Abstract
Root hypodermis passage cells (PCs) lack suberin and lignin deposition, responsible for nutrient absorption and arbuscular mycorrhizal colonization, which are crucial for root resource acquisition. Nevertheless, their quantitative variability across diverse woody species and their relationships with root morphology and anatomy, as well as arbuscular mycorrhizal colonization, are still not well understood. Herein, the number and proportion of PCs in the root cross-section, root morphology, anatomy, and arbuscular mycorrhizal colonization rate were quantified across 10 temperate and 12 tropical woody species. The objectives of this study were to determine how PCs vary across contrasting environmental conditions and to explore their relationships with arbuscular mycorrhizal colonization rate and other root functional traits. The results showed that tropical species possessed 56% more PCs than temperate species; by contrast, they had similar proportions of PCs. In both biomes, the number of PCs had a tightly positive correlation with arbuscular mycorrhizal colonization rate (R2 = 0.35–0.87), root diameter (R2 = 0.84–0.93), and cortex thickness (R2 = 0.87–0.89), but the proportion of PCs was mostly independent of root morphological and anatomical traits. Our results suggest that variation in passage cells could well explain the tight linkage between arbuscular mycorrhizal colonization and root diameter across species and biomes, which provides insight into the collaboration gradient between plant roots and mycorrhizal fungi that dominates the root economics space.
Highlights
IntroductionMost plant roots do not work alone; they build mutualistic associations with mycorrhizal fungi on their root system [1,2]
Inconsistent with previous results reported in Xu et al [21], our results showed that it was PCN, rather than PCP, that positively correlated with arbuscular mycorrhizal (AM) colonization rate, root diameter, and cortex thickness; PCP was relatively independent of other traits
Fungi and higher mycorrhizal colonization rate would enhance the absorptive capacity of fine roots in temperate forests. In both tropical and temperate forests, it was the number of passage cells, rather than the proportion, that positively related to mycorrhizal colonization rate, root diameter, and cortex thickness
Summary
Most plant roots do not work alone; they build mutualistic associations with mycorrhizal fungi on their root system [1,2]. Fine roots colonized by mycorrhizal fungi are enhanced in their capacity for resource acquisition [3,4,5], affecting plant and ecosystem function [6,7]. The intrinsic mechanistic understanding of how mycorrhizal colonization rate and root traits could be related is not root and mycorrhizal fungi [3,4,8,9,10,11]. The intrinsic mechanistic unde ing of how mycorrhizal colonization rate and root traits could be related is not full
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