# Comparative analysis of morphological traits and photosynthetic parameters as well as carbon accumulation characteristics of six typical shrub species in the Qilian Mountains

**Authors:** Rong Zhou, Na Wei, Yaoyao Shangguan, Hu Zhao, Bin Chen, Yin Miao, Hongmei Liu, Xiaobin Xie, Gang Chen, Jingzhong Zhao, Dong Lv

PMC · DOI: 10.3389/fpls.2025.1729429 · 2026-01-22

## TL;DR

This study compares six shrub species in the Qilian Mountains to understand how their shape, photosynthesis, and carbon storage differ, helping guide ecological restoration in arid regions.

## Contribution

The study introduces a framework linking shrub morphology, photosynthesis, and carbon accumulation to reveal scale-decoupling and inform ecological restoration strategies.

## Key findings

- C. arborescens had the tallest height and highest whole-plant carbon storage, but not the highest leaf-level assimilation efficiency.
- L. rupicola showed high leaf-level carbon assimilation but moderate whole-plant storage.
- Six shrubs were classified into three strategic types based on biomass allocation and carbon storage patterns.

## Abstract

Shrubs are key components of arid ecosystems, and their functional traits directly influence ecological adaptability and productivity. Current research pays insufficient attention to the synergistic relationship between the overall morphological structure and leaf physiological functions of shrubs. This study focused on six typical shrub species in the arid zone of the Qilian Mountains, aiming to analyze interspecific differences in functional strategies from a “morphology–photosynthesis” synergy perspective.

We selected six typical shrub species (e.g., Cotoneaster multiflorus, Prunus pedunculata, Caragana arborescens, and Lonicera rupicola) and comprehensively measured their morphological traits (plant height, basal diameter, root length, biomass allocation, etc.) and photosynthetic physiological parameters (net photosynthetic rate, transpiration rate, stomatal conductance, etc.).

The results showed that: (1) Morphologically, C. arborescens exhibited significantly greater plant height (205.17 cm) and whole-plant dry weight (303.03 g), while L. rupicola had deeper root systems (>40 cm); (2) Photosynthetically, the diurnal net photosynthetic rate displayed unimodal and bimodal patterns, primarily driven by photosynthetically active radiation, with L. rupicola and C. arborescens showing the highest estimated daily leaf-level carbon assimilation potential (6.93 and 5.86 g·m⁻²·d⁻¹, respectively); (3) A “scale decoupling” existed between whole-plant carbon storage capacity and leaf-level carbon assimilation potential: C. arborescens had the highest whole-plant carbon storage (120.86 g/plant) but not the highest per-unit-leaf-area assimilation efficiency, whereas L. rupicola exhibited high leaf-level efficiency but moderate whole-plant storage; (4) The six shrubs were classified into three strategic types based on biomass allocation and carbon storage: C. arborescens as “high-accumulation, stem-dominated”; C. multiflorus, Lonicera ferdinandi, P. pedunculata, L. rupicola as “balanced investment”; Euonymus phellomanus as “conservative, belowground-investment”.

By integrating leaf-scale carbon assimilation potential estimates with whole-plant carbon storage measurements, this study systematically revealed the scale-decoupling phenomenon and established a more rigorous framework for assessing shrub carbon sinks. The findings demonstrate significant diversity in the synergistic differentiation of morphological and photosynthetic traits as well as carbon accumulation strategies among arid-zone shrubs. Vegetation restoration should select corresponding functional species based on objectives such as rapid carbon accumulation or stress adaptation, providing theoretical support and practical guidance for ecological restoration and carbon sink enhancement in arid regions.

## Linked entities

- **Species:** Cotoneaster multiflorus (taxon 690326), Prunus pedunculata (taxon 983195), Caragana arborescens (taxon 20484), Lonicera rupicola (taxon 447673), Lonicera ferdinandi (taxon 447669), Euonymus phellomanus (taxon 1089404)

## Full-text entities

- **Chemicals:** carbon (MESH:D002244)
- **Species:** Prunus pedunculata (species) [taxon 983195], Caragana arborescens (Siberian peashrub, species) [taxon 20484], Cotoneaster multiflorus (species) [taxon 690326], Lonicera rupicola (species) [taxon 447673], C. arborescens [taxon 328051]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12872797/full.md

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Source: https://tomesphere.com/paper/PMC12872797