View source: R/predict_bacterial_blight.R
predict_bacterial_blight | R Documentation |
A dynamic mechanistic simulation of bacterial blight disease of rice,
causal agent Xanthomonas oryzae pv. oryzae. The model is driven by daily
weather data, which can easily be accessed using get_wth()
to download
weather data from NASA POWER using nasapower.
predict_bacterial_blight(wth, emergence)
predict_bb(wth, emergence)
wth |
Weather data with a daily time-step, normally NASA
POWER data from
| |||||||||||||||||
emergence |
Expected date of crop emergence |
The model represents site size as 1 rice plant's leaf.
Default values for this disease model are derived from Table 2 (Savary et al. 2012).
predict_bb()
is a shorthand alias for predict_bacterial_blight()
.
A data.table::data.table()
of disease intensity and infection
sites. See SEIR()
for a full description of the column values.
Adapted from cropsim package version 0.2.0-5 by Adam H. Sparks, Department of Primary Industries and Regional Development, WA, AU. Original model development: Serge Savary & Rene Pangga (IRRI). Original R implementation by Robert J. Hijmans, Rene Pangga, & Jorrel Aunario (IRRI).
If the wth
object provides LAT and LON columns, these will be included
in the output for mapping purposes. Both values must be present. These
columns are provided by default when using get_wth()
.
Serge Savary, Ireneo Pangga, Robert Hijmans, Jorrel Khalil Aunario, and Adam H. Sparks
Adhikari, T.B., 1991. Effects of rice genotype and environment on bacterial blight progression. PhD Thesis, University of the Philippines at Los Baños, 143 p.
Baw A. and Mew, T.W., 1988. Scoring systems for evaluating rice varietal resistance to bacterial blight (BB): lesion size by growth stage. International Rice Research Newsletter 13:10-11.
Horino, O., Mew, T.W., Yamada, T., 1982. The effect of temperature on the development of bacterial leaf blight on rice. Annals of the Phytopathological Society of Japan 48: 72-75.
Luo Wei-Hong, 1996. Simulation and measurement of leaf wetness formation in paddy rice crops. PhD, Wageningen Agricultural University, 87 p.
Medalla, E. 1992. Characterization of resistance of IR cultivars to two races of Xanthomonas oryzae pv. oryzae. Unpublished M.S. Thesis, University of the Philippines at Los Baños, 81 p.
Nayak, P., Suriya Rao, A.V., Chakrabarti, N.K., 1987. Components of resistance to bacterial blight disease of rice. Journal of Phytopathology 119:312-318. DOI: \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1111/j.1439-0434.1987.tb04402.x")}.
Savary, S., Nelson, A., Willocquet, L., Pangga, I., and Aunario, J. Modeling and mapping potential epidemics of rice diseases globally. Crop Protection, Volume 34, 2012, Pages 6-17, ISSN 0261-2194 DOI: \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1016/j.cropro.2011.11.009")}.
SEIR()
Other predict functions:
predict_brown_spot()
,
predict_leaf_blast()
,
predict_sheath_blight()
,
predict_tungro()
# get weather for IRRI Zeigler Experiment Station in wet season 2000
wth <- get_wth(
lonlat = c(121.25562, 14.6774),
dates = c("2000-06-30", "2000-12-31")
)
bb <- predict_bacterial_blight(wth, emergence = "2000-07-01")
plot(x = bb$dates, y = bb$intensity, type = "l")
# use shorthand function
bb <- predict_bb(wth, emergence = "2000-07-01")
plot(x = bb$dates, y = bb$intensity, type = "l")
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