300, 600 and 900 ppm Increases in the Air's CO2 Concentration:
For a more detailed description of this table, click here.
Chenopodium album L. [Lambsquarters]
300 ppm
|
600 ppm
|
900 ppm
|
|
Number of Results |
20
|
|
|
Arithmetic Mean |
46%
|
|
|
Standard Error |
7.7%
|
|
|
Experimental Conditions
|
300 ppm
|
600 ppm
|
900 ppm
|
|
Borjigidai et al. (2009) |
Well watered and fertilized plants grown from seed on wet filter paper for five days and transplanted into pots placed within open-top chambers in the experimental garden of Tohoku University, Sendai, Japan, measured at 29 days after transplanting (DAT)
|
96%
|
|
|
Borjigidai et al. (2009) |
Well watered and fertilized plants grown from seed on wet filter paper for five days and transplanted into pots placed within open-top chambers in the experimental garden of Tohoku University, Sendai, Japan, measured at 41 days after transplanting (DAT)
|
69%
|
|
|
Borjigidai et al. (2009) |
Well watered and fertilized plants grown from seed on wet filter paper for five days and transplanted into pots placed within open-top chambers in the experimental garden of Tohoku University, Sendai, Japan, measured at 62 days after transplanting (DAT)
|
36%
|
|
|
Borjigidai et al. (2009) |
Well watered and fertilized plants grown from seed on wet filter paper for five days and transplanted into pots placed within open-top chambers in the experimental garden of Tohoku University, Sendai, Japan, measured at 81 days after transplanting (DAT)
|
49%
|
|
|
Hikosaka et al. (2003) |
Well-watered and fertilized plants grown from seed for 47 days in washed river sand in wooden boxes in open-top chambers in Sendai, Japan; 33 days after emergence
|
49%
|
|
|
Hikosaka et al. (2003) |
Well-watered and fertilized plants grown from seed for 47 days in washed river sand in wooden boxes in open-top chambers in Sendai, Japan; 47 days after emergence
|
34%
|
|
|
Hunt et al. (1991) |
pots (1 liter)
|
0%
|
|
|
Juknys et al. (2011) |
Aboveground biomass of plants grown from seed for 21 days after germination within controlled-environment chambers at a density of 25 plants per each of three 5-L pots per treatment filled with neutral (pH 6.0-6.5) peat substrate
|
6%
|
|
|
Lee (2011) |
Aboveground biomass of well watered and fertilized plants grown from seed to maturity in containers (60 cm long, 40 cm wide, 24 cm deep) filled with a 3:2:1 mix of sand:silt:clay plus leaf mold and vermiculite, which were placed within temperature gradient and CO2-temperature gradient chambers located out-of-doors at Tsukuba, Japan
|
92%
|
|
|
Lee (2011) |
Total biomass of well watered and fertilized plants grown from seed to maturity in temperature-gradient and CO2+temperature-gradient chambers at temperatures 4°C above ambient temperatures out-of-doors at the Terrestrial Environmental Research Center of the University of Tsukuba, Japan
|
77%
|
|
|
Lee (2011) |
Seed biomass of well watered and fertilized plants grown from seed to maturity in temperature-gradient and CO2+temperature-gradient chambers at temperatures 4°C above ambient temperatures out-of-doors at the Terrestrial Environmental Research Center of the University of Tsukuba, Japan
|
119%
|
|
|
Miyagi et al. (2007) |
Seed or grain yield biomass of well watered and fertilized plants grown from seed to maturity in 4-liter pots filled with sand out-of-doors in open-top chambers
|
77%
|
|
|
Miyagi et al. (2007) |
Whole plant biomass (at flowering) of well watered and fertilized plants grown from seed in 4-liter pots filled with sand out-of-doors in open-top chambers to the time of their natural death
|
17%
|
|
|
Miyagi et al. (2007) |
Whole plant biomass (at time of death) of well watered and fertilized plants grown from seed in 4-liter pots filled with sand out-of-doors in open-top chambers to the time of their natural death
|
57%
|
|
|
Nagashima et al. (2003) |
One growing season out-of-doors in open-top chambers at low soil nutrient regime
|
0%
|
|
|
Nagashima et al. (2003) |
One growing season out-of-doors in open-top chambers at high soil nutrient regime
|
41%
|
|
|
Sage et al. (1989) |
greenhouse
|
59%
|
|
|
Taylor and Potvin (1997) |
Plants grown for three months in open-top chambers
|
0%
|
|
|
Zangerl and Bazzaz (1984) |
pots (7 liters, 36 plants)
|
0%
|
|
|
Ziska et al. (1999) |
Plants grown to maturity in glasshouses
|
42%
|
|
|