Biomass function for Acacia caven (Mol.) Mol. distributed in the dry land areas of south central Chile

Authors

  • Alejandro Lucero Ignamarca Instituto Forestal, Sede Biobío. Camino a Coronel Km 7.5, San Pedro de La Paz, Concepción. Código Postal 4030000 Concepción. Casilla 109-C. Concepción
  • Fernando Muñoz Sáez Universidad de Concepción. Facultad de Ciencias Forestales. Victoria # 631. Barrio Universitario. Concepción. C. P. 4070386. Concepción. Casilla 160-C Correo 3. Concepción
  • Jorge Cancino Cancino Cancino Universidad de Concepción. Facultad de Ciencias Forestales. Victoria # 631. Barrio Universitario. Concepción. C. P. 4070386. Concepción. Casilla 160-C Correo 3. Concepción
  • Alvaro Sotomayor Garreton Instituto Forestal, Sede Biobío. Camino a Coronel Km 7.5, San Pedro de La Paz, Concepción. Código Postal 4030000 Concepción. Casilla 109-C. Concepción
  • Francis Dube Universidad de Concepción. Facultad de Ciencias Forestales. Victoria # 631. Barrio Universitario. Concepción. C. P. 4070386. Concepción. Casilla 160-C Correo 3. Concepción
  • Arnoldo Villarroel Muñoz Instituto Forestal, Sede Biobío. Camino a Coronel Km 7.5, San Pedro de La Paz, Concepción. Código Postal 4030000 Concepción. Casilla 109-C. Concepción
  • Katia Sáez Carrillo Universidad de Concepción. Facultad de Ciencias Físicas y Matemáticas. Departamento de Estadísticas. Av. Esteban Iturra s/n. Concepción. C. P. 4030000. Concepción. Casilla 160-C Correo 3. Concepción

Keywords:

espino, steppe, semi-arid regions of Chile, silvopastoral systems

Abstract

Acacia caven is a key native species in the dry land region of south-central Chile. It is a species of high social and productive interest to landowners. Therefore, this study proposes a biomass function for A. caven, which involves incorporating predictor variables that are easily obtainable in the field and less complex than those used in already existing functions for the species. Due to the multi-purpose nature of the species and its potential for silvopastoral systems, these functions typify important planning tools to improve the management of this plant resource. To generate the biomass function, the methodology of destructive analysis of components was used on a total of 71 trees. These trees were selected, cut and weighed in the field to generate and test different models. Statistical analysis models were used and root collar diameter, diameter at breast height and total height served as predictor variables, resulting in a good adjustment of the models (R2 adjusted the 0.97 for stem-branches, 0.90 for stems and 0.96 for total biomass), with high correlations between estimated and real values. These functions may be used safely in plant formations of A. caven located in the same distribution area and within the range of the used variables. In the future, however, they require validation with new measurements in other sectors than the area considered to increase geographical representativeness.

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Published

01-12-2018

Issue

Vol. 50 No. 2 (2018): July-December

Section

Natural resources and environment

License

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