# The impact of land-use intensity on the community dynamics of colonial volvocine algae in the Yangtze River Basin

**Authors:** Yuxin Hu, Jiwei Zhang, JingJing Lin, Xiaolong Huang, Jie Huang

PMC · DOI: 10.1128/spectrum.02174-25 · Microbiology Spectrum · 2025-12-17

## TL;DR

This study shows how human land-use changes affect colonial volvocine algae in the Yangtze River Basin, altering their ecological niches and community dynamics.

## Contribution

The study quantifies how land-use intensity reshapes CVA ecological niches and community assembly processes in the Yangtze River Basin.

## Key findings

- Increased land-use intensity expands CVA ecological niche width and reduces competition, favoring larger-bodied species like Volvox carteri.
- Higher land-use intensity leads to community homogenization and reduced biodiversity in CVA assemblages.
- CVA community assembly shifts from stochastic processes to environmental filtering with increasing land-use intensity.

## Abstract

Colonial volvocine algae (CVA), which range from four-celled to complex multicellular forms, are vital for understanding life evolution. This study aims to quantify the impacts of human land-use intensity on CVA communities across the Yangtze River Basin and explore how anthropogenic changes drive CVA ecological niche dynamics and assembly processes. Findings reveal that increased land-use intensity reduces forest cover, expands construction land, and elevates water nutrients, thereby worsening water quality. This environmental shift provides elevated nutrient resources for CVA, expanding their ecological niche width (P < 0.01) and reducing competition (interspecific niche overlap network simplified), particularly benefiting larger-bodied colonial volvocine algae, such as Volvox carteri. However, morphological similarity among CVA species, such as Eudorina elegans and Colemanosphaera charkowiensis, results in niche overlap and intensified competition. Notably, CVA complexity does not substantially correlate with distribution patterns, indicating that factors other than basic morphological characteristics play a role in determining their ecological success. On the other hand, CVA community assembly in the Yangtze River Basin, analogous to eukaryote and prokaryote, was initially dominated by stochastic processes at low land-use intensities (β-NTI mostly ranges between −2 and 2). Increased intensity enhances environmental filtering, leading to community homogenization (β-diversity decreased from 0.9119 ± 0.2236 under low HAILS to 0.8974 ± 0.2332 under high HAILS, P < 0.001), which diminishes biodiversity, alters ecological processes, and reduces ecological stability, ultimately affecting ecosystem integrity and sustainability. This study highlights that land-use intensification-induced environmental changes restructure CVA community dynamics, niche relationships, and assembly processes. These findings provide critical insights for sustainable land management and freshwater biodiversity conservation.

This study underscores the importance of colonial volvocine algae as a model for understanding how human land-use intensification reshapes freshwater biodiversity, ecological niches, and community assembly, offering key insights for sustainable ecosystem management.

## Linked entities

- **Species:** Volvox carteri (taxon 3067), Eudorina elegans (taxon 47282), Colemanosphaera charkowiensis (taxon 51706)

## Full-text entities

- **Species:** Colemanosphaera charkowiensis (species) [taxon 51706], Homo sapiens (human, species) [taxon 9606], Cyanea sp. VA (species) [taxon 1308658], Eudorina elegans (species) [taxon 47282], Volvox carteri (species) [taxon 3067]

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC12889134/full.md

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12889134/full.md

## References

64 references — full list in the complete paper: https://tomesphere.com/paper/PMC12889134/full.md

---
Source: https://tomesphere.com/paper/PMC12889134