Percent Dry Weight (Biomass) Increases for
300, 600 and 900 ppm Increases in the Air's CO2 Concentration:


For a more detailed description of this table, click here.

Cicer arietinum [Chickpea]


Statistics
 
300 ppm
600 ppm
900 ppm
 Number of Results
23
 
 
 Arithmetic Mean
45%
 
 
 Standard Error
3.3%
 
 

Individual Experiment Results

Journal References

Experimental Conditions
300 ppm
600 ppm
900 ppm

Chakrabarti et al. (2020)

Grain yield at harvest of plants grown under FACE conditions during the 2011-2012 growing season; cv BGD 72
40%

 

 

Chakrabarti et al. (2020)

Grain yield at harvest of plants grown under FACE conditions during the 2012-2013 growing season; cv BGD 72
41%

 

 

Jin et al. (2012)

Shoot biomass of well watered plants grown from seed and inoculated with rhizobium for nine weeks in vertisol soil columns supplied with 16 mg P/kg soil in a FACE study
61%

 

 

Jin et al. (2012)

Root biomass of well watered plants grown from seed and inoculated with rhizobium for nine weeks in vertisol soil columns supplied with 16 mg P/kg soil in a FACE study
42%

 

 

Jin et al. (2012)

Shoot biomass of well watered plants grown from seed inoculated with Rhizobium ciceri in a phosphorus-deficient vertisol in a column experiment conducted at a FACE facility in Horsham, Victoria (Australia) for a period of nine weeks without added phosphorus (P)
25%

 

 

Jin et al. (2012)

Root biomass of well watered plants grown from seed inoculated with Rhizobium ciceri in a phosphorus-deficient vertisol in a column experiment conducted at a FACE facility in Horsham, Victoria (Australia) for a period of nine weeks without added phosphorus (P)
23%

 

 

Jin et al. (2012)

Shoot biomass of well watered plants grown from seed and inoculated with rhizobium for nine weeks in vertisol soil columns supplied with 4 mg P/kg soil in a FACE study
18%

 

 

Jin et al. (2012)

Root biomass of well watered plants grown from seed and inoculated with rhizobium for nine weeks in vertisol soil columns supplied with 4 mg P/kg soil in a FACE study
32%

 

 

Jin et al. (2012)

Shoot biomass of well watered plants grown from seed and inoculated with rhizobium for nine weeks in vertisol soil columns supplied with 8 mg P/kg soil in a FACE study
45%

 

 

Jin et al. (2012)

Root biomass of well watered plants grown from seed and inoculated with rhizobium for nine weeks in vertisol soil columns supplied with 8 mg P/kg soil in a FACE study
51%

 

 

Jin et al. (2012)

Shoot biomass of well watered plants grown from seed and inoculated with rhizobium for nine weeks in vertisol soil columns supplied with 12 mg P/kg soil in a FACE study
54%

 

 

Jin et al. (2012)

Root biomass of well watered plants grown from seed and inoculated with rhizobium for nine weeks in vertisol soil columns supplied with 12 mg P/kg soil in a FACE study
46%

 

 

Lam et al. (2012)

Above-ground biomass of well watered plants grown from the seedling stage to maturity in pots filled with a local Vertisol of inherent low P status in naturally-lighted glasshouse chambers at Horsham, Victoria, Australia, without (-) phosphorus (P) supplied as 0 mg P/pot
62%

 

 

Lam et al. (2012)

Above-ground biomass of well watered plants grown from the seedling stage to maturity in pots filled with a local Vertisol of inherent low P status in naturally-lighted glasshouse chambers at Horsham, Victoria, Australia, with (+) phosphorus (P) supplied as 56.7 mg P/pot
56%

 

 

Lam et al. (2012)

Grain biomass of well watered plants grown from the seedling stage to maturity in pots filled with a local Vertisol of inherent low P status in naturally-lighted glasshouse chambers at Horsham, Victoria, Australia, without (-) phosphorus (P) supplied as 0 mg P/pot
30%

 

 

Lam et al. (2012)

Grain biomass of well watered plants grown from the seedling stage to maturity in pots filled with a local Vertisol of inherent low P status in naturally-lighted glasshouse chambers at Horsham, Victoria, Australia, with (+) phosphorus (P) supplied as 56.7 mg P/pot
68%

 

 

Lam et al. (2012)

Above-ground biomass of well watered plants grown from the seedling stage to maturity in pots filled with a local Calcarosol of relatively high P in naturally-lighted glasshouse chambers at Horsham, Victoria, Australia, without (-) phosphorus (P) supplied as 0 mg P/pot
46%

 

 

Lam et al. (2012)

Above-ground biomass of well watered plants grown from the seedling stage to maturity in pots filled with a local Calcarosol of relatively high P in naturally-lighted glasshouse chambers at Horsham, Victoria, Australia, with (+) phosphorus (P) supplied as 56.7 mg P/pot
26%

 

 

Saha et al. (2015)

Plants grown from seed out-of-doors in a non-calcareous sandy loam soil supplied with a basal dose of 20-40-60 kg/ha NPK -- where they were sustained through the growing season by profile-stored water with supplemental irrigations of 20 mm to avoid water stress -- within four open-top chambers, half of which were supplied with ambient air and half with extra CO2 between 6:00 and 18:00 hours of each day starting from crop emergence
42%

 

 

Singh et al. (2017)

Aboveground plant biomass at harvest of well-watered and fertilized plants (cv. Pusa 5023) grown outdoors under normal ozone concentrations (30 ppb) in a Free Air Ozone and Carbon Dioxide Enrichment (FAOCE) facility. CO2 enrichment started 40 days after sowing and was administered for 11 hours during the day.
33%

 

 

Singh et al. (2017)

Aboveground plant biomass at harvest of well-watered and fertilized plants (cv. Pusa 5023) grown outdoors under elevated ozone concentrations (70 ppb) in a Free Air Ozone and Carbon Dioxide Enrichment (FAOCE) facility. CO2 and ozone enrichment started 40 days after sowing and were administered for 11 hours during the day.
49%

 

 

Singh et al. (2017)

Seed yield of well-watered and fertilized plants (cv. Pusa 5023) grown outdoors under normal ozone concentrations (30 ppb) in a Free Air Ozone and Carbon Dioxide Enrichment (FAOCE) facility. CO2 enrichment started 40 days after sowing and was administered for 11 hours during the day.
64%

 

 

Singh et al. (2017)

Seed yield of well-watered and fertilized plants (cv. Pusa 5023) grown outdoors under elevated ozone concentrations (70 ppb) in a Free Air Ozone and Carbon Dioxide Enrichment (FAOCE) facility. CO2 and ozone enrichment started 40 days after sowing and were administered for 11 hours during the day.
82%

 

 

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