TY - JOUR
T1 - Responses of model communities of two tropical tree species to elevated atmospheric CO2: Growth on unfertilized soil
AU - Winter, Klaus
AU - Garcia, M.
AU - Lovelock, Catherine E
AU - Gottsberger, R.
AU - Popp, Marianne
N1 - Affiliations: Smithsonian Tropical Res. Institute, P.O. Box 2072, Balboa, Panama
Source-File: ChemEcoScopus.csv
Import aus Scopus: 2-s2.0-0034482838
Importdatum: 04.01.2007 16:55:38
04.01.2008: Datenanforderung 2050 (Import Sachbearbeiter)
PY - 2005
Y1 - 2005
N2 - Biomass accumulation of model seedling communities of two tropical tree species was studied at ambient and elevated CO2 levels (four replicates per CO2 concentration), using open-top chambers situated in a cleared area at the edge of a tropical forest near Panama City, Republic of Panama. Each chamber (diameter about 2 m) contained a mixture of 18 plants of Ficus insipida, a fast-growing pioneer species, and 18 plants of Virola surinamensis, a slow-growing late-successional species. Plants grew in well-drained, well-watered, loose, unfertilized soil. During the 30 week experimental period, biomass accumulation by F. insipida, which increased in height from about 20 to 180 cm, predominated, whereas V. surinamensis grew only slowly in the strongly shaded understorey. Neither community biomass accumulation (above- plus belowground) nor the biomass ratio (F. insipida: V. surinamensis) of the two species was significantly affected by elevated CO2, although community biomass accumulation was on average slightly higher at elevated than at ambient CO2, and the biomass of F. insipida increased on average relative to V. surinamensis at elevated CO2. Plants grown at elevated CO2 contained greater levels of starch and lower levels of nitrogen per unit leaf dry mass, and, therefore, showed higher ratios of C:N than plants at ambient CO2. Specific leaf area, the area per unit leaf dry mass; and the leaf area ratio (LAR), the total leaf area per total plant dry mass, decreased in response to elevated CO2. This decrease in LAR counteracted the potential effect on biomass gain of increases in both net assimilation rate (the rate of dry mass accumulation per unit leaf area) and rates of photosynthetic leaf net CO2 uptake at elevated as compared to ambient CO2, particularly in Ficus insipida.
AB - Biomass accumulation of model seedling communities of two tropical tree species was studied at ambient and elevated CO2 levels (four replicates per CO2 concentration), using open-top chambers situated in a cleared area at the edge of a tropical forest near Panama City, Republic of Panama. Each chamber (diameter about 2 m) contained a mixture of 18 plants of Ficus insipida, a fast-growing pioneer species, and 18 plants of Virola surinamensis, a slow-growing late-successional species. Plants grew in well-drained, well-watered, loose, unfertilized soil. During the 30 week experimental period, biomass accumulation by F. insipida, which increased in height from about 20 to 180 cm, predominated, whereas V. surinamensis grew only slowly in the strongly shaded understorey. Neither community biomass accumulation (above- plus belowground) nor the biomass ratio (F. insipida: V. surinamensis) of the two species was significantly affected by elevated CO2, although community biomass accumulation was on average slightly higher at elevated than at ambient CO2, and the biomass of F. insipida increased on average relative to V. surinamensis at elevated CO2. Plants grown at elevated CO2 contained greater levels of starch and lower levels of nitrogen per unit leaf dry mass, and, therefore, showed higher ratios of C:N than plants at ambient CO2. Specific leaf area, the area per unit leaf dry mass; and the leaf area ratio (LAR), the total leaf area per total plant dry mass, decreased in response to elevated CO2. This decrease in LAR counteracted the potential effect on biomass gain of increases in both net assimilation rate (the rate of dry mass accumulation per unit leaf area) and rates of photosynthetic leaf net CO2 uptake at elevated as compared to ambient CO2, particularly in Ficus insipida.
M3 - Article
VL - 195
SP - 289
EP - 302
JO - Flora
JF - Flora
SN - 0367-2530
IS - 4
ER -