Arnulfo Aldrete scite author profile

RESUMENSe construyó un sistema de cubicación de árbol individual generado a partir de una función segmentada de ahusamiento para plantaciones de Tectona grandis establecidas en Campeche, Tabasco y Chiapas. Se cubicaron 144 árboles de diferentes edades; para cada uno se midió el diámetro con corteza y la altura sobre el fuste a 1 m después del tocón hasta la altura total. Se evaluó el ajuste estadístico de seis funciones segmentadas de ahusamiento y se seleccionó al modelo de Fang como el mejor por presentar la mayor precisión, el menor sesgo y por describir el ahusamiento del fuste correctamente. De forma simultánea se le hizo un ajuste con su respectiva función de volumen comercial basado en la técnica de modelo de efectos mixtos, con lo que se logró controlar la variación específica a nivel de árbol, mejorar la estimación de los parámetros y la precisión de las predicciones. Los resultados indican que el sistema de cubicación derivado se conforma de ecuaciones que describen con exactitud el perfil fustal y estiman el volumen comercial y total, así como la altura comercial a un diámetro mínimo y viceversa. Los puntos de cambio en la forma dendrométrica del fuste son similares a los de otras especies de árboles latifoliados. El equivalente al factor de forma que procede del modelo de volumen total fue de 0.43 en promedio y permite realizar estimaciones muy cercanas a los volúmenes observados; comparativamente es inferior al calculado para esta especie en otras regiones tropicales.Palabras clave: Altura comercial, diámetro mínimo, modelos segmentados de ahusamiento, Tectona grandis L. f., volumen total, volumen comercial. ABSTRACTA volume estimation system for individual trees was generated based on a segmented taper function for Tectona grandis plantations established in Campeche, Tabasco and Chiapas. The volume of 144 trees of different ages was estimated; for each, the diameter with bark was measured, as was the height above the stem base from 1 m above the stump to the total height. The statistical adjustment of six segmented taper functions was assessed, and the model of Fang was selected as the best, since it is the most accurate, the one with least bias and provides a correct description of the stem taper. An adjustment was simultaneously made with its respective merchantable volume function based on the mixed effect model technique, whereby the specific variation was controlled at tree level, and the estimation of the parameters and the accuracy of the predictions were improved. The results indicate that the derived volume estimation system consists of equations that accurately describe the stem profile and estimate the merchantable and total volumes, as well as the merchantable length at a minimum diameter and vice versa. The points of change in the dendrometric stem shape are similar to those of other broadleaf tree species. The equivalent of the shape factor from the total volume model was 0. 43 in average, which allows estimations that are very close to the observed volumes and is comparatively lower ...

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México—Addressing Challenges to Reforestation

Burney

Aldrete

Reyes³

et al. 2015

Journal of Forestry

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Modelos de biomasa aérea y foliar en una plantación de pino de rápido crecimiento en Oaxaca

Rodríguez-Ortiz

Santos-Posadas

González-Hernández

et al. 2016

MYB

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El vigor de un árbol se puede evaluar a partir del follaje, que si bien representa de 4% a 6% de la biomasa total del árbol, es el componente principal para los procesos fisiológicos. El objetivo de este estudio fue estimar la biomasa de acículas en ramas individuales y árbol completo, y ajustar modelos de partición de biomasa aérea en árboles plantados de Pinus patula Schl. et Cham. La biomasa de acículas por rama se estimó con un modelo lineal, que empleó área basal de rama viva, altura de rama y el seccionamiento de copa como variables independientes. La biomasa de los componentes aéreos se estimó con coeficientes de determinación de 0,86; 0,92 y 0,88; para madera con corteza, ramas y acículas, respectivamente. Para madera con corteza se utilizó el diámetro normal (DN) y altura de árbol (AT) en un modelo lineal; la biomasa de ramas y follaje con ecuaciones no lineales que se basaron en el diámetro de copa viva (DCV) y área de copa para ramas; y DCV y AT para la biomasa de follaje. La biomasa total aérea por árbol se estimó con un R2 = 0,87; utilizando DN y AT. La biomasa a una edad de 14 años se distribuyó en 92,9%; 4,7% y 2,4% para madera, ramas y follaje, respectivamente.

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Seedling cold hardiness, bud set, and bud break in nine provenances of Pinus greggii Engelm.

Aldrete

Mexal

Burr

2008

Forest Ecology and Management

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The High Cost of the Low-Cost Polybag System: A Review of Nursery Seedling Production Systems

Haase

Bouzza²,

Emerton³

et al. 2021

Land

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An important strategy for meeting global landscape restoration goals is nursery production of high-quality seedlings. Growing seedlings with attributes that promote post-planting survival and growth can be dramatically influenced by the nursery container system. In many countries, nurseries produce seedlings in polybags filled with excavated soil. These seedlings often develop deformed roots with limited fibrosity which can lead to poor survival and growth after outplanting. Polybags are initially inexpensive but using these single-use plastic containers accrues expenses that are often untracked. Comparisons among nursery production systems must account for factors such as container longevity, labor efficiency, and seedling field performance. A more holistic approach to account for environmental, economic, social, logistic, and cultural elements in the cost–benefit equation that influences nursery production systems is needed. Converting to a modern container system requires concomitant adjustments in nursery scheduling and culturing matched to the new stock type. Doing so provides an opportunity to align nursery production techniques and resulting seedling attributes with anticipated field conditions. This article describes and discusses the advantages and disadvantages of nursery production systems and provides recommendations and case studies to aid nurseries in improving seedling quality toward meeting restoration goals in a cost-effective and timely manner.

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Arnulfo Aldrete

SISTEMA DE CUBICACIÓN PARA ÁRBOLES INDIVIDUALES DE Tectona grandis L. f. MEDIANTE FUNCIONES COMPATIBLES DE AHUSAMIENTO-VOLUMEN

México—Addressing Challenges to Reforestation

Modelos de biomasa aérea y foliar en una plantación de pino de rápido crecimiento en Oaxaca

Seedling cold hardiness, bud set, and bud break in nine provenances of Pinus greggii Engelm.

The High Cost of the Low-Cost Polybag System: A Review of Nursery Seedling Production Systems

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