Longleaf Pine Root System Development and Seedling Quality in Response to Copper Root Pruning and Cavity Size

Southern Journal of Applied Forestry Pub Date : 2011-02-01 DOI:10.1093/SJAF/35.1.5

M. S. Sayer, S. S. Sung, J. Haywood

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引用次数: 17

Abstract

Cultural practices that modify root system structure in the plug of container-grown seedlings have the potential to improve root system function after planting. Our objective was to assess how copper root pruning affects the quality and root system development of longleaf pine seedlings grown in three cavity sizes in a greenhouse. Copper root pruning increased seedling size, the allocation of root system dry weight to the taproot, and the fraction of fibrous root mass allocated to secondary lateral roots compared with primary lateral roots. It decreased the allocation of root system dry weight to primary lateral roots and led to a distribution of root growth potential that more closely resembled the root growth of naturally sown seedlings. These effects of copper root pruning may benefit longleaf pine establishment. However, because copper root pruning increased competition for cavity growing space among the taproot and fibrous roots, we suggest that recommendations regarding cavity size and seedling quality parameters be tailored for copper-coated cavities.

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铜根修剪和空腔大小对长叶松根系发育和幼苗质量的影响

改变容器苗塞内根系结构的栽培方法有可能改善种植后的根系功能。我们的目的是评估铜根修剪如何影响长叶松幼苗的质量和根系发育在温室中生长的三种空腔大小。与初生侧根相比，铜根修剪增加了幼苗大小、根系干重分配给主根、纤维根质量分配给次生侧根的比例。它减少了根系干重分配给初生侧根，导致根系生长势的分布更接近于自然播种幼苗的根系生长。这些影响可能有利于长叶松的生长。然而，由于铜根修剪增加了主根和纤维根对空腔生长空间的竞争，我们建议在空腔大小和幼苗质量参数方面针对铜包覆空腔量身定制。

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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来源期刊

Southern Journal of Applied Forestry 农林科学-林学

自引率

0.00%

发文量

审稿时长

>36 weeks