# Allocation of Resources to Growth and Spore Production in a Fern Ophioglossum vulgatum L.: Effects of Mowing and Simulated Herbivory

**Authors:** Natalia Jędrzejczak, Paweł Olejniczak, Zbigniew Celka

PMC · DOI: 10.1002/ece3.71555 · Ecology and Evolution · 2025-06-13

## TL;DR

This study examines how a rare fern allocates resources between growth and spore production when subjected to mowing and simulated herbivory.

## Contribution

The study reveals that mowing affects spore production more than growth, offering new insights into fern resource allocation under disturbance.

## Key findings

- Mowing significantly reduced plant height and leaf area but only in unclