Biology Reference
In-Depth Information
189. Kretzschmar M. Persistent solutions in a model for parasitic infections. J Math Biol
1989;
27
:549
e
73.
190. Adler FR, Kretzschmar M. Aggregation and stability in parasite
e
host models.
205.
191. Kretzschmar M, Adler FR. Aggregated distributions in models for patchy populations.
Theor Popul Biol 1993;
43
:1
Parasitology 1992;
104
:199
e
30.
192. Herbert J, IshamV. Stochastic host
e
71.
193. Pacala SW, Dobson AP. The relation between the number of parasites/host and host
age: population dynamic causes and maximum likelihood estimation. Parasitology
1988;
96
:197
e
parasite interactionmodels. JMathBiol 2000;
40
:343
e
210.
194. Quinnell RJ, Grafen A, Woolhouse MEJ. Changes in parasite aggregation with age:
a discrete infection model. Parasitology 1995;
111
:635
e
44.
195. Grenfell BT, Dietz K, Roberts MG. Modelling the immuno-epidemiology of macro-
parasites in naturally fluctuating host populations. In: Grenfell BT, Dobson AP, editors.
Ecology of Infectious Diseases in Natural Populations. Cambridge: Cambridge University
Press; 1995. p. 362
e
83.
196. N˚sell I. Hybrid Models of Tropical Infections. New York: Springer; 1985.
197. Keymer A. Density-dependent mechanisms in the regulation of intestinal helminth
populations. Parasitology 1982;
84
:573
e
87.
198. Medley GF. Which comes first in host
e
parasite systems: density dependence or
parasite distribution? Parasitol Today 1992;
8
:321
e
2.
199. Ros
`
R, Pugliese A. Aggregation, stability, and oscillations in different models for host-
macroparasite interactions. Theor Popul Biol 2002;
61
:319
e
34.
200. Churcher TS, Filipe JAN, Bas
´
˜ ez M- G. Density dependence and the control of
helminth parasites. J Anim Ecol 2006;
75
:1313
e
20.
201. Anderson RM, May RM. Population dynamics of human helminth infections: control
by chemotherapy. Nature 1982;
297
:557
e
63.
202. Churcher TS, Ferguson NM, Bas
´
˜
ez M- G. Density dependence and overdispersion in
the transmission of helminth parasites. Parasitology 2005;
131
:121
e
e
32.
203. May RM. Togetherness among schistosomes: its effects on the dynamics of the infec-
tion. Math Biosci 1977;
35
:301
43.
204. Courchamp F, Berec L, Gascoigne J. Allee Effects in Ecology and Conservation. Oxford:
Oxford University Press; 2008.
205. Croll NA, Anderson RM, Gyorkos TW, Ghadirian E. The population biology and
control of Ascaris lumbricoides in a rural community in Iran. Trans R Soc Trop Med Hyg
1982;
76
:187
e
97.
206. Chan MS, Guyatt HL, Bundy DA, Medley GF. The development and validation of an
age-structured model for the evaluation of disease control strategies for intestinal
helminths. Parasitology 1994;
109
:389
e
96.
207. Chan MS, Bradley M, Bundy DA. Transmission patterns and the epidemiology of
hookworm infection. Int J Epidemiol 1997;
26
:1392
e
400.
208. Chan MS, Srividya A, Norman RA, et al. Epifil: a dynamic model of infection and
disease in lymphatic filariasis. Am J Trop Med Hyg 1998;
59
:606
e
14.
209. Norman RA, Chan MS, Srividya A, et al. EPIFIL: the development of an age-structured
model for describing the transmission dynamics and control of lymphatic filariasis.
Epidemiol Infect 2000;
124
:529
e
41.
210. Chan MS, Guyatt HL, Bundy DA, Booth M, Fulford AJ, Medley GF. The development
of an age structured model for schistosomiasis transmission dynamics and control and
its validation for Schistosoma mansoni. Epidemiol Infect 1995;
115
:325.
211. Anderson RM. The population dynamics and control of hookworm and roundworm
infections. In: Anderson RM, editor. Population Dynamics of Infectious Diseases. London:
Chapman & Hall; 1982. p. 67
e
e
108.
