bachmaier.nitrogen: Trial of wheat with nitrogen fertilizer in two fertility...
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bachmaier.nitrogen R Documentation
Trial of wheat with nitrogen fertilizer in two fertility zones
Description
Trial of wheat with nitrogen fertilizer in two fertility zones
Usage
data("bachmaier.nitrogen")
Format
A data frame with 88 observations on the following 3 variables.
nitronitrogen fertilizer, kg/ha
yieldwheat yield, Mg/ha
zonefertility zone
Details
Data from a wheat fertilizer experiment in Germany in two yield zones.
In each zone, the design was an RCB with 4 blocks and 11 nitrogen
levels.
The yield of each plot was measured.
Electronic data originally downloaded from
http://www.tec.wzw.tum.de/bachmaier/vino.zip (no longer available).
Source
Bachmaier, Martin. 2009.
A Confidence Set for That X-Coordinate Where a Quadratic Regression
Model Has a Given Gradient.
Statistical Papers 50: 649–60. https://doi.org/10.1007/s00362-007-0104-1.
References
Bachmaier, Martin.
Test and confidence set for the difference of the x-coordinates of the
vertices of two quadratic regression models.
Stat Papers (2010) 51:285–296, https://doi.org/10.1007/s00362-008-0159-7
Examples
library(agridat)
data(bachmaier.nitrogen)
dat <- bachmaier.nitrogen
# Fit a quadratic model for the low-fertility zone
dlow <- subset(dat, zone=="low")
m1 <- lm(yield ~ nitro + I(nitro^2), dlow)
# Slope of tangent line for economic optimum
m <- .005454 # = (N 0.60 euro/kg) / (wheat 110 euro/Mg)
# x-value of tangent point
b1 <- coef(m1)[2]
b2 <- coef(m1)[3]
opt.bach <- (m-b1)/(2*b2)
round(opt.bach, 0)
# conf int for x value of tangent point
round(vcovs <- vcov(m1), 7)
b1b1 <- vcovs[2,2] # estimated var of b1
b1b2 <- vcovs[2,3] # estimated cov of b1,b2
b2b2 <- vcovs[3,3]
tval <- qt(1 - 0.05/2, nrow(dlow)-3)
A <- b2^2 - b2b2 * tval^2
B <- (b1-m)*b2 - b1b2 * tval^2
C <- ((b1-m)^2 - b1b1 * tval^2)/4
D <- B^2 - 4*A*C
x.lo <- -2*C / (B-sqrt(B^2-4*A*C))
x.hi <- (-B + sqrt(B^2-4*A*C))/(2*A)
ci.bach <- c(x.lo, x.hi)
round(ci.bach,0) # 95% CI 173,260 Matches Bachmaier
# Plot raw data, fitted quadratic, optimum, conf int
plot(yield~nitro, dlow)
p1 <- data.frame(nitro=seq(0,260, by=1))
p1$pred <- predict(m1, new=p1)
lines(pred~nitro, p1)
abline(v=opt.bach, col="blue")
abline(v=ci.bach, col="skyblue")
title("Economic optimum with 95 pct confidence interval")
agridat documentation built on Aug. 25, 2023, 5:18 p.m.
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| bachmaier.nitrogen | R Documentation |
Trial of wheat with nitrogen fertilizer in two fertility zones
Description
Trial of wheat with nitrogen fertilizer in two fertility zones
Usage
data("bachmaier.nitrogen")Format
A data frame with 88 observations on the following 3 variables.
nitronitrogen fertilizer, kg/ha
yieldwheat yield, Mg/ha
zonefertility zone
Details
Data from a wheat fertilizer experiment in Germany in two yield zones. In each zone, the design was an RCB with 4 blocks and 11 nitrogen levels. The yield of each plot was measured.
Electronic data originally downloaded from http://www.tec.wzw.tum.de/bachmaier/vino.zip (no longer available).
Source
Bachmaier, Martin. 2009. A Confidence Set for That X-Coordinate Where a Quadratic Regression Model Has a Given Gradient. Statistical Papers 50: 649–60. https://doi.org/10.1007/s00362-007-0104-1.
References
Bachmaier, Martin. Test and confidence set for the difference of the x-coordinates of the vertices of two quadratic regression models. Stat Papers (2010) 51:285–296, https://doi.org/10.1007/s00362-008-0159-7
Examples
library(agridat)
data(bachmaier.nitrogen)
dat <- bachmaier.nitrogen
# Fit a quadratic model for the low-fertility zone
dlow <- subset(dat, zone=="low")
m1 <- lm(yield ~ nitro + I(nitro^2), dlow)
# Slope of tangent line for economic optimum
m <- .005454 # = (N 0.60 euro/kg) / (wheat 110 euro/Mg)
# x-value of tangent point
b1 <- coef(m1)[2]
b2 <- coef(m1)[3]
opt.bach <- (m-b1)/(2*b2)
round(opt.bach, 0)
# conf int for x value of tangent point
round(vcovs <- vcov(m1), 7)
b1b1 <- vcovs[2,2] # estimated var of b1
b1b2 <- vcovs[2,3] # estimated cov of b1,b2
b2b2 <- vcovs[3,3]
tval <- qt(1 - 0.05/2, nrow(dlow)-3)
A <- b2^2 - b2b2 * tval^2
B <- (b1-m)*b2 - b1b2 * tval^2
C <- ((b1-m)^2 - b1b1 * tval^2)/4
D <- B^2 - 4*A*C
x.lo <- -2*C / (B-sqrt(B^2-4*A*C))
x.hi <- (-B + sqrt(B^2-4*A*C))/(2*A)
ci.bach <- c(x.lo, x.hi)
round(ci.bach,0) # 95% CI 173,260 Matches Bachmaier
# Plot raw data, fitted quadratic, optimum, conf int
plot(yield~nitro, dlow)
p1 <- data.frame(nitro=seq(0,260, by=1))
p1$pred <- predict(m1, new=p1)
lines(pred~nitro, p1)
abline(v=opt.bach, col="blue")
abline(v=ci.bach, col="skyblue")
title("Economic optimum with 95 pct confidence interval")
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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