Agriculture Reference
In-Depth Information
Filipe, J.A.N. and Gibson, G.J. (2001) Comparing approximations to spatio-temporal models for
epidemics with local spread.
Bulletin of Mathematical Biology,
63
, 603-624.
Gadoury, D.M., Seem, R.C., MacHardy, W.E.
et al
. (2004) A comparison of methods used to estimate the
maturity and release of ascospores of
Venturia inaequalis
.
Plant Disease,
88
, 869-874.
Gilligan, C.A. (1990) Comparison of disease progress curves.
New Phytologist,
115
, 223-242.
Gilligan, C.A. (2002) An epidemiological framework for disease management, in
Advances in Botanical
Research,
38
, 1-64.
Gilligan, C.A. and Bailey, D.J. (1997) Components of pathozone behaviour.
New Phytologist,
136
, 343-
358.
Gilligan, C.A., Gubbins, S. and Simons, S.A. (1997) Analysis and fitting of an SIR model with host
response to infection load for a plant disease.
Philosophical Transactions of the Royal Society of
London Series B-Biological Sciences,
352
, 353-364.
Gilligan, C.A. and Kleczkowski, A. (1997). Population dynamics of botanical epidemics involving
primary and secondary infection.
Philosophical Transactions of the Royal Society of London Series
B-Biological Sciences,
352
, 591-608.
Gutierrrez, A.P. and DeVay, J.E. (1986) Studies of plant-pathogen-weather interaction: cotton and
Verticillium
wilt, in
Plant Disease Epidemiology: Population Dynamics and Management
(eds
Leonard K. and Fry W.), New York: Macmillan, 205-231.
Hair, J.F.J., Anderson, R.E., Tatham, R.L. and Black, W.C. (1998)
Multivariate data analysis
.
Englewood Cliffs, NJ: Prentice Hall.
Hennessy, G.G., de Milliano, W.A.J. and McLaren, C.G. (1990) Influence of primary weather variables
on sorghum leaf blight severity in southern Africa.
Phytopathology,
80
, 943-945.
Hims, M.J. and Cook, R.J. (1992) Disease epidemiology and fungicide activity in winter wheat.
Brighton
Crop Protection Conference: Pests & Diseases 1992,
2
, 615-620.
Hunt, R. (1982)
Plant growth curves: the functional approach to plant growth analysis
. Baltimore, MD:
University Park Press.
Jeger, M.J. (1982) The relation between total, infectious, and postinfectious diseased plant tissue.
Phytopathology,
72
, 1185-1189.
Jeger, M.J. (1984) Relation between rate parameters and latent and infectious periods during a plant
disease epidemic.
Phytopathology,
74
, 1148-1152.
Jeger, M.J. (1986) Asymptotic behaviour and threshold criteria in model plant disease epidemics.
Plant
Pathology,
35
, 355-361.
Jeger, M.J. (1987a) The influence of root growth and inoculum density on the dynamics of root disease
epidemics: Theoretical analysis.
New Phytologist,
a107
, 459-478.
Jeger, M.J. (1987b) Modelling the dynamics of pathogen populations, in
Populations of Plant Pathogens:
Their Dynamics and Genetics
(eds Wolfe M.S. and Caten C.E.), Oxford: Blackwell, 91-107.
Jeger, M.J. (2000). Theory and plant epidemiology.
Plant Pathology,
49
, 651-658.
Jeger, M.J. (2004) Analysis of disease progress as a basis for evaluating disease management practices.
Annual Review of Phytopathology,
42
, 61-82.
Jeger, M.J., Holt, J., van den Bosch, F. and Madden, L.V. (2004a) Epidemiology of insect-transmitted
plant viruses: modelling disease dynamics and control interventions.
Physiological Entomology,
29
,
291-304.
Jeger, M.J., Termorshuizen, A.J., Nagtzaam, M.P.M. and Van den Bosch, F. (2004b). The effect of spatial
distributions of mycoparasites on biocontrol efficacy: a modelling approach.
Biocontrol Science and
Technology,
14
, 359-373.
Jeger, M.J., van den Bosch, F. and Dutmer, M.Y. (2002) Modelling plant virus epidemics in a plantation-
nursery system.
Ima Journal of Mathematics Applied in Medicine and Biology,
19
, 75-94.
Jeger, M.J., van den Bosch, F., Madden, L.V. and Holt, J. (1998) A model for analysing plant-virus
transmission characteristics and epidemic development.
Ima Journal of Mathematics Applied in
Medicine and Biology,
15
, 1-18.
Jeger, M.J. and Viljanen-Rollinson, S.L.H. (2001) The use of the area under the disease-progress curve
(AUDPC) to assess quantitative disease resistance in crop cultivars.
Theoretical and Applied
Genetics,
102
, 32-40.
Johnson, K.B. (1988) Modelling the influence of plant infection rate and temperature on potato foliage
and yield losses caused by
Verticillium dahliae
.
Phytopathology,
78
, 1198-1205.
Johnson, K.B. and Teng, P.S. (1990) Coupling a disease progress model for early blight to a model of
potato growth.
Phytopathology,
80
, 416-425.
