Improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of Thailand
Environmental pressures brought about by climate change have increased the urgency for biomass assessment to measure the potential of forests to be carbon sinks and carbon sources. The researcher suggests that improving the quality and precision of models used for measuring carbon stock in forest...
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th-mahidol.31792023-04-12T15:21:03Z Improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of Thailand Patthanan Porkar Wimon Sonchaem Raywadee Roachanakanan Rungjarat Hutacharoen Rungjarat Hutacharoen Mahidol University. Faculty of Environment and Natural Resource Studies Mixed-deciduous secondary forest Aboveground biomass Specific-species regression model Biomass equation Carbon sequestration Environment and Natural Resources Journal วารสารสิ่งแวดล้อมและทรัพยากรธรรมชาติ Open Access article Environmental pressures brought about by climate change have increased the urgency for biomass assessment to measure the potential of forests to be carbon sinks and carbon sources. The researcher suggests that improving the quality and precision of models used for measuring carbon stock in forests is thus important. This study aims to investigate the relationships between independent factors, such as dry weight biomass (B), and dependent factors, such as diameter at breast height (D), height (H), and wood specific gravity (ρ), to formulate biomass equations for four common tree species: Sterculia pexa; Millettia brandisiana; Grewia eriocarpa; and Bridelia ovata. Regression models, each with different independent variables (D, ρD, D2H, and ρD2H), were studied. The results showed a strong correlation between B, D, and H, but not ρ. However, ρ showed a significant variation between the four species which indicated that proper species identification is required for accurate modelling. The best regression models for estimating biomass had two forms: ln(B) = c + αln(D) and ln(B) = c + αln(ρD2H). The dry weight of individual trees using the regression model with ρD2H had an average estimated error of 0.09–2.66%. The dry weight using D had an average estimated error of 0.28– 1.77%. Thus, it was most appropriate to use ρD2H as the independent variable in the model. Furthermore, linear regression indicated a significant statistical difference between the four species. In conclusion, the researcher found that formulating species-specific regression models is essential in assessing biomass and carbon, particularly for the mixed-deciduous degraded forest areas in this study. 2017-11-17T03:33:54Z 2017-11-17T03:33:54Z 2017-11-17 2011-08 Research Article Environment and Natural Resources Journal. Vol.9, No.2 (2011), 39-47 https://repository.li.mahidol.ac.th/handle/123456789/3179 eng Mahidol University Faculty of Environment and Resource Studies. Mahidol University application/pdf |
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Thailand Thailand |
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Mixed-deciduous secondary forest Aboveground biomass Specific-species regression model Biomass equation Carbon sequestration Environment and Natural Resources Journal วารสารสิ่งแวดล้อมและทรัพยากรธรรมชาติ Open Access article |
| spellingShingle |
Mixed-deciduous secondary forest Aboveground biomass Specific-species regression model Biomass equation Carbon sequestration Environment and Natural Resources Journal วารสารสิ่งแวดล้อมและทรัพยากรธรรมชาติ Open Access article Patthanan Porkar Wimon Sonchaem Raywadee Roachanakanan Rungjarat Hutacharoen Improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of Thailand |
| description |
Environmental pressures brought about by climate change have increased the urgency for
biomass assessment to measure the potential of forests to be carbon sinks and carbon sources.
The researcher suggests that improving the quality and precision of models used for measuring
carbon stock in forests is thus important. This study aims to investigate the relationships
between independent factors, such as dry weight biomass (B), and dependent factors, such as
diameter at breast height (D), height (H), and wood specific gravity (ρ), to formulate biomass
equations for four common tree species: Sterculia pexa; Millettia brandisiana; Grewia
eriocarpa; and Bridelia ovata. Regression models, each with different independent variables (D,
ρD, D2H, and ρD2H), were studied. The results showed a strong correlation between B, D, and
H, but not ρ. However, ρ showed a significant variation between the four species which
indicated that proper species identification is required for accurate modelling. The best
regression models for estimating biomass had two forms: ln(B) = c + αln(D) and ln(B) = c +
αln(ρD2H).
The dry weight of individual trees using the regression model with ρD2H had an average
estimated error of 0.09–2.66%. The dry weight using D had an average estimated error of 0.28–
1.77%. Thus, it was most appropriate to use ρD2H as the independent variable in the model.
Furthermore, linear regression indicated a significant statistical difference between the four
species. In conclusion, the researcher found that formulating species-specific regression models
is essential in assessing biomass and carbon, particularly for the mixed-deciduous degraded
forest areas in this study. |
| author2 |
Rungjarat Hutacharoen |
| author_facet |
Rungjarat Hutacharoen Patthanan Porkar Wimon Sonchaem Raywadee Roachanakanan Rungjarat Hutacharoen |
| format |
Article |
| author |
Patthanan Porkar Wimon Sonchaem Raywadee Roachanakanan Rungjarat Hutacharoen |
| author_sort |
Patthanan Porkar |
| title |
Improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of Thailand |
| title_short |
Improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of Thailand |
| title_full |
Improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of Thailand |
| title_fullStr |
Improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of Thailand |
| title_full_unstemmed |
Improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of Thailand |
| title_sort |
improvement of the quality and precision of biomass and carbon equations: case study of mixed-deciduous degraded forest of thailand |
| publishDate |
2017 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/3179 |
| _version_ |
1781416116857339904 |