# Response of Bud Banks of a Freshwater Herbaceous Marsh Plant (Glyceria Spiculosa) to Heterogeneous Habitat: Field Observations and Experiment

**Authors:** Mengdie Zhou, Changwei Zhang, Xianglong Jin, Qiyao Zhang, Peng Zhang, Anni Bao, Yanjing Lou

PMC · DOI: 10.1002/ece3.71522 · 2025-06-17

## TL;DR

This study explores how a freshwater marsh plant adapts to changes in water and nitrogen levels by adjusting its bud bank composition.

## Contribution

The study introduces bud bank composition as a novel adaptive strategy for wetland plants under environmental changes.

## Key findings

- Rhizome internode buds dominate natural bud banks, while tiller buds increase under higher nitrogen.
- Ammonium nitrogen promotes higher bud density than nitrate nitrogen, regardless of flooding.
- Nitrogen levels have a stronger impact on bud banks than flooding duration.

## Abstract

Exploring plant adaptation strategies under habitat variations from the perspective of bud banks is essential for understanding vegetation regeneration under global changes. However, the response of wetland plant bud banks to combined water and nutrient fluctuations remains unclear. In this study, field surveys across three vegetation zones (wet meadow, tussock marsh, and marsh) and pot experiments with three flooding periods (no flooding, flooding for 1–5 weeks, and flooding for 6–10 weeks), four nitrogen levels (1, 10, 30, and 100 mg/L) and two nitrogen forms (ammonium and nitrate) of Glyceria spiculosa bud banks were conducted. Our results showed that rhizome internode buds (accounting for 91%) dominated the bud bank compared with rhizome apical and tiller buds in natural habitats, and bud density in marsh (2475.64 No./m2) was higher than that in tussock marsh (1225.33 No./m2) and wet meadow (1583.43 No./m2). In the pot experiment, the proportion of tiller buds exceeds that of rhizome internode buds. The densities of total buds and tiller buds increased with increasing nitrogen levels, and the effect of ammonium nitrogen is higher than that of nitrate nitrogen. Overall, the impact of nitrogen is greater than that of flooding. These findings reveal that adjusting bud bank composition and density is a core adaptive strategy of wetland clonal plants to adapt to changing environmental conditions. Meanwhile, management and regulation of nitrogen fertilizers (including nitrogen form and level) and flooding periods should be paid more attention to in wetland restoration to maintain bud bank‐mediated regeneration capacity of plant populations.

We illustrate the adaptation strategies of Glyceria spiculosa to water and nitrogen variations from a new perspective of bud banks. These findings reveal that adjusting bud bank composition, that is, prioritizing rhizome buds in flooding habitats and tiller buds under nitrogen enrichment, is a core adaptive strategy for clonal plants. The dominance of ammonium nitrogen in promoting bud proliferation underscores nutrient form as a critical driver of wetland resilience, offering novel insights for managing ecosystems under intensified nitrogen deposition and hydrological shifts. Specifically, conservation strategies should account for nitrogen form preferences in wetland restoration, while hydrological management must consider seasonal flooding patterns to maintain bud bank‐mediated regeneration capacity.

## Linked entities

- **Chemicals:** ammonium (PubChem CID 223), nitrate (PubChem CID 943), nitrogen (PubChem CID 947)
- **Species:** Glyceria spiculosa (taxon 1104335)

## Full-text entities

- **Chemicals:** nitrate (MESH:D009566), ammonium (MESH:D064751), ammonium nitrogen (-), nitrogen (MESH:D009584)
- **Species:** Glyceria spiculosa (species) [taxon 1104335]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12173836/full.md

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Source: https://tomesphere.com/paper/PMC12173836