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间伐对油松人工林优势种群结构与分布格局的影响

段梦成1,2,王国梁1,2*,史君怡1,周昊翔1   

  1. (1西北农林科技大学水土保持研究所, 陕西杨凌 712100;2中国科学院大学, 北京 100049)
  • 出版日期:2019-01-10 发布日期:2019-01-10

Effects of thinning on structure and spatial pattern of dominant populations in Pinus tabulifomisplantations.

DUAN Meng-cheng1,2, WANG Guo-liang1,2*, SHI Jun-yi1, ZHOU Hao-xiang1   

  1. (1Institute of Soil and water conservation, Northwest A&F University, Yangling 712100, China; 2University of Chinese Academy of Sciences, Beijing 100049, China).
  • Online:2019-01-10 Published:2019-01-10

摘要: 以陕西省黄龙山林区经中度和强度间伐(30%和45%)12年后的油松人工林为研究对象,以未伐林地为对照,对不同间伐强度下群落中建群种油松(Pinus tabuliformis)和辽东栎(Quercus liaotungensis)的结构、空间分布格局及辽东栎更新进行了分析。结果表明:间伐促使油松径阶曲线由正偏向负偏转变,中度间伐和强度间伐下大径级(DBH≥20 cm)林木所占比例要高于对照,同时,中度和强度间伐显著增加了林下结构多样性,分别是对照的1.34和1.52倍;中度和强度间伐下油松种群分别在小尺度上(0~4.5 m,0.5~4 m)呈均匀分布,但对照林地在2~4 m呈聚集分布,所有处理在稍大尺度上均呈随机分布;在0~10 m尺度上,间伐累积生物量与对照之间并无差异,中度间伐在15~25 m尺度上显著提高累积生物量,其累积生物量在25 m尺度上较对照增加了29.55%,而强度间伐在25 m尺度上累积生物量较对照增加了8.35%;强度间伐下的油松和辽东栎成年树在整个空间尺度上无关联,且强度间伐下辽东栎幼苗幼树龄级呈现倒“J”增长型,表明强度间伐有加速针叶人工林向针阔混交林过渡的趋势。总之,间伐能优化人工林结构,改变生物量分布格局,影响群落的演替方向,为人工生态林的定向培育提供了方法和理论支持。

关键词: 芦苇, 天津厚蟹, 食源, 食性, 黄河三角洲, 稳定同位素

Abstract: We assessed the effects of moderate and heavy thinning intensities (30% and 45%) after 12 years on the structure, spatial distribution, and seedling regeneration of dominant canopy species, Pinus tabuliformisand Quercus liaotungensis, inP. tabulifomis plantations in the Huanglong Mountain, Shaanxi Province, northwest China. The thinning promoted a shift in curve ofdiameter class from positive distribution to negative one. The proportion of trees with large diameter (DBH≥20 cm) under moderate and heavy thinning intensities was higher than that under the control (nonthinning plots). Moderate and heavy thinning intensities significantly increased understory structure diversity. The diversity indices in the moderate and heavy thinning plots were 1.34 and 1.52 times as higher as those in the control, respectively. The populations of P. tabuliformiswere evenly distributed at the small scale (0-4.5, 0.5-4 m) under moderate and heavy thinning, but were aggregated at 2-4 m under the control, and were randomly distributed for all treatments at large scale. At 0-10 m scale, there was no difference in cumulative biomass between thinning treatment and control. Moderate thinning significantly increased the cumulative biomass at the scale of 15-25 m, with an increase of 29.55% at 25 m scale compared with the control. Heavy thinning increased the cumulative biomass at 25 m scale by 8.35%. There was no correlation between mature trees of P. tabuliformis and Q. liaotungensis at the entire spatial scale under heavy thinning. The age class of seedlings and saplings ofQ. liaotungensshowed an inverted “J” growth type under heavy thinning, suggesting that such an intensity would accelerate the transition from coniferous plantation to coniferous-broadleaved forest. In conclusion, thinning can optimize the structure of plantations, change the distribution pattern of biomass, and affect the succession of the community, which provides methodological and theoretical support for the directional cultivation of ecological plantations.

Key words: stable isotope, Phragmites australis, feeding habit, Helice tientsinensis, Yellow River Delta, food source