Light Conditions, Soil Moisture, and Vegetation Cover in Artificial Forest Gaps in Western Hungary

Q4 Agricultural and Biological Sciences Acta Silvatica et Lignaria Hungarica Pub Date : 2017-06-01 DOI:10.1515/aslh-2017-0002

T. Kollár

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引用次数: 8

Abstract

Abstract One of the greatest challenges of continuous cover forest management is to find a suitable gap size in a given forest stand that will help the regeneration of economically significant tree species, and possibly control competitor species. This paper summarizes the results of a two-year intensive mapping of various bearing artificial gaps at two sites in western Hungary: a sessile-oak-hornbeam and a Turkey oak forest. Light conditions and soil moisture were measured in the gaps as abiotic variables. Hemispherical photography and a Field Scout TDR 300 Soil Moisture Meter were used. Vegetation cover as well as quantity and height of the regeneration were measured as biotic variables. There are significant differences between the middle of a gap and the closed canopy forest stands. The maximum light intensity below the canopy shows a slight northward dislocation. Correlation analysis results showed that a gap’s slight, northward irradiation surplus effected soil moisture, regeneration heights, and total vegetation cover less than a gap’s real shape and size, ergo, its openness did.

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匈牙利西部人工林隙的光照条件、土壤湿度和植被覆盖

连续覆盖林管理的最大挑战之一是在给定林分中找到合适的林隙大小，以帮助有经济意义的树种更新，并可能控制竞争物种。本文总结了在匈牙利西部两个地点进行的为期两年的密集测绘的结果:一个无根橡树角梁和一个土耳其橡树林。光照条件和土壤湿度作为非生物变量在间隙中测量。采用半球面摄影和野外侦察兵TDR 300土壤湿度仪。植被覆盖度以及更新的数量和高度作为生物变量进行了测量。林隙中部与封闭林冠林分之间存在显著差异。冠层以下的最大光强呈轻微的向北错位。相关分析结果表明，林隙轻微的北向辐射余量对土壤水分、更新高度和植被覆盖总量的影响小于林隙的实际形状和大小，因此，林隙的开放程度对土壤水分、更新高度和植被覆盖总量的影响较小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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