| Range |
Table - link g C/tree
|
| Organism |
Pine Pinus halepensis |
| Reference |
Klein T, Hoch G. Tree carbon allocation dynamics determined using a carbon mass balance approach. New Phytol. 2014 Aug 26. doi: 10.1111/nph.12993. p.3 table 2PubMed ID25157793
|
| Primary Source |
[1] Grunzweig JM, Gelfand I, Yakir D. 2007. Biogeochemical factors contributing to enhanced carbon storage following afforestation of a semi-arid shrubland. Biogeosciences 4: 891–904. [2] Maseyk KS, Grunzweig JM, Rotenberg E, Yakir D. 2008a. Respiration acclimation contributes to high carbon-use efficiency in seasonally dry pine forest. Global Change Biology 14: 1–15. [2] Maseyk KS, Grunzweig JM, Rotenberg E, Yakir D. 2008. Respiration acclimation contributes to high carbon-use efficiency in seasonally dry pine forest. Global Change Biology 14: 1–15. [3] Chen WJ, Zhang QF, Cihlar J, Bauhus J, Price DT. 2004. Estimating fine-root biomass and production of boreal and cool temperate forests using aboveground measurements: a new approach. Plant and Soil 265: 31–46. |
| Method |
"To transform
all values into g C, the molar masses of C and CO2 were
applied (12 and 44 g/mol, respectively), and a molar mass of
30 g/mol was used as a general form of carbohydrate (CH2O).
Therefore, measurements of CO2 fluxes were multiplied by the
molar ratio 12/44, and dry biomass values were multiplied by the
molar ratio 12/30." |
| Comments |
"Compartment-specific C pools (Table 2) were calculated for
stem, branches and twigs, cones, foliage, and the belowground
stem-root transition section, using allometric equations based on
the harvest of 28 trees (primary source [1]) pools in coarse
and fine roots were calculated from (primary source [2]) and
(primary source [3]), respectively. Compound-specific C pools
were calculated for starch and soluble sugars in stem, foliage, and
roots by multiplying the concentration values (% dry biomass) by the calculated compartment-specific C pools." See notes beneath table |
| Entered by |
Uri M |
| ID |
110886 |