Imagen de Portada

The Estimation of Carbon Storage and Volume in Forest Stands: A Model Incorporating Species Composition and Site Quality

Guardado en:
Publicado en:Forests vol. 16, no. 4 (2025), p. 682
Autor principal: Hua Weiping
Otros Autores: Qiu Tian, Jiang Xidian, Pan Junzhong, Li Baoyin
Publicado:
MDPI AG
Materias:
Fujian China
China
Datasets
Logging
Forestry
Simplex method
Species composition
Plantations
Independent variables
Plant species
Forests
Carbon sequestration
Evolutionary algorithms
Accuracy
Forest management
Dominant species
Branches
Trees
Carbon
Composition
Estimation
Environmental
Acceso en línea:Citation/Abstract
Full Text + Graphics
Full Text - PDF
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
Resumen:We developed a model for estimating the carbon storage and volume of entire forest stands at the provincial level, aiming to improve the accuracy of regional productivity assessments. Based on data from the branches, roots, leaves, and trunks of eight dominant tree species (grouped by origin) in Fujian Province, combined with plot-level data, we developed a compatible carbon storage estimation model. This model integrates species composition coefficients and uses stand volume as the independent variable. We estimated the model parameters using a combination of the immune evolutionary algorithm and an improved simplex method, which enhances convergence speed and solution stability compared to the traditional version. The accuracy of the model was validated by cross-model validation and concurrent testing. Applying the model to forest stand data from Wuyishan City, we simulated theoretical logging volumes to demonstrate its practical utility. The results demonstrated that the model exhibited high accuracy in fitting the observed data, with reliable predictions of carbon storage and volume across different forest components. In the case study area, the volume was 21.0521 million cubic meters and the carbon storage was 7.3238 million tons, both of which increased with decreasing interval periods. When logging factors were considered, the increases in carbon storage fluctuated as the interval periods increased and were higher than those when logging factors were not considered. This study confirmed that the developed models were effective for predicting land carbon storage and volume, and the simulation method successfully overcame the challenges associated with model estimation.
ISSN:1999-4907
DOI:10.3390/f16040682
Fuente:Agriculture Science Database