欢迎访问林业科学,今天是

林业科学 ›› 2016, Vol. 52 ›› Issue (7): 38-45.doi: 10.11707/j.1001-7488.20160705

• 论文与研究报告 • 上一篇    下一篇

不同产脂量马尾松无性系木质部树脂道结构差异

魏永成1, 刘青华1, 周志春1, 丰忠平2   

  1. 1. 中国林业科学研究院亚热带林业研究所 富阳 311400;
    2. 浙江省淳安县姥山林场 淳安 311700
  • 收稿日期:2015-07-09 修回日期:2015-08-30 出版日期:2016-07-25 发布日期:2016-08-16
  • 通讯作者: 刘青华
  • 基金资助:
    “十二五”国家科技支撑课题(2012BAD01B02);国家自然科学基金项目(31100491);浙江省竹木农业新品种选育重大科技专项项目重点课题(2012C12908-12)。

Structural Differences of Xylem Resin Canals among Pinus massoniana Clones with Different Resin Yield

Wei Yongcheng1, Liu Qinghua1, Zhou Zhichun1, Feng Zhongping2   

  1. 1. Research Institute of Subtropical Forestry, CAF Fuyang 311400;
    2. Laoshan Forest Farm of Chun'an County, Zhejiang Province Chun'an 311700
  • Received:2015-07-09 Revised:2015-08-30 Online:2016-07-25 Published:2016-08-16

摘要: [目的] 研究不同产脂量马尾松无性系嫩枝、未创伤与创伤树干木质部树脂道结构的差异,为高产脂量无性系的早期选择提供理论依据。[方法] 以6个不同产脂量马尾松无性系为材料,采用石蜡切片技术,研究和比较其嫩茎、树干木质部树脂道结构和创伤后树脂道结构的差异性,并分析嫩茎、创伤与未创伤树脂道结构的相关性。[结果] 在当年生嫩茎中,高、低产脂量马尾松无性系之间单位面积内树脂道总面积、单个树脂道平均面积差异显著,高产脂量无性系单位面积内轴向树脂道总面积和单个轴向树脂道平均面积分别为63433 μm2·mm-2和4832 μm2,为低产脂量的2.69和3.03倍,同时高产脂量无性系单位面积内径向树脂道总面积和单个径向树脂道平均面积分别为42 105 μm2·mm-2和3858 μm2,为低产脂量的3.19和3.44倍,但高、低产脂量无性系单位面积树脂道数目差异不显著;未受创伤树干木质部中,高、低产脂量马尾松无性系之间的差异性与嫩茎中的相似,高产脂量无性系单位面积内轴向树脂道总面积和单个轴向树脂道平均面积分别为96 229 μm2·mm-2和17 656 μm2,比低产脂量的高12.15%和14.54%,同时高、低产脂量无性系单位面积树脂道数目差异也不显著;受到创伤树干木质部中,高产脂量无性系的单位面积内树脂道总面积和单位面积内树脂道数目分别为118 635 μm2·mm-2和7.8个,比低产脂量的分别高23.96%和27.87%,而创伤后高、低产脂量无性系之间单个树脂道平均面积差异不显著。未受到创伤时,树脂道主要集中于晚材或早晚材过渡区域中,高产脂量无性系晚材宽度平均值为312 μm,比低产脂量的高15.56%。受创伤影响,早材中出现诱导型树脂道,使木质部中单位面积内树脂道总面积和数目均增加,但高产脂量无性系中增幅比低产脂量的高,使高产脂量无性系在受到损伤时能够分泌并输送较多的松脂。嫩茎的单位面积树脂道总面积与未创伤树干木质部、损伤后树干木质部的相关性均达到显著程度,相关系数分别为0.533和0.444。[结论] 高、低产脂量马尾松无性系解剖结构中单位面积内树脂道总面积差异均显著,由嫩茎的解剖特征可以推测不同产脂量无性系树干木质部树脂道的差异性,使高产脂量马尾松无性系的早期选择成为可能。

关键词: 马尾松, 产脂量, 无性系, 木质部, 树脂道, 创伤, 解剖

Abstract: [Objective] Structural difference of resin canal in young stem, un-wounded and wounded trunks among Pinus massoniana clones with different resin yield were studied in order to provide theoretical basis for early selection of high resin yielding clones.[Method] Six clones of P. massoniana with different resin yield were measured using plant paraffin sections to compare differences of xylem anatomy between young stem and trunk and to investigate the structural changes due to wounding to the trunk. And correlations of resin canal structure among young stem, wounded and un-wounded trunks were analyzed.[Result] The total area of axial canals per unit area and the average area of individual axial canals in young stems were significantly different between high and low yielding clones. The total area of axial canals per unit area and the average area of individual axial canals of high yielding clone were 63 433 μm2·mm-2 and 4 832 μm2, 2.69 and 3.03 times greater than the low yielding one. The total area of radial canals per unit area and the average area of individual radial canals of high yielding clones were 42 105 μm2·mm-2 and 3 858 μm2, 3.19 and 3.44 times greater than the low yielding one. However, the difference of frequencies of axial canals was not significant between high and low yielding clones. Similar difference was found in un-wounded trunks. The total area of axial canals per unit area and the average area of individual axial canals of high yielding clone were 96 229 μm2·mm-2 and 17 656 μm2, 12.15% and 14.54% more than the low yielding one. And the difference of frequency of axial canals was not significant between high and low yielding clones. In the wounded xylem, the total area and number of axial canals per unit area (118 635 μm2·mm-2 and 7.9) of high yielding clone were 23.96% and 27.87% higher than those of the low yielding one. However, the difference of the average area of individual axial canals was not significant between the high and low yielding clones. In the un-wounded trunk, the resin canals are mainly distributed in latewood and transition area between early- and late-wood. And the average width of latewood in high yielding clones was 312 μm, 15.56% greater than that of the low yielding ones. Influenced by wounding, resin canals were induced in early wood, leading to increase of the total area and number of resin canals in the xylem. However, the increase was higher in the high-yielding clone than in the low-yielding clone, resulting in higher resin yield in the high-yielding clone when wounded. The total area of resin canals in young stem was significantly correlated to that in wounded and un-wounded trunks, with correlation coefficients of 0.533 and 0.444 respectively.[Conclusion] There was significant difference in total area of axial canals between high and low yielding clones. The difference of resin canals in trunk xylem could be predicted by the anatomic characteristics of young stems, indicating possibility of early selection of high resin yielding clones of P. massoniana.

Key words: Pinus massoniana, resin yield, clones, xylem, resin canal, wound, anatomy

中图分类号: