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根系结构特征分析。60 种植物的根系结构,在两个自然地点进行研究。

Seeking stable traits to characterize the root system architecture. Study on 60 species located at two sites in natura.

机构信息

INRA, Centre PACA, UR 1115 PSH, Domaine Saint-Paul, Site Agroparc, Avignon cedex 9, France.

INRA, Centre PACA, UR 1052 GAFL, Domaine Saint-Maurice, Montfavet cedex, France.

出版信息

Ann Bot. 2018 Jun 28;122(1):107-115. doi: 10.1093/aob/mcy061.

DOI:10.1093/aob/mcy061
PMID:29697745
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6025210/
Abstract

BACKGROUND AND AIMS

In several disciplines, identifying relevant root traits to characterize the root system architecture of species or genotypes is a crucial step. To address this question, we analysed the inter-specific variations of root architectural traits in two contrasting environments.

METHODS

We sampled 60 species in natura, at two sites, each presenting homogeneous soil conditions. We estimated for each species and site a set of five traits used for the modelling of the root system architecture: extreme tip diameters (Dmin and Dmax), relative diameter range (Drange), mean inter-branch distance (IBD) and dominance slope between the diameters of parent and lateral roots (DlDm).

KEY RESULTS

The five traits presented a highly significant species effect, explaining between 77 and 98 % of the total variation. Dmin, Dmax and Drange were particularly determined by the species, while DlDm and IBD exhibited a higher percentage of environmental variations. These traits make it possible to confirm two main axes of variation: 'fineness-density' (defined by Dmin and IBD) and 'dominance-heterorhizy' (DlDm and Drange), that together accounted for 84 % of the variations observed.

CONCLUSIONS

We confirmed the interest of these traits in the characterization of the root system architecture in ecology and genetics, and suggest using them to enrich the 'root economic spectrum'.

摘要

背景与目的

在多个学科领域中,确定相关的根系性状以描述物种或基因型的根系结构是至关重要的一步。为了解决这个问题,我们在两个不同的环境中分析了根系结构性状的种间变异。

方法

我们在两个位点采样了 60 种自然生长的物种,每个位点的土壤条件均相同。我们为每个物种和位点估计了一组用于根系结构建模的五个性状:极端根尖直径(Dmin 和 Dmax)、相对直径范围(Drange)、分支间平均距离(IBD)以及主根和侧根直径之间的优势斜率(DlDm)。

主要结果

这五个性状具有显著的种间效应,解释了总变异的 77%至 98%。Dmin、Dmax 和 Drange 主要由物种决定,而 DlDm 和 IBD 表现出更高的环境变异比例。这些性状可以确认两个主要的变异轴:“细度-密度”(由 Dmin 和 IBD 定义)和“优势-异生根”(DlDm 和 Drange),它们共同解释了观察到的 84%的变异。

结论

我们证实了这些性状在生态学和遗传学中用于描述根系结构的重要性,并建议将它们用于丰富“根系经济谱”。

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