Ecología : individuos, poblaciones y comunidades (1999)
Begon, Michael, Harper, John L., Townsend, Colin R.
Tr. de la 3a ed. en inglés
Begon, Michael, Harper, John L., Townsend, Colin R.
Tr. de la 3a ed. en inglés
Begon, Michael, Mortimer, Martin, Thompson, David J
Incluye bibliografía e índice
Begon, Michael, Harper, John L, Townsend, Colin R
Incluye bibliografía e índice
Ecología animal : modelos de cuantificación de poblaciones / Michael Begon (1989)
Traducción de: Investigaing animal abundance : capture- recapture for biologists
Ecologia, Individui, popolazioni, comunità, Michael Begon, John L. Harper e Colin R. Townsend. . - Bologna. NALUAF000098, Zanichelli. NAEDAF005264, 1989.
Ecologia, individui, popolazioni, comunità, Michael Begon, John L. Harper, Colin R.Townsend. . - Bologna. NALUAF000098, Zanichelli. NAEDAF005264, 1989.
Begon, Michael, Harper, John L, Townsend, Colin R
Traducción de: Ecology : individuals, populations and comunities
Begon, Michael, Harper, John L, Townsend, Colin R
Incluye bibliografía e índice
Population ecology : a unified study of animals and plants / Michael Begon, Martin Mortimer (1986)
Begon, Michael, Mortimer, Martin
Incluye bibliografía e índice
Population ecology : a unified study of animals and plants / Michael Begon, Martin Mortimer (1981)
Begon, Michael, Mortimer, Martin
Fotocopiado
Mycobacterium microti Infection (Vole Tuberculosis) in Wild Rodent Populations
Cavanagh, Rachel, Begon, Michael, Bennett, Malcolm, Ergon, Torbjørn, Graham, Isla M., ...
Mycobacterium microti (vole tuberculosis) infections in small wild mammals were first described more than 60 years ago in several populations in Great Britain. Few studies of vole tuberculosis have...
Mycobacterium microti Infection (Vole Tuberculosis) in Wild Rodent Populations
Cavanagh, Rachel, Begon, Michael, Bennett, Malcolm, Ergon, Torbjørn, Graham, Isla M., ...
Mycobacterium microti (vole tuberculosis) infections in small wild mammals were first described more than 60 years ago in several populations in Great Britain. Few studies of vole tuberculosis have...
Modelling pathogen transmission: the interrelationship between local and global approaches.
Turner, Joanne, Begon, Michael, Bowers, Roger G
We describe two spatial (cellular automaton) host-pathogen models with contrasting types of transmission, where the biologically realistic transmission mechanisms are based entirely on 'local'...
Cavanagh, Rachel D, Lambin, Xavier, Ergon, Torbjørn, Bennett, Malcolm, Graham, Isla M, Van Soolingen, Dick, ...
The possible role of pathogens in rodent population cycles has been largely neglected since Elton's 'epidemic hypothesis' of 1931. To revisit this question, 12 adjacent, cyclic but out-of-phase...
Carslake, David, Bennett, Malcolm, Hazel, Sarah, Telfer, Sandra, Begon, Michael
There have been virtually no studies of ‘who acquires infection from whom’ in wildlife populations, but patterns of transmission within and between different classes of host are likely to be...
Disease effects on reproduction can cause population cycles in seasonal environments
Smith, Matthew J, White, Andrew, Sherratt, Jonathan A, Telfer, Sandra, Begon, Michael, Lambin, Xavier
Recent studies of rodent populations have demonstrated that certain parasites can cause juveniles to delay maturation until the next reproductive season. Furthermore, a variety of parasites may share...
Seasonal host dynamics drive the timing of recurrent epidemics in a wildlife population
Begon, Michael, Telfer, Sandra, Smith, Matthew J., Burthe, Sarah, Paterson, Steve, Lambin, Xavier
The seasonality of recurrent epidemics has been largely neglected, especially where patterns are not driven by forces external to the population. Here, we use data on cowpox virus in field voles to...
Poor condition and infection: a vicious circle in natural populations
Beldomenico, Pablo M, Telfer, Sandra, Gebert, Stephanie, Lukomski, Lukasz, Bennett, Malcolm, Begon, Michael
Pathogens may be important for host population dynamics, as they can be a proximate cause of morbidity and mortality. Infection dynamics, in turn, may be dependent on the underlying condition of...
Smith, Matthew J., Telfer, Sandra, Kallio, Eva R., Burthe, Sarah, Cook, Alex R., Lambin, Xavier, ...
A key aim in epidemiology is to understand how pathogens spread within their host populations. Central to this is an elucidation of a pathogen's transmission dynamics. Mathematical models have...