元宝毛竹的秆形特征

doi:10.11707/j.1001-7488.LYKX20220403

摘要/Abstract

摘要：

目的: 为数量化地分析元宝毛竹的秆形特征、为其后继的科学研究和开发利用提供依据。方法: 建立元宝毛竹的节间长度、节间歪斜长度、节间直径、节间凹陷深度、节间扁圆指数等性状特征的测量分析方法，并以栽培于浙江省杭州市富阳区黄公望森林公园的元宝毛竹试验林群体为材料，对其秆形特征进行了测量和分析。结果: 元宝毛竹在节位数1~30的范围内，平均节间长度随着节位数的增加而增大，至第30节达11.06 cm，为同等节位数毛竹节间长的36.87%。相邻的节间交替歪斜，同一节间的长度于不同方向存在变化，以具分枝两侧的节间长度交替最大或最小，而分枝侧垂直方向的节间长度变化幅度较小且均接近平均值。秆基部和上部的节间其歪斜长度较小，秆中部第9~14节的歪斜长度均较大。在节位数1~30的范围内，平均节间直径随着节位数的增加而减小。节间通常双面凹陷，凹陷深度的变化表现为秆基部较小、然后逐渐增大，至秆中部的第10~23节最大，第23~30节又逐步减小；具体表现在秆基部的第1~2节于具分枝的两侧略微凹陷，第2~3节之间有一处不凹陷，随后凹陷方向发生旋转，即第3~30节于具分枝的垂直侧方向上凹陷、且以第10~23节为甚。除基部第1~2节外，第3~30节的节间下部凹陷，故上部粗于下部。秆呈扁圆形，第1~2节近圆形，于具分枝两侧的垂直方向上略微扁圆，且节间上部的扁圆指数略大于节间下部；在第2~3节之间扁圆方向发生一次旋转；第3~30节于具分枝的两侧方向上扁圆，且节间上部的扁圆指数均小于节间下部。秆的扁圆指数在第3~15呈逐渐增大趋势，第15~23节扁圆指数均较大，第23节~30节的扁圆指数又逐渐减小，至第30节接近圆形。拓印图和摄影照片均显示显示元宝毛竹的节呈波状。结论: 本文建立了具有节间歪斜且凹陷、秆扁圆形等特异性状的元宝毛竹秆型测量和分析方法，弥补了已有方法仅适于圆筒形秆型的不足。通过该方法首次获得了元宝毛竹详细准确的秆型特征的数量化信息，为其深入开展科学研究和开发利用提供了依据，也为其他特异秆型竹子的研究提供参考。

关键词: 元宝毛竹, 秆形特征, 数量化分析, 节间长度, 节间直径, 扁圆形

Abstract:

Objective: This study aims to establish a quantitative analysis method for the culm form characteristics of Phyllostachys edulis ‘Yuanbao’, and provide a basis for its further study and development and utilization. Method: In this study, a set of approaches was established to quantitatively measure and analyze the internodal length, internodal skew length, internodal diameter, internodal concave depth and internodal oblate index of Ph. edulis ‘Yuanbao’, and the stem shape characteristics of the experimental forest population of Ph. edulis ‘Yuanbao’ planted in Huanggongwang Forestry Garden in Fuyang District, Hangzhou, Zhejiang were tested with these approaches. Result: The results showed that in the range of internodal numbers from 1^st to 30^th, the average internodal length of Ph. edulis ‘Yuanbao increased along with the internodal number, reaching 11.06 cm at the 30^th internode, which amounted to 36.87% of Ph. edulis at the same internodal number. The adjacent internodes alternately skewed to each other in its culms, namely, the length of the same internode varied at different directions, and the internodal length at the two branching sites were the longest or the shortest alternately, while the internodal length on its vertical sites of the branching site changed subtly and was close to the average. Internodal skew length at the base and upper part of culms was shorter, while the skew length of the 9^th to 14^th internodes in the middle of the culm was longer. The average internodal diameter decreased along with the increase in the internodal numbers from 1^st to 30^th. The internodes were usually concave on both sides, the concave depth was lower at the base part, and gradually increased along with the internodal number, reaching the deepest at 10^th to 23^rd internode, and then gradually declined along with the internodal number ascending. In other words, the 1^st to 2^nd internodes concaved slightly at the both branching-sides, and there was no concave on internode between the 2^nd and 3^rd internodes. Subsequently, the concave directions rotated after this site, and the subsequent internodes concaved at the directions vertical to branching site, namely, the 3^rd to 30^th internodes concaved at the sides vertical to branching site, with the deepest depth in internodes from the 10^th to 23^rd. Except 1^st and 2^nd internodes, the upper half of each internode had a wider diameter than the lower half of each internode for 3^rd to 30^th because their lower parts were concaved. The culms were oblate, and the 1^st and 2^nd internodes were near round with subtly oblate at direction vertical to branching site, and the oblate index in upper half was larger than that in lower half of each internode. The oblate direction rotated at a site between 2^nd and 3^rd internodes, and the 3^rd to 30^th internodes were oblate at branching direction with oblate index in upper half smaller than lower half in each internode. The culm’s oblate index enhanced gradually from 3^rd to 15^th internodes, reaching greatest at 15^th to 23^rd internodes, and declined gradually from 23^rd to 30^th internodes, reaching nearly round at the 30^th internode. Rubbing and photo profiles showed waving nodes in the culms. Conclusion: In this paper, a protocol has been established for the measurement and analysis of the skewed and concaved internodes, and oblate culms in Ph. edulis ‘Yuanbao’, which could promote the development of bamboo culm form research, and make up for the shortcomings of the previous method that can only be used for round culm. Detailed and accurate quantitative information of the culm form characteristics of Ph. edulis ‘Yuanbao’ is obtained through this protocol, providing a basis for its further scientific research and development and utilization, as well as a reference for the study of other distinctive bamboos.

Key words: Phyllostachys edulis ‘Yuanbao’, culm form characteristics, quantitative analysis, internodal length, internodal diameter, oblate culms

中图分类号:

S763.7

袁金玲,岳晋军,马婧瑕,于磊,刘蕾. 元宝毛竹的秆形特征[J]. 林业科学, 2023, 59(5): 71-80.

Jinling Yuan,Jinjun Yue,Jingxia Ma,Lei Yu,Lei Liu. Culm Form Characteristics of Phyllostachys edulis ‘Yuanbao’[J]. Scientia Silvae Sinicae, 2023, 59(5): 71-80.

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