Agriculture Reference
In-Depth Information
Jones, A.L., Fisher, P.D., Seem, R.C.,
et al.
(1984) Development and commercialization of an in-field
microcomputer delivery system for weather-driven predictive models.
Plant Disease,
64
, 458-463.
Keitt, G.W. and Jones, L.K. (1926) Studies of the epidemiology and control of apple scab.
Wisconsin
Agricultural Experiment Station Research Bulletin,
73
, 1-104.
Kollar, A. (1998) A simple method to forecast the ascospore discharge of
Venturia inaequalis
.
Journal of
Plant Diseases and Protection,
105
, 489-495.
Kollar, A. (1996) Evidence for loss of ontogenetic resistance of apple leaves against
Venturia inaequalis
.
European Journal of Plant Pathology,
102
, 773-778.
Köller, W. (1994) Chemical control of apple scab - status quo and future.
Norwegian Journal of
Agricultural Sciences
, Supplement
17
, 149-170.
Köller, W., Wilcox, W.F., Barnard, J.,
et al.
(1997) Detection and quantification of resistance of
Venturia
inaequalis
populations to sterol demethylation inhibitors.
Phytopathology,
87
, 184-190.
Li, B. and Xu, X. (2002) Infection and development of apple scab (
Venturia inaequalis
) on old leaves.
Journal of Phytopathology,
150
, 687-691.
MacHardy, W.E. (1996)
Apple scab: Biology, Epidemiology and Management,
APS Press, St. Paul, MN.
MacHardy, W.E. and Gadoury, D.M. (1986) Patterns of ascospore discharge by
Venturia inaequalis
.
Phytopathology,
76
, 985-990.
MacHardy, W.E. and Gadoury, D.M. (1989) A revision of Mills's criteria for predicting apple scab
infection periods.
Phytopathology,
79
, 304-310.
MacHardy, W.E. and Jeger, M.J. (1983) Integrating control measures for the management of primary
apple scab,
Venturia inaequalis
(Cke.) Wint.
Protection Ecology,
5
, 103-125.
MacHardy, W.E., Gadoury, D.M. and Rosenberger, D.A. (1993) Delaying the onset of fungicide
programs for control of apple scab in orchards with low potential ascospore dose of
Venturia
inaequalis
.
Plant Disease,
77
, 372-275.
Mancini, G., Cotroneo, A. and Galliano, A. (1984) Evaluation of two models for predicting ascospore
maturation of
Venturia inaequalis
in Piedmont (NW Italy).
Rivista di Patologia Vegetale, Series IV,
20
, 25-37.
Massie, L.B. and Szkolnik, M. (1974) Prediction of ascospore maturation of
Venturia inaequalis
utilizing
cumulative degree days. (Abstr.)
Proceedings of the American Phytopathological Society,
1
, 140.
McKay, R. (1938) Conidia from infected budscales and adjacent wood as a main source of primary
infection with the apple scab fungus
Venturia inaequalis
(Cooke) Wint.
Science Proceedings Royal
Dublin Society n.s.,
21
, 623-644.
Mills, W.D. (1944) Efficient use of sulphur dusts and sprays during rain to control apple scab.
Cornell
University Extension Bulletin,
630
, 1-4.
Mills, W.D. and LaPlante, A.A. (1951) Diseases and insects in the orchard. Cornell University Extension
Bulletin,
711
, 21-27.
Moore, M.H. (1964) Glasshouse experiments on apple scab I. Foliage infection in relation to wet and dry
periods.
Annals of Applied Biology,
53
, 423-435.
Moosherr, W. and Kennel, W. (1995) Investigations on superficial apple scab on apple shoots.
Journal of
Plant Diseases and Protection,
102
, 171-183.
Nowacka, H. and Cimanowski, J. (1985) Evaluation of the methods determining critical periods in scab
infection for its control.
Fruit Science Report,
12
, 35-39.
Parisi, L. and Lespinasse, Y. (1996) Pathogenicity of
Venturia inaequalis
strains of race 6 on apple clones
(
Malus
sp.).
Plant Disease,
80
, 1179-1183.
Penrose, L.J., Heaton, J.B., Washington, W.S. and Wicks, T. (1985) Australian evaluation of an orchard
based electronic device to predict primary apple scab infections.
Journal of Austrian Institute of
Agricultural Science,
51
, 74-78.
Roosje, G.S. (1963) Research on apple and pear scab in the Netherlands from 1938 until 1961.
Netherlands Journal of Plant Pathology,
69
, 132-137.
Rossi, V., Giosuè, S., and Bugiani, R. (2003) Influence of air temperature on the release of ascospores of
Venturia inaequalis
.
Journal of Phytopathology,
151
, 50-58.
Rossi, V., Ponti, I., Marinelli, M.,
et al.
(2001) Environmental factors influencing the dispersal of
Venturia inaequalis
ascospores in the orchard air.
Journal of Phytopathology,
149
, 11-19.
Rossi, V., Ponti, I., Marinelli, M.,
et al.
(1999) Field evaluation of some models estimating the seasonal
pattern of airborne ascospores of
Venturia inaequalis
.
Journal of Phytopathology,
147
, 567-575.
Schnabel, G. and Jones, A.L. (2001) The 14
-demethylase (
CYP51A1
) gene is overexpressed in
Venturia
inaequalis
strains resistant to myclobutanil.
Phytopathology,
91
, 102-110.
α
