dat.curtis1998: Studies on the Effects of Elevated CO2 Levels on Woody Plant...
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dat.curtis1998 R Documentation
Studies on the Effects of Elevated CO2 Levels on Woody Plant Mass
Description
Results from studies examining the effects of elevated CO2 levels on woody plant mass.
Usage
dat.curtis1998
Format
The data frame contains the following columns:
id numeric observation number
paper numeric paper number
genus character genus name
species character species name
fungrp character plant functional group
co2.ambi numeric ambient CO2 level (control group)
co2.elev numeric elevated CO2 level (treatment group)
units character units for CO2 exposure levels
time numeric maximum length of time (days) of CO2 exposure
pot character growing method (see ‘Details’)
method character CO2 exposure facility (see ‘Details’)
stock character planting stock code
xtrt character interacting treatment code (see ‘Details’)
level character interacting treatment level codes (see ‘Details’)
m1i numeric mean plant mass under elevated CO2 level (treatment group)
sd1i numeric standard deviation of plant mass underelevated CO2 level (treatment group)
n1i numeric number of observations under elevated CO2 level (treatment group)
m2i numeric mean plant mass under ambient CO2 level (control group)
sd2i numeric standard deviation of plant mass under ambient CO2 level (control group)
n2i numeric number of observations under ambient CO2 level (control group)
Details
The studies included in this dataset compared the total above- plus below-ground biomass (in grams) for plants that were either exposed to ambient (around 35 Pa) and elevated CO2 levels (around twice the ambient level). The co2.ambi and co2.elev variables indicate the CO2 levels in the control and treatment groups, respectively (with the units variable specifying the units for the CO2 exposure levels). Many of the studies also varied one or more additional environmental variables (defined by the xtrt and level variables):
NONE = no additional treatment factor
FERT = soil fertility (either a CONTROL, HIGH, or LOW level)
LIGHT = light treatment (always a LOW light level)
FERT+L = soil fertility and light (a LOW light and soil fertility level)
H2O = well watered vs drought (either a WW or DRT level)
TEMP = temperature treatment (either a HIGH or LOW level)
OZONE = ozone exposure (either a HIGH or LOW level)
UVB = ultraviolet-B radiation exposure (either a HIGH or LOW level)
In addition, the studies differed with respect to various design variables, including CO2 exposure duration (time), growing method (pot: number = pot size in liters; GRND = plants rooted in ground; HYDRO = solution or aeroponic culture), CO2 exposure facility (method: GC = growth chamber; GH = greenhouse; OTC = field-based open-top chamber), and planting stock (stock: SEED = plants started from seeds; SAP = plants started from cuttings). The goal of the meta-analysis was to examine the effects of elevated CO2 levels on plant physiology and growth and the interacting effects of the environmental (and design) variables.
Concepts
ecology, ratios of means
Author(s)
Wolfgang Viechtbauer, wvb@metafor-project.org, https://www.metafor-project.org
Source
Hedges, L. V., Gurevitch, J., & Curtis, P. S. (1999). The meta-analysis of response ratios in experimental ecology. Ecology, 80(4), 1150–1156. https://doi.org/10.1890/0012-9658(1999)080[1150:TMAORR]2.0.CO;2 (data obtained from Ecological Archives, E080-008-S1, at: https://esapubs.org/archive/ecol/E080/008/)
References
Curtis, P. S., & Wang, X. (1998). A meta-analysis of elevated CO2 effects on woody plant mass, form, and physiology. Oecologia, 113(3), 299–313. https://doi.org/10.1007/s004420050381
Examples
### copy data into 'dat' and examine data
dat <- dat.curtis1998
head(dat)
## Not run:
### load metafor package
library(metafor)
### calculate (log transformed) ratios of means and corresponding sampling variances
dat <- escalc(measure="ROM", m1i=m1i, sd1i=sd1i, n1i=n1i,
m2i=m2i, sd2i=sd2i, n2i=n2i, data=dat)
head(dat)
### meta-analysis using a random-effects model
res <- rma(yi, vi, method="DL", data=dat)
res
### average ratio of means with 95% CI
predict(res, transf=exp, digits=2)
### meta-analysis for plants grown under nutrient stress
res <- rma(yi, vi, method="DL", data=dat, subset=(xtrt=="FERT" & level=="LOW"))
predict(res, transf=exp, digits=2)
### meta-analysis for plants grown under low light conditions
res <- rma(yi, vi, method="DL", data=dat, subset=(xtrt=="LIGHT" & level=="LOW"))
predict(res, transf=exp, digits=2)
## End(Not run)
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| dat.curtis1998 | R Documentation |
Studies on the Effects of Elevated CO2 Levels on Woody Plant Mass
Description
Results from studies examining the effects of elevated CO2 levels on woody plant mass.
