墨西哥杜兰戈沙夫纳合欢林分的空间勘探、树木特征及木材产量预测模型

Pub Date : 2021-12-30 DOI:10.2478/foecol-2022-0008
Luis Manuel Valenzuela Núñez, A. R. M. Sifuentes, José Antonio Hernández Herrera, C. G. de la Peña, Edwin Amir Briceño Contreras, J. R. Saucedo, Enrique Melo Guerrero
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引用次数: 0

摘要

摘要植被退化是一个影响结构和功能特征的过程的结果。Acacia属的树种对半干旱地区的生态系统非常重要,因为它们参与了高度退化地区的恢复。其中一个最重要的物种是沙氏A.schafneri。林分的地位取决于其结构,包括高度、地层和密度。遥感是一种有价值的方法,用于估计森林种群在既定时期内的体积存量和相关变化。本研究的目的是利用遥感技术估计沙氏A.schafneri的木材体积,并用基于森林测量的估计方法获得的结果来补充这一信息。结果表明,树冠面积是一个可以用于木材体积预测模型的树状变量。在树状测量变量和遥感之间的探索性分析中,在所分析的四个站点中观察到低和负相关性。由于人为活动,存在着保护问题,其中最突出的是密集放牧,这导致沙氏Acacia schafneri的自然再生能力下降。
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Spatial exploration, dendrometric characteristics and prediction models of wood production in a stand of Acacia schaffneri in Durango, Mexico
Abstract Degraded vegetation is the result of a process that affects structural and functional characteristics. Tree species from the Acacia genus are very important to the ecosystem in semi-arid lands due to their participation in the recovery of highly degraded areas. One of the most important species among this genus is A. schaffneri. The status of a forest stand is determined according to its structure, including height, stratum and density. Remote sensing is a valuable method for estimating volumetric stocks and associated changes in forest populations over established periods of time. The objective of this research was to estimate wood volume of A. schaffneri using remote sensing, and to complement that information with the results obtained from an estimation method based on forest measurements. The results obtained showed that the crown area was the dendrometric variable that can be used in a wood volume prediction model. In the exploratory analysis between dendrometric variables and remote sensing showed low and negative associations were observed in the four stations analyzed. There are conservation problems due to anthropogenic activities, among which stands out the intensive grazing that results in a decrease of the natural regeneration capacity of Acacia schaffneri.
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