All Stories

  1. What factors affect disease transmission?
  2. What is a vector?
  3. Correction: Predicting the Potential for Natural Recovery of Atlantic Salmon (Salmo salar L.) Populations following the Introduction of Gyrodactylus salaris Malmberg, 1957 (Monogenea)
  4. Predicting the Potential for Natural Recovery of Atlantic Salmon (Salmo salar L.) Populations following the Introduction of Gyrodactylus salaris Malmberg, 1957 (Monogenea)
  5. Mathematical models of tick borne diseases
  6. A MATHEMATICAL MODEL ON CTL MEDIATED CONTROL OF HIV INFECTION IN A LONG-TERM DRUG THERAPY
  7. Using process algebra to develop predator–prey models of within-host parasite dynamics
  8. The impact of increased dispersal in response to disease control in patchy environments
  9. Stocking methods and parasite-induced reductions in capture: Modelling Argulus foliaceus in trout fisheries
  10. A model to test how ticks and louping ill virus can be controlled by treating red grouse with acaricide
  11. An alternative to killing? Treatment of reservoir hosts to control a vector and pathogen in a susceptible species
  12. Measles Epidemics and PEPA: An Exploration of Historic Disease Dynamics Using Process Algebra
  13. From individuals to populations: A mean field semantics for process algebra
  14. Modelling the koi herpesvirus (KHV) epidemic highlights the importance of active surveillance within a national control policy
  15. A Symbolic Investigation of Superspreaders
  16. A rigorous approach to investigating common assumptions about disease transmission
  17. Controlling tick-borne diseases through domestic animal management: a theoretical approach
  18. From Individuals to Populations: A Symbolic Process Algebra Approach to Epidemiology
  19. Improved Continuous Approximation of PEPA Models through Epidemiological Examples
  20. Pathogen Interactions, Population Cycles, and Phase Shifts
  21. Environmental forcing, invasion and control of ecological and epidemiological systems
  22. The effect of seasonal host birth rates on disease persistence
  23. A Host-Host-Pathogen Model with Vaccination and its Application to Target and Reservoir Hosts
  24. Bovine tuberculosis (Mycobacterium bovis) in British farmland wildlife: the importance to agriculture
  25. The effect of seasonal host birth rates on population dynamics: the importance of resonance
  26. Mountain hares, louping-ill, red grouse and harvesting: complex interactions but few data
  27. 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)
  28. The population dynamical implications of covert infections in host–microparasite interactions
  29. Thresholds for disease persistence in models for tick-borne infections including non-viraemic transmission, extended feeding and tick aggregation
  30. Developing the Use of Process Algebra in the Derivation and Analysis of Mathematical Models of Infectious Disease
  31. Identifying disease reservoirs in complex systems: mountain hares as reservoirs of ticks and louping-ill virus, pathogens of red grouse
  32. Epidemiological consequences of a pathogen having both virulent and avirulent modes of transmission: the case of rabbit haemorrhagic disease virus
  33. Parasite transmission: reconciling theory and reality
  34. Optimal application strategies for entomopathogenic nematodes: integrating theoretical and empirical approaches
  35. Disease persistence and apparent competition in a three-host community: an empirical and analytical study of large-scale, wild populations
  36. Evaluating the Efficacy of Entomopathogenic Nematodes for the Biological Control of Crop Pests: A Nonequilibrium Approach
  37. The emergence of rabbit haemorrhagic disease virus: will a non-pathogenic strain protect the UK?
  38. Re-assessing the infection strategies of the entomopathogenic nematode Steinernema feltiae (Rhabditidae; Steinernematidae)
  39. EPIFIL: The development of an age-structured model for describing the transmission dynamics and control of lymphatic filariasis
  40. Sublethal infection and the population dynamics of host-microparasite interactions
  41. Modelling the efficacy of entomopathogenic nematodes in the regulation of invertebrate pests in glasshouse crops
  42. The role of lambs in louping-ill virus amplification
  43. Persistence of Tick-borne Virus in the Presence of Multiple Host Species: Tick Reservoirs and Parasite Mediated Competition
  44. The Population Dynamics of Microparasites and Vertebrate Hosts: The Importance of Immunity and Recovery
  45. Process Algebra Models of Population Dynamics