植物生态学报 ›› 2010, Vol. 34 ›› Issue (9): 1066-1074.DOI: 10.3773/j.issn.1005-264x.2010.09.007

• 研究论文 • 上一篇    下一篇

樟子松人工林细根寿命估计及影响因子研究

邱俊, 谷加存*(), 姜红英, 王政权   

  1. 东北林业大学林学院, 哈尔滨 150040
  • 收稿日期:2010-03-08 接受日期:2010-04-20 出版日期:2010-03-08 发布日期:2010-10-08
  • 通讯作者: 谷加存
  • 作者简介:* E-mail: gjchun001@163.com

Factors influencing fine root longevity of plantation-grown Pinus sylvestris var. mongolica

QIU Jun, GU Jia-Cun*(), JIANG Hong-Ying, WANG Zheng-Quan   

  1. School of Forestry, Northeast Forestry University, Harbin 150040, China
  • Received:2010-03-08 Accepted:2010-04-20 Online:2010-03-08 Published:2010-10-08
  • Contact: GU Jia-Cun

摘要:

细根寿命的估计是了解细根生产和死亡的关键, 对了解陆地生态系统碳分配格局和养分循环具有重要意义。该研究采用微根管(minirhizotron)技术, 以23年生樟子松(Pinus sylvestris var. mongolica)人工林为研究对象, 对细根生长和死亡过程进行了连续两年的观测。细根寿命的估计采用Kaplan-Meier方法, 计算细根的平均寿命(mean longevity)、中值寿命(median longevity)和累积存活率(cumulative survival rate), 用对数秩检验(log-rank test)比较单一因素, 包括细根直径、根序、出生季节和土层以及菌根侵染对细根寿命的影响。采用Cox比例风险回归分析方法, 同时分析上述因素对细根存活的影响程度。结果表明, 樟子松细根的生产和死亡具有明显的季节性, 春末和夏季(6月和7月)为生产高峰; 而死亡高峰出现在夏末至秋末, 以及冬季。樟子松细根的平均和中值寿命分别为(322 ± 10)天和(310 ± 15)天, 对数秩检验表明, 仅考虑单一因子时, 细根直径、根序、出生季节和土层以及菌根侵染均对细根寿命有显著影响。Cox回归分析表明, 菌根侵染、细根直径和土层是影响樟子松细根寿命的重要因子。细根直径每增加1 mm, 细根死亡危险率就降低99%, 即相当于寿命延长99%; 细根出生土层每增加1 cm, 其寿命延长5%; 而菌根侵染后, 会导致细根死亡危险率增加175%; 但根序和出生季节的影响不显著。这些发现证实: 林木细根寿命受到内在与外在因素的共同控制, 而多变量回归分析的方法有助于我们全面揭示细根寿命变异的潜在机制。

关键词: Cox比例风险回归, 细根寿命, 细根生产, 细根死亡, 微根管, 樟子松

Abstract:

Aims Fine root longevity plays a key role in the processes of root production and mortality and is important to precisely estimate carbon and nutrient cycling in terrestrial ecosystems. However, few studies have simultaneously examined the influence of multiple factors on fine root longevity. Our objectives were to examine: 1) seasonal patterns of fine root length production and mortality in plantation-grown Pinus sylvestris var. mongolica, 2) effects of fine root diameter, order, season of fine root birth, soil depth and mycorrhizal colonization on fine root longevity, and 3) relative strength of the influences of these factors on fine root survivorship.

Methods Minirhizotrons were used to estimate fine root length production, mortality and longevity. In July 2007, three 20 m × 30 m plots were established in a P. sylvestris plantation, and six minirhizotron tubes (90 cm length, 5.5 cm inside diameter) were installed randomly throughout the plot. Video images were collected at approximately four-week intervals during the growing season from 5 May 2008 to 22 October 2009. Video images were digitized via RooTracker software (NC, USA). Kaplan-Meier method in survival analysis was used to estimate mean longevity, median longevity and cumulative survival rate. The effects on root longevity by single factors, including root diameter, order, season of root birth, soil depth and mycorrhizal colonization, were tested by Log-rank test. The relative strength of the influences of these factors on fine root survivorship was examined by Cox proportional hazards regression analysis.

Important findings Fine root length production and mortality exhibited strong seasonal patterns, in which production peaked in spring and summer and mortality peaked in late summer, autumn and winter. Mean and median fine root longevity were (322 ± 10) d and (310 ± 15) d, respectively. Log-rank test indicated that fine-root longevity was significantly affected by root diameter, order, season of birth, soil depth and mycorrhizal colonization. Cox proportional hazards regression suggested that mycorrhizal colonization, root diameter and soil depth significantly influenced fine root survivorship, controlling for other factors (covariates). The risk of fine root mortality decreased 99% with a 1 mm diameter increase, and fine root longevity increased 5% with a 1 cm increase in soil depth. However, the risk of mortality of mycorrhizal roots was 175% higher than for non-mycorrhizal roots. Root order and season of root birth had no significant effects on fine root longevity. Our findings highlight that fine root longevity is influenced by endogenous and exogenous factors simultaneously, and multi-covariate analysis is an efficient way to reveal variation of fine root longevity.

Key words: Cox proportional hazards regression, fine root longevity, fine root production, fine root mortality, minirhizotron, Pinus sylvestris var. mongolica