Usage
dat.curtis1998
Format
The data frame contains the following columns:
| id | numeric | observation number |
| paper | numeric | paper number |
| genus | character | genus name |
| species | character | species name |
| fungrp | character | plant functional group |
| co2.ambi | numeric | ambient CO2 level (control group) |
| co2.elev | numeric | elevated CO2 level (treatment group) |
| units | character | units for CO2 exposure levels |
| time | numeric | maximum length of time (days) of CO2 exposure |
| pot | character | growing method (see ‘Details’) |
| method | character | CO2 exposure facility (see ‘Details’) |
| stock | character | planting stock code |
| xtrt | character | interacting treatment code (see ‘Details’) |
| level | character | interacting treatment level codes (see ‘Details’) |
| m1i | numeric | mean plant mass under elevated CO2 level (treatment group) |
| sd1i | numeric | standard deviation of plant mass underelevated CO2 level (treatment group) |
| n1i | numeric | number of observations under elevated CO2 level (treatment group) |
| m2i | numeric | mean plant mass under ambient CO2 level (control group) |
| sd2i | numeric | standard deviation of plant mass under ambient CO2 level (control group) |
| n2i | numeric | number of observations under ambient CO2 level (control group) |
Details
The studies included in this dataset compared the total above- plus below-ground biomass (in grams) for plants that were either exposed to ambient (around 35 Pa) and elevated CO2 levels (around twice the ambient level). The co2.ambi and co2.elev variables indicate the CO2 levels in the control and treatment groups, respectively (with the units variable specifying the units for the CO2 exposure levels). Many of the studies also varied one or more additional environmental variables (defined by the xtrt and level variables):
NONE = no additional treatment factor
FERT = soil fertility (either a
CONTROL,HIGH, orLOWlevel)LIGHT = light treatment (always a
LOWlight level)FERT+L = soil fertility and light (a
LOWlight and soil fertility level)H2O = well watered vs drought (either a
WWorDRTlevel)TEMP = temperature treatment (either a
HIGHorLOWlevel)OZONE = ozone exposure (either a
HIGHorLOWlevel)UVB = ultraviolet-B radiation exposure (either a
HIGHorLOWlevel)
In addition, the studies differed with respect to various design variables, including CO2 exposure duration (time), growing method (pot: number = pot size in liters; GRND = plants rooted in ground; HYDRO = solution or aeroponic culture), CO2 exposure facility (method: GC = growth chamber; GH = greenhouse; OTC = field-based open-top chamber), and planting stock (stock: SEED = plants started from seeds; SAP = plants started from cuttings). The goal of the meta-analysis was to examine the effects of elevated CO2 levels on plant physiology and growth and the interacting effects of the environmental (and design) variables.
Concepts
ecology, ratios of means
Author(s)
Wolfgang Viechtbauer, wvb@metafor-project.org, https://www.metafor-project.org
Source
Hedges, L. V., Gurevitch, J., & Curtis, P. S. (1999). The meta-analysis of response ratios in experimental ecology. Ecology, 80(4), 1150–1156. https://doi.org/10.1890/0012-9658(1999)080[1150:TMAORR]2.0.CO;2 (data obtained from Ecological Archives, E080-008-S1, at: https://esapubs.org/archive/ecol/E080/008/)
References
Curtis, P. S., & Wang, X. (1998). A meta-analysis of elevated CO2 effects on woody plant mass, form, and physiology. Oecologia, 113(3), 299–313. https://doi.org/10.1007/s004420050381
Examples
### copy data into 'dat' and examine data
dat <- dat.curtis1998
head(dat)
## Not run:
### load metafor package
library(metafor)
### calculate (log transformed) ratios of means and corresponding sampling variances
dat <- escalc(measure="ROM", m1i=m1i, sd1i=sd1i, n1i=n1i,
m2i=m2i, sd2i=sd2i, n2i=n2i, data=dat)
head(dat)
### meta-analysis using a random-effects model
res <- rma(yi, vi, method="DL", data=dat)
res
### average ratio of means with 95% CI
predict(res, transf=exp, digits=2)
### meta-analysis for plants grown under nutrient stress
res <- rma(yi, vi, method="DL", data=dat, subset=(xtrt=="FERT" & level=="LOW"))
predict(res, transf=exp, digits=2)
### meta-analysis for plants grown under low light conditions
res <- rma(yi, vi, method="DL", data=dat, subset=(xtrt=="LIGHT" & level=="LOW"))
predict(res, transf=exp, digits=2)
## End(Not run)
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