土壤性质和微生物群落驱动不同坡位翠柏的异速生长模式

doi:10.1093/jpe/rtaf054

Journal of Plant Ecology ›› 2025, Vol. 18 ›› Issue (3): 1-17.DOI: 10.1093/jpe/rtaf054

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土壤性质和微生物群落驱动不同坡位翠柏的异速生长模式

收稿日期:2024-09-09 接受日期:2025-04-14 出版日期:2025-06-01 发布日期:2025-07-22

Slope position affects growth and allometry of Calocedrus macrolepis by mediating soil properties and microbial communities

Chengjie Gao¹, Zhongmu Li¹, Yong Chai², Jin Li¹ and Kai Cui^1,*

¹State Key Laboratory of Tree Genetics and Breeding, Institute of Highland Forest Science, Chinese Academy of Forestry, Kunming 650233, China
²Yunnan Academy of Forestry and Grassland, Kunming 650201, China

^*Corresponding author. E-mail: cuikai@caf.ac.cn

Received:2024-09-09 Accepted:2025-04-14 Online:2025-06-01 Published:2025-07-22
Supported by:
This work was supported by the Essential Scientific Research of Chinese National Nonprofit Institute (CAFYBB2021ZW003); National Natural Science Foundation of China (32022058); the Candidates of the Young and Middle-Aged Academic Leaders of Yunnan Province of China (202205AC160041); Yunnan Fundamental Research Projects (202201AT070258 and 202301AV070002) and Xingdian Talent Support Program (XDYC-QNRC-2022-0231).

摘要/Abstract

摘要： 植物不同器官之间的异速生长关系是影响树木适应性的重要机制，但坡位对树木生长以及不同器官之间异速生长模式的影响机制，仍缺乏系统认识。为此，本研究以中国西南地区8年生翠柏(Calocedrus macrolepis)人工林为对象，调查了其在不同坡位(上坡、中坡和下坡)的树高、胸径、冠幅、材积和枝下高等生长性状，同时分析了土壤养分和微生物群落等树木生长的潜在影响因素。结果表明，坡位显著改变了翠柏各生长性状之间的异速生长模式，下坡位具有更高的树高、胸径、材积与冠幅、枝下高异速生长指数，表现出更优的木材生长潜力。中坡和下坡土壤养分(氮、磷和速效钾)以及微生物多样性较高，尤其是放线菌门和绿弯菌门的相对丰度显著高于上坡位。进一步的分析发现，磷和钾是驱动下坡位异速生长关系增强的关键土壤因子。微生物功能群如内生菌根和外生菌根真菌，以及参与氮循环的细菌功能群(如氮呼吸和硝酸盐呼吸)与胸径、材积和冠幅的异速生长指数显著相关，表明其在树木结构性生长和冠层扩展中具有重要作用。这些发现说明，坡位导致的土壤养分和微生物群落变化对树木生长和碳在不同器官的分配具有重要调节作用，其中细菌群落的影响高于真菌。上述结果为西南山区人工林的种植场地选择和可持续管理提供了科学依据。

关键词: 异速生长, 翠柏(Calocedrus macrolepis), 微生物群落, 坡位, 土壤微生物功能群

Abstract: The allometric relationships between growth traits are critical to trees’ fitness, yet the mechanisms by which slope position affects tree growth and allometry remain poorly understood. This study examined growth traits and their allometric relationships in an 8-year-old Calocedrus macrolepis plantation in southwest China across three slope positions (upslope, mesoslope and downslope). The measured growth traits included tree height (H), diameter at breast height (D), crown size (Crown), wood volume (V) and height under branch (HUB). The study also explored spatial variations in soil properties and microbial communities. Results showed that slope position altered allometric growth pattern, with larger allometric exponents at downslope for H, D and V relative to Crown and HUB, suggesting improved wood growth. Soil nutrient levels (nitrogen, phosphorus and available potassium) and microbial diversity, particularly the relative abundance of bacterial phyla such as Actinobacteria and Chloroflexi, were greater at mesoslope and downslope. Our study identified phosphorus and potassium as key drivers of enhanced allometric relationships. Functional groups such as Endomycorrhizal and Ectomycorrhizal fungi, and functional groups involved in nitrogen cycling (Nitrogen respiration, Nitrate respiration), were strongly correlated with allometric exponents for D, V and Crown relative to HUB, suggesting their role in supporting structural growth and canopy expansion. These findings emphasize that variations in soil nutrients and microbial communities across slope positions regulate tree growth and allometry, with bacterial communities exerting a stronger influence than fungi. These insights contribute to sustainable forest management, particularly in optimizing planting site selection for improved tree growth in mountainous regions.

Key words: allometric growth, Calocedrus macrolepis, microbial communities, slope position, soil microbial functional groups

. 土壤性质和微生物群落驱动不同坡位翠柏的异速生长模式[J]. Journal of Plant Ecology, 2025, 18(3): 1-17.

Chengjie Gao, Zhongmu Li, Yong Chai, Jin Li, Kai Cui. Slope position affects growth and allometry of Calocedrus macrolepis by mediating soil properties and microbial communities[J]. J Plant Ecol, 2025, 18(3): 1-17.

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土壤性质和微生物群落驱动不同坡位翠柏的异速生长模式

Slope position affects growth and allometry of Calocedrus macrolepis by mediating soil properties and microbial communities

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