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.

Quercus geminata [Sand Live Oak]


Statistics
 
300 ppm
600 ppm
900 ppm
 Number of Results
7
 
 
 Arithmetic Mean
9.7%
 
 
 Standard Error
4%
 
 

Individual Experiment Results

Journal References

Experimental Conditions
300 ppm
600 ppm
900 ppm

Dijkstra et al. (2002)

Four-year open-top chamber study of trees growing naturally out-of-doors and rooted in the ground; aboveground biomass after first year
25%

 

 

Dijkstra et al. (2002)

Four-year open-top chamber study of trees growing naturally out-of-doors and rooted in the ground; aboveground biomass after second year
4%

 

 

Dijkstra et al. (2002)

Four-year open-top chamber study of trees growing naturally out-of-doors and rooted in the ground; aboveground biomass after third year
5%

 

 

Dijkstra et al. (2002)

Four-year open-top chamber study of trees growing naturally out-of-doors and rooted in the ground; aboveground biomass after fourth year
21%

 

 

Johnson et al. (2003)

Fifth-year aboveground biomass from an open-top chamber study of vegetation growing naturally out-of-doors and rooted in the ground
-8%

 

 

Seiler et al. (2009)

Total aboveground biomass of trees grown with a mix of other oak and miscellaneous species for 11 years in a fire-regenerated Florida (USA) scrub-oak ecosystem, portions of which were enclosed within open-top chambers
5%

 

 

Stiling et al. (2013)

A 0.8-h scrub-oak/palmetto ecosystem dominated by myrtle oak, sand-live oak and Chapman oak at the Kennedy Space Center, Florida (USA), where fine root biomass was determined after a full decade of growth within ambient and open-top chambers
16%

 

 

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