Agriculture Reference
In-Depth Information
Kalbfleisch, J.D. and Prentice, R.L. (2002)
The statistical analysis of failure time data
. Boboken, NJ:
John Wiley & Sons.
Kranz, J. (1968). Eine Analyse von annuellen Epidemien pilzlicher Parasiten. III. Uber Korrelationen
zwischen quantitativen Merkmalen von Befallskurven und Ahnlichkeit von Epidemien.
Phytopathologische Zeitschrift,
61
, 205-217.
Kranz, J. (1975) Das Abklingen von belfallskurven.
Zeitschrift fur Pflanzenkrankheiten und
Pflanzenschutz,
82
, 655-664.
Kushalappa, A.C. and Ludwig, A. (1982) Calculation of apparent infection rate in plant diseases:
development of a method to correct for host growth.
Phytopathology
,
72
, 1373-1377.
Lalancette, N. and Hickey, K.D. (1986) Disease progression as a function of plant growth.
Phytopathology,
76
, 1171-1175.
Large, E.C. (1945) Field trials of copper fungicides for the control of potato blight I. Foliage protection
and yield.
Annals of Applied Biology,
32
, 319-329.
Large, E.C. (1952) The interpretation of progress curves for potato blight and other plant diseases.
Plant
Pathology,
1
, 109-117.
Le, C.T. (1997)
Applied survival analysis
. New York: John Wiley & Sons.
Li, B-H. and Xu, X.-M. (2002) Infection and development of apple scab (
Venturia inaequalis
) on old
leaves.
Journal of Phytopathology,
150
, 687-691.
Lovell, D.J., Powers, S.J., Welham, S.J. and Parker, S.R. (2004) A perspective on the measurement of
time in plant disease epidemiology.
Plant Pathology,
53
, 705-712.
MacHardy, W.E. (1996)
Apple scab: Biology, Epidemiology, and Management
. St. Paul, MN: American
Phytopathological Society.
Madden, L.V., Jeger, M.J. and van den Bosch, F. (2000) A theoretical assessment of the effects of vector-
virus transmission mechanism on plant virus disease epidemics.
Phytopathology,
90
, 576-594.
Madden, L.V., Turechek, W.W. and Nita, M. (2002) Evaluation of generalised linear mixed models for
analyzing disease incidence data obtained in designed experiments.
Plant Disease,
86
, 316-325.
McRoberts, N., Hughes, G. and Madden, L.V. (1996) Incorporating spatial variability into simple disease
progress models for crop pathogens. In
Aspects of Applied Biology
,
46
, 75-82.
Mence, M.J. and Hildebrandt, A.C. (1966) Resistance to powdery mildew in rose.
Annals of Applied
Biology,
61
, 387-397.
Mora-Aguilera, G., Nieto-Angel, D., Campbell, C.L.
et al
. (1996). Multivariate comparison of papaya
ringspot epidemics.
Phytopathology,
86
, 70-78.
Navas-Cortes, J.A., Hau, B. and Jimenez-Diaz, R.M. (1998) Effect of sowing date, host cultivar, and race
of
Fusarium oxysporum
f. sp.
ciceris
on development of fusarium wilt of chickpea.
Phytopathology,
88
, 1338-1346.
Navas-Cortes, J.A., Hau, B. and Jimenez-Diaz, R.M. (2000) Yield loss in chickpeas in relation to
development of Fusarium wilt epidemics.
Phytopathology,
90
, 1269-1278.
Nelson, S.C. (1996) A simple analysis of disease foci.
Phytopathology,
86
, 332-339.
Patterson, H.D. and Thompson, R. (1971) Recovery of inter-block information when block sizes are
unequal.
Biometrika,
58
, 545-554.
Paulitz, T.C. (2000) Population dynamics of biocontrol agents and pathogens in soils and rhizospheres.
European Journal of Plant Pathology,
106
, 401-413.
Piepho, H-P. (1999) Analysing disease incidence data from designed experiments by generalised linear
mixed models.
Plant Pathology,
48
, 668-674.
Rogers, M.N. (1959) Some effects of moisture and host plant susceptibility on the development of
powdery mildew of roses, caused by
Sphaerotheca pannosa
var.
rosae
.
Memoir, Cornell University
Agriculture Experimental Station,
363
, 3-37.
Scherm, H. (1996) On the velocity of epidemic waves in model plant disease epidemics.
Ecological
Modelling,
87
, 217-222.
Scherm, H. and Ojiambo, P.S. (2004) Application of survival analysis in botanical epidemiology.
Phytopathology,
94
, 1022-1026.
Schlosser, I., Kranz, J. and Bonman, J.M. (2000) Characterization of plant type and epidemiological
development in the pathosystem upland rice/rice blast (
Pyricularia grisea
) by means of
multivariate statistical methods.
Zeitschrift Fur Pflanzenkrankheiten Und Pflanzenschutz-Journal of
Plant Diseases and Protection,
107
, 12-32.
“
”
Schoeny, A. and Lucas, P. (1999) Modeling of take-all epidemics to evaluate the efficacy of a new seed-
treatment fungicide on wheat.
Phytopathology,
89
, 954-961.