# Divergent Nutrient Resorption Strategies in C4 Desert Shrubs: Stoichiometric Evidence From Assimilative Branches

**Authors:** Su‐Su Wei, Yuan‐Yuan Zhang, Xin‐Yue Jin, Yue Zhang, Xiao‐Bing Zhou, Gang Huang, Ye Tao

PMC · DOI: 10.1002/ece3.72853 · Ecology and Evolution · 2026-01-12

## TL;DR

This study examines how three desert shrub species from the Calligonum genus differ in their nutrient resorption strategies, revealing adaptive mechanisms in arid environments.

## Contribution

The study identifies distinct nutrient resorption strategies among three Calligonum species and their relationships with environmental and internal factors.

## Key findings

- Calligonum species show divergent nutrient resorption efficiencies for nitrogen, phosphorus, and potassium.
- Nutrient resorption efficiencies are closely linked to internal nutrient status and environmental conditions.
- Species-specific responses to environmental factors influence nutrient resorption patterns.

## Abstract

Calligonum species are widely distributed across the arid desert belt stretching from North Africa to Central Asia. Their leaves are nearly fully degraded, and photosynthetic activity is predominantly undertaken by assimilative branches (ABs). Remarkably, Calligonum represents the only known lineage within the family Polygonaceae to exhibit the C4 photosynthetic pathway. To date, on the regional scale, the nutrient resorption patterns of ABs of different Calligonum species are still unclear. We investigated three representative species from distinct taxonomic sections native to the Junggar Desert of northwestern China: 
C. mongolicum
 (CM; Sect. Medusa), 
C. leucocladum
 (CL; Sect. Pterococcus), and 
C. junceum
 (CJ; Sect. Calliphysa). Green ABs and AB litters were collected during the summer and autumn, respectively, to assess interspecific differences in nitrogen (N), phosphorus (P), and potassium (K) resorption efficiencies (NRE, PRE, and KRE, respectively), and explore their stoichiometric relationships, variation patterns, and the environmental influences. Across all species, the nutrient resorption efficiencies (NuREs) followed the order: KRE (65.03% ± 0.57%) > PRE (53.57% ± 0.48%) > NRE (23.36% ± 0.70%). Among the three taxa, CM exhibited the highest NRE (29.20% ± 1.24%) and PRE (62.44% ± 0.45%), whereas KRE was lowest in CJ (57.41% ± 1.41%). All three species exhibited a scaling relationship between NRE and PRE with slope > 2, indicating that N was resorbed more rapidly than P. The scaling relationship of PRE–KRE showed considerable interspecific variation, with CJ exhibiting a negative slope (−0.492). NuREs were positively correlated with nutrient concentrations in summer green ABs but negatively correlated with those in AB litters. Within species, the three NuREs generally exhibited similar patterns of variation across geographic, climatic, and edaphic gradients, yet marked interspecific differences persisted. Soil and climatic conditions were identified as the primary environmental determinants of NuRE variability, although species‐specific responses indicated that different nutrient elements were affected by distinct interactions among environmental factors. In summary, the three Calligonum species demonstrated differentiated nutrient resorption strategies, closely tied to both their internal nutrient status and environmental contexts. These findings provide valuable insights into nutrient use strategies and adaptive mechanisms in Calligonum and other assimilative‐branch shrubs inhabiting arid ecosystems.

We assessed interspecific differences in nutrient resorption efficiencies (N, P, K) of assimilative branches in three Calligonum species from the Junggar Desert. The results revealed distinct nutrient resorption strategies and scaling relationships among species, closely linked to both internal nutrient status and environmental factors. These findings highlight adaptive mechanisms of Calligonum in arid ecosystems.

## Linked entities

- **Species:** Calligonum mongolicum (taxon 661978), Calligonum leucocladum (taxon 1202986), Calligonum junceum (taxon 467327), Mus musculus (taxon 10090)

## Full-text entities

- **Chemicals:** K (MESH:D011188), N (MESH:D009584), P (MESH:D010758)
- **Species:** Calligonum (genus) [taxon 467325], Petrachloros mirabilis (species) [taxon 2918835], Chiropterotriton sp. J (species) [taxon 269208]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12793778/full.md

## References

62 references — full list in the complete paper: https://tomesphere.com/paper/PMC12793778/full.md

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Source: https://tomesphere.com/paper/PMC12793778