sanderlings: Sanderling Moult Data
In moult: Models for Analysing Moult in Birds
sanderlings R Documentation
Sanderling Moult Data
Description
This data set gives moult indices for 164 Sanderlings trapped on 11 days.
Usage
data(sanderlings)
Format
A data frame with 164 observations on the following 2 variables.
Daya numeric vector of day bird was measured, 1 = 1 July
MIndexa numeric vector of moult indices, 0 = bird has not started moult, 1 = bird has completed moult
Details
This data set gives moult indices for 164 Sanderlings trapped on 11 days in the southwestern Cape, South Africa, between October 1978 and April 1979. Day 1 = 1 July). Moult indices are a transformation of moult scores so that moult index increases linearly with time. See Underhill and Zucchini (1988) for details.
Source
Underhill and Zucchini (1998)
References
Underhill, L. G. and Zucchini, W. (1988) A model for avian
primary moult. Ibis 130, 358–372.
Examples
data(sanderlings)
## fit model of type 1 to data
m1 <- moult(MIndex ~ Day, data = sanderlings, type = 1)
summary(m1)
## model of type 2 (default)
m2 <- moult(MIndex ~ Day, data = sanderlings)
summary(m2)
## model of type 3
m3 <- moult(MIndex ~ Day, data = sanderlings, type = 3)
summary(m3)
## find intercept and slope of mean moult trajectory line
uza <- - coef(m2, "mean") / coef(m2, "duration")
uzb <- 1 / coef(m2, "duration")
## extract how many birds observed on each of the days
nn <- as.numeric(table(sanderlings$Day))
## extract days of observations
day <- unique(sanderlings$Day)
## probabilities of moult stages
## Table 6 in Underhill and Zucchini 1988
p1 <- predict(m2, newdata = data.frame(day))
p1$M * nn
## Table 7 in Underhill and Zucchini 1988
days2 <- seq(70, 310, by = 10)
p2 <- predict(m2, newdata = data.frame(days2))
p2$M * 100
p3 <- predict(m3, newdata = data.frame(day))
p3
## Comparison with regression models
MInd <- sanderlings$MIndex[sanderlings$MIndex > 0 &
sanderlings$MIndex < 1]
MTime <- sanderlings$Day[sanderlings$MIndex > 0 &
sanderlings$MIndex < 1]
lm1 <- lm(MTime ~ MInd)
lm1.int <- coef(lm1)[1]
lm1.slope <- coef(lm1)[2]
lm2 <- lm(MInd ~ MTime)
## regression of Index on Time
plot(MTime, MInd, pch = 19, cex=0.7)
## regression of Time on Index: gives better estimates
## for mean start day and duration of moult
abline(lm2, col = "blue", lwd = 2)
abline(-lm1.int / lm1.slope, 1 / lm1.slope, col = "orange", lwd = 2)
abline(uza, uzb, col = "red", lty = 2, lwd = 2)
moult documentation built on Aug. 30, 2022, 9:06 a.m.
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| sanderlings | R Documentation |
Sanderling Moult Data
Description
This data set gives moult indices for 164 Sanderlings trapped on 11 days.
Usage
data(sanderlings)
Format
A data frame with 164 observations on the following 2 variables.
Daya numeric vector of day bird was measured, 1 = 1 July
MIndexa numeric vector of moult indices, 0 = bird has not started moult, 1 = bird has completed moult
Details
This data set gives moult indices for 164 Sanderlings trapped on 11 days in the southwestern Cape, South Africa, between October 1978 and April 1979. Day 1 = 1 July). Moult indices are a transformation of moult scores so that moult index increases linearly with time. See Underhill and Zucchini (1988) for details.
Source
Underhill and Zucchini (1998)
References
Underhill, L. G. and Zucchini, W. (1988) A model for avian primary moult. Ibis 130, 358–372.
Examples
data(sanderlings)
## fit model of type 1 to data
m1 <- moult(MIndex ~ Day, data = sanderlings, type = 1)
summary(m1)
## model of type 2 (default)
m2 <- moult(MIndex ~ Day, data = sanderlings)
summary(m2)
## model of type 3
m3 <- moult(MIndex ~ Day, data = sanderlings, type = 3)
summary(m3)
## find intercept and slope of mean moult trajectory line
uza <- - coef(m2, "mean") / coef(m2, "duration")
uzb <- 1 / coef(m2, "duration")
## extract how many birds observed on each of the days
nn <- as.numeric(table(sanderlings$Day))
## extract days of observations
day <- unique(sanderlings$Day)
## probabilities of moult stages
## Table 6 in Underhill and Zucchini 1988
p1 <- predict(m2, newdata = data.frame(day))
p1$M * nn
## Table 7 in Underhill and Zucchini 1988
days2 <- seq(70, 310, by = 10)
p2 <- predict(m2, newdata = data.frame(days2))
p2$M * 100
p3 <- predict(m3, newdata = data.frame(day))
p3
## Comparison with regression models
MInd <- sanderlings$MIndex[sanderlings$MIndex > 0 &
sanderlings$MIndex < 1]
MTime <- sanderlings$Day[sanderlings$MIndex > 0 &
sanderlings$MIndex < 1]
lm1 <- lm(MTime ~ MInd)
lm1.int <- coef(lm1)[1]
lm1.slope <- coef(lm1)[2]
lm2 <- lm(MInd ~ MTime)
## regression of Index on Time
plot(MTime, MInd, pch = 19, cex=0.7)
## regression of Time on Index: gives better estimates
## for mean start day and duration of moult
abline(lm2, col = "blue", lwd = 2)
abline(-lm1.int / lm1.slope, 1 / lm1.slope, col = "orange", lwd = 2)
abline(uza, uzb, col = "red", lty = 2, lwd = 2)
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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