The importance of including wood , for big trees, such as Shorea superba and
Shorea sp The S. superba with a diameter of 170 cm has a TAGB dry
weight of 39.7 tons, whereas the other (Shorea sp.) with a diameter
of 200 cm has a lower dry weight of TAGB, that is 36 tons. It is likely
that the differences in wood density and tree architecture explain
the differences in the dry weight of these two species. Although S.
superba has smaller DBH and shorter CBH, it has higher wood
density compared to that of Shorea sp., resulting in the same dry
weight of commercial bole (27.8 tons). The characteristics of these
species show that their wood density, DBH and CBH are 0.86 g/cm3
,
170 cm and 26 m for S. superba, and for Shorea sp., they are 0. 57 g/
cm3
, 200 cm and 28 m, respectively. In this research, the genus of
Shorea consists of several big trees, however, adding wood density
to the model does not significantly influence b coefficient
The importance of including wood , for big trees, such as Shorea superba and
Shorea sp The S. superba with a diameter of 170 cm has a TAGB dry
weight of 39.7 tons, whereas the other (Shorea sp.) with a diameter
of 200 cm has a lower dry weight of TAGB, that is 36 tons. It is likely
that the differences in wood density and tree architecture explain
the differences in the dry weight of these two species. Although S.
superba has smaller DBH and shorter CBH, it has higher wood
density compared to that of Shorea sp., resulting in the same dry
weight of commercial bole (27.8 tons). The characteristics of these
species show that their wood density, DBH and CBH are 0.86 g/cm3
,
170 cm and 26 m for S. superba, and for Shorea sp., they are 0. 57 g/
cm3
, 200 cm and 28 m, respectively. In this research, the genus of
Shorea consists of several big trees, however, adding wood density
to the model does not significantly influence b coefficient
การแปล กรุณารอสักครู่..
The importance of including wood , for big trees, such as Shorea superba and
Shorea sp The S. superba with a diameter of 170 cm has a TAGB dry
weight of 39.7 tons, whereas the other (Shorea sp.) with a diameter
of 200 cm has a lower dry weight of TAGB, that is 36 tons. It is likely
that the differences in wood density and tree architecture explain
the differences in the dry weight of these two species. Although S.
superba has smaller DBH and shorter CBH, it has higher wood
density compared to that of Shorea sp., resulting in the same dry
weight of commercial bole (27.8 tons). The characteristics of these
species show that their wood density, DBH and CBH are 0.86 g/cm3
,
170 cm and 26 m for S. superba, and for Shorea sp., they are 0. 57 g/
cm3
, 200 cm and 28 m, respectively. In this research, the genus of
Shorea consists of several big trees, however, adding wood density
to the model does not significantly influence b coefficient
การแปล กรุณารอสักครู่..