Biomass content and turnover rate were estimated for a lowland wet rain for
est in French Guiana. A regression model relating the biomass of a tree to
its dbh (diameter at breast height) was deduced from previously published d
ata. A power-law allometric relationship of the form AGTB = aD(b) was used
to estimate the tree biomass, AGTB (Mg ha(-1)), from its dbh D (cm). Using
direct measurements of tree biomass in the literature, the best-fit allomet
ric exponent b = 2.42 (SD = 0.02) was found. The logarithm of the coefficie
nt a was normally distributed with an average of -2.00 (SD = 0.27). This me
thod was applied to two permanent research stations of the lowland tropical
rain forest of French Guiana: the Nouragues and Piste de Saint-Elie. At th
e Nouragues, the biomass was estimated from trees 10 cm in dia meter on two
plots covering a total surface area of 22 ha and yielded an average biomas
s of 309 Mg ha(-1) (+/- 32 Mg ha(-1), 95% confidence interval). Spatial var
iability was also addressed at the Nouragues by estimating the biomass of t
rees greater than or equal to 30 cm dbh over a total surface area of 82 ha.
For the wet tropical forest vegetation type, an average of 284 Mg ha(-1) w
as obtained (spatial variability +/- 55 Mg ha(-1)). Biomass turnover was ev
aluated at Piste de Saint-Elie from two transects (0.78 and 1 ha) on which
all trees greater than or equal to 5 cm in diameter were recorded and mappe
d twice in 10 y. Transect 1 showed a slight increase in biomass, from 245 t
o 260 Mg ha(-1) (338 to 345 Mg ha(-1) for transect 2), corresponding to a n
et increase of 1.9 Mg ha(-1) y(-1) (0.7 Mg ha(-1) y(-1)), and the biomass i
ngrowth was 3.2 Mg ha(-1) y(-1) (2.8 Mg ha(-1) y(-1)). These figures are di
scussed in the light of the natural recruitment dynamics of tropical forest
s.