Oikos 82:303–312
Moore SL, Wilson K (2002) Parasites as a viability cost of sexual selection in natural populations of mammals. Science 297:2015–2018
Mount GA, Haile DG (1987) Computer management of area-wide management strategies for the lone star tick, Ambllyomma americanum (Acari: Ixodidae). J Med Entomol 24:523–531
Mount GA, Haile DG (1989) Computer simulation of population dynamics of the America dog tick (Acari: Ixodidae). J Med Entomol 26:60–76
Norman R, Bowers RG, Begon M, Hudson PJ (1999) Persistence of tick-borne virus in the presence of multiple host species: Tick reservoirs and parasite mediated competition. J Theor Biol 200:111–118
Ostfeld RS, Keesing F (2000) Biodiversity and disease risk: The case of Lyme Disease. Cons Biol 14:722–728
Perkins SE, Cattadori IM, Tagliapietra V, Rizzoli A, Hudson PJ (2003) Empirical evidence for key hosts in persistence of a tick-borne disease. Int J Parasitol 33:909–917
Poulin R (1996) Sexual inequalities in helminth infections: A cost of being male? Amer Nat 147:287–295
Pugliese A (2002) Virulence evolution in macro-parasites. In: Castillo-Chavez C, Blower S, Kirschner D, Van Den Driessche P, Yakubu A (eds) Mathematical approaches for emerging and reemerging infectious diseases: Models, methods and theory, part 2. IMA Series vol. 126, SpringerVerlag, New York, pp 193–213
Pugliese A, Tonetto L (2004) Thresholds for macroparasite infections. J Math Biol 49:83–110
Quinnell RJ (1992) The population dynamics of Heligmosomoides polygyrus in an enclosure population of wood mice. J Anim Ecol 61:669–679
Quinnell RJ, Grafen A, Woolhouse MEJ (1995) Changes in parasite aggregation with age: A discrete infection model. Parasitology 111:635–644
Randolph SE (1994) Density-dependent acquired resistance in natural and unnatural hosts. Parasitology 79:141–156
Randolph SE (2001) The shifting landscape of tick-borne zoonoses: Tick-borne encephalitis and Lyme borreliosis in Europe. Phil Trans R Soc Lond B 356:1045–1056
Randolph SE, Rogers DJ (1997) A generic population model for the African tick Rhipicephalus appendiculatus. Parasitology 115:265–279
Randolph SE, Rogers DJ (2000) Fragile transmission cycles of tick-borne encephalitis virus may be disrupted by predicted climate change. Proc R Soc Lond B 267:1741–1744
Randolph SE, Gern L, Nuttal PA (1996) Co-feeding ticks: Epidemiological significance for tick-borne pathogens transmission. Parasitol Today 12:472–479
Randolph SE, Miklisova D, Lysy J, Rogers DJ, Labuda M (1999) Incidence from coincidence: Patterns of tick infestations in rodents facilitate transmission of tick-borne encephalitis virus. Parasitology 118:177–186
Randolph SE, Green RM, Peacey MF, Rogers DJ (2000) Seasonal synchrony: The key to the tick-borne pathogen transmission. Parasitology 121:15–23
Randolph SE, Chemini C, Furlanello C, Genchi C, Hails RA, Hudson PJ, Jones LD, Medley G, Norman R, Rizzoli AP, Smith G, Woolhouse MEJ (2001) The ecology of tick-borne infections in wildlife reservoirs. In: Hudson PJ, Rizzoli A, Grenfell BT, Hesterbeek H, Dobson AP (eds) The ecology of wildlife diseases. Oxford Univ Press, Oxford, pp 119–138
Roberts MG, Heesterbeek JAP (1995) The dynamics of nematode infections of farmed ruminants. Parasitology 110:493–502
Roberts MG, Smith G, Grenfell BT (1995) Mathematical models for macroparasites of wildlife. In: Grenfell BT, Dobson AP (eds) Ecology of infectious diseases in natural populations. Cambridge Univ Press, Cambridge, pp 177–208
Rosà R, Pugliese A (2002) Aggregation, stability and oscillations in different models for host-macroparasite interactions. Theor Pop Biol 61:319–334
Rosà R, Rizzoli A, Pugliese A, Genchi C (2000) Managing chamois ( Rupicapra Rupicapra) populations: A model with macroparasites infection and host dynamics. Hystrix 11:103–114
Rosà R, Pugliese A, Villani A, Rizzoli A (2003a) Individual-based vs. deterministic models for macroparasites: Host cycles and extinction. Theor Pop Biol 63:295–307
Rosà R, Pugliese A, Norman R, Hudson PJ (2003b) Thresholds for disease persistence in models for tick-borne infections including non-viraemic transmission, extended feeding and tick aggregation. J Theor Biol 224:359–376
Schalk G, Forbes MR (1997) Male biases in parasitism of mammals: Effects of study type, host age and parasite taxon. Oikos 78:67–74
Scott ME (1987) Regulation of mouse colony abundance by Heligmosomoides polygyrus. Parasitology 95:111–124
Scott ME (1990) An experimental and theoretical study of the dynamics of a mouse-nematode (Heligmosomoides polygyrus) interactions. Parasitology 101:75–92
Skorping A, Jensen KH (2004) Disease dynamics: All caused by males? Trends Ecol Evol 19:219–220
Slater AF, Keymer AE (1988) Epidemiology of Heligmosomoides polygyrus in mice: experiments on natural transmission. Parasitology 93:177–187
Van Buskirk J, Ostfeld RS (1995) Controlling Lyme disease by modifying the density and species composition of tick hosts. Ecol Appl 5:1133–1140
White KAJ, Grenfell BT, Hendry RJ, Lejeune O, Murray JD (1996) Effect of seasonal host reproduction on host-macroparasite dynamics. Math Biosci 137:79–99
Wikel SK (1982) Immune response to arthropods and their hosts. Ann Rev Entomol 27:21–48
Wilson K, Bjørnstad ON, Dobson AP, Merler S, Poglayen G, Randolph SE, Read AF, Skorping A (2001) Heterogeneities in macroparasite infections: Patterns and processes. In: Hudson PJ, Rizzoli A, Grenfell BT, Heesterbeek H, Dobson AP (eds) The ecology of wildlife diseases. Oxford Univ Press, Oxford, pp 6–44
Woolhouse MEJ (1992) A theoretical framework for the immunoepidemiology of helminth infection. Parasite Immunol 14:563–578
Woolhouse MEJ, Dye C, Etard JF, Smith T, Charlwood JD, Garnett GP, Hagan P, Hii JLK, Ndhlovu PD, Quinnel RJ, Watts CH, Chandiwana SK, Anderson RM (1997) Heterogeneities in the transmission of infectious agents; implications for the design of control programs. Proc Natl Acad Sci USA 94:338–342
Zeman P, Benes C (2004) A tick-borne encephalitis ceiling in Central Europe has moved upwards during the last 30 years: Possible impact of global warming? Int J Med Microbiol 37:48–54
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2006 Springer-Verlag Tokyo
About this chapter
Cite this chapter
Rosà, R., Rizzoli, A., Ferrari, N., Pugliese, A. (2006). Models for host-macroparasite interactions in micromammals. In: Morand, S., Krasnov, B.R., Poulin, R. (eds) Micromammals and Macroparasites. Springer, Tokyo. https://doi.org/10.1007/978-4-431-36025-4_17
Download citation
DOI: https://doi.org/10.1007/978-4-431-36025-4_17
Publisher Name: Springer, Tokyo
Print ISBN: 978-4-431-36024-7
Online ISBN: 978-4-431-36025-4
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)