林下套种闽楠植株构型和生物量分配对林窗大小的响应OA
Response of plant architecture and biomass allocation of under-canopy Phoebe bournei to forest gap sizes
[目的]研究林窗大小对闽楠幼树植株构型和生物量分配的影响,为林下套种闽楠经营管理和林分结构优化提供理论依据.[方法]设置4 m×15 m(F1)、8 m×15 m(F2)、12 m×15 m(F3)3个林窗处理和不间伐8 m×15 m(CK),以不同林窗处理下套种闽楠5 a后的幼树为对象,通过测定分析植株生长、侧枝和根系的空间分布和生物量分配状况,探讨闽楠幼树树冠结构和生物量分配对林窗大小的表型响应.[结果]1)不同林窗处理均能显著促进闽楠幼树的树高和地径生长,且 F2 显著增加了冠幅.林窗大小和冠层(土层)位置对闽楠二级侧枝长和根尖数等少量表型性状指标存在显著交互作用,而单因素林窗或冠层(土层)对一级侧枝长等大量表型性状存在显著影响.2)与 CK 相比,F1 和 F2 与树冠上层少量枝系构型指标存在显著相关性,F3 显著增加上层树冠一级侧枝长、基径、分枝数和二级侧枝长、基径、分枝数.闽楠根尖数、根长度、根表面积和根体积在不同土层深度随着林窗面积的增加总体呈现先升高后降低的变化趋势,F2 处理效果最佳.不同林窗处理仅对树冠上层枝、叶生物量表现出显著差异,其中 F3 表现最优.3)同一林窗处理下,CK、F1 和 F2 树冠下层枝长和分枝角显著大于上层,而 F3 下层分枝数显著少于上层,CK 和 F1 下层枝、叶生物量显著大于上层.[结论]林窗处理均可有效促进闽楠幼树植株生长和上层树冠的枝系生长,其中 F2 显著促进树高、地径和冠幅,显著增加上层树冠一级二级侧枝长、二级侧枝基径和下层树冠二级侧枝分枝数,显著提升表层土壤根尖数和根长度,且树冠下层枝长和分枝角显著大于上层,对林分空间资源的利用更充分,树冠层次更丰富;F3 显著促进树高和地径生长,显著增加上层树冠一级二级侧枝长、基径、分枝数,显著促进上层树冠枝、叶生物量生长,且树冠上层分枝数显著多于下层,更偏向利用树冠上层的光照资源,树冠层次较单一.
[Objective]To investigate the influence of forest gap sizes on plant architecture and biomass allocation in young Phoebe bournei to provide a theoretical basis for under-canopy silviculture and stand structural optimization.[Method]Four treatments were established:4 m×15 m(F1),8 m×15 m(F2),12 m×15 m(F3),and an unthinned control(CK).The phenotypic responses of young P.bournei after five years of intercropping under different gap sizes were analyzed,focusing on plant growth,spatial distribution of lateral branches and roots,and biomass allocation.[Result]1)Different gap sizes significantly enhanced tree height and ground diameter,with F2 notably increasing crown width.A significant interaction was observed between gap size and crown position or soil depth for a few phenotypic traits(e.g.,level 2 lateral branch length and root tip number),while gap size,crown position,or soil depth individually influenced numerous traits(e.g.,level 1 lateral branch length);2)Compared to CK,F1 and F2 significantly improved a small number of branch configuration indicators in the upper crown,whereas F3 significantly increased length,base diameter,and number of level 1 and 2 lateral branches in the upper crown.Root tip number,length,surface area and volume generally exhibited first increasing and then decreasing to gap sizes across soil depth,peaking under F2.Branch and leaf biomass in the upper crown varied significantly among gap sizes,with F3 performing the best;3)Within the same treatment,lower canopy branches in CK,F1,and F2 had significantly greater length and angle than the upper canopy,whereas F3 displayed higher branch numbers in the upper canopy.Lower canopy branch and leaf biomass were significantly greater in CK and F1 than in the upper canopy.[Conclusion]Forest gap sizes effectively enhance plant growth and upper canopy branch development in young P.bournei.Among them,F2 significantly promotes height,ground diameter,crown width,length and base diameter of level 1 and 2 lateral branches in the upper canopy,level 2 lateral branch numbers in the lower canopy,root tip number and root length in the surface soil,as well as branch length and angle in the lower canopy significantly greater than those in the upper canopy,achieving more efficient utilization of forest spatial resources and enriching the hierarchy of tree crowns.F3 significantly increases height and ground diameter,enhances branch length,base diameter and number of level 1 and 2 lateral branches in the upper canopy,as well as branches and leaves biomass of the upper canopy,with significantly more branches in the upper than lower canopy,indicating a greater utilization of light resources in the upper canopy and a more uniform canopy structure.
王丽云;厉月桥;陈家堂;邓煌蔚;喻龙华;丁业新;宋连生;任春根
中国林业科学研究院亚热带林业实验中心 生物多样性保护与资源利用江西省重点实验室,江西 分宜 336600中国林业科学研究院亚热带林业实验中心 生物多样性保护与资源利用江西省重点实验室,江西 分宜 336600中国林业科学研究院亚热带林业实验中心 生物多样性保护与资源利用江西省重点实验室,江西 分宜 336600中国林业科学研究院亚热带林业实验中心 生物多样性保护与资源利用江西省重点实验室,江西 分宜 336600中国林业科学研究院亚热带林业实验中心 生物多样性保护与资源利用江西省重点实验室,江西 分宜 336600中国林业科学研究院亚热带林业实验中心 生物多样性保护与资源利用江西省重点实验室,江西 分宜 336600中国林业科学研究院亚热带林业实验中心 生物多样性保护与资源利用江西省重点实验室,江西 分宜 336600中国林业科学研究院亚热带林业实验中心 生物多样性保护与资源利用江西省重点实验室,江西 分宜 336600
农业科技
闽楠林窗大小侧枝构型根系构型生物量分配
Phoebe bourneiforest gap sizelateral branch configurationroot system configurationbiomass allocation
《中南林业科技大学学报》 2026 (4)
10-18,9
中央公益性科研院所基本科研业务费专项(CAFYBB2020MB004).
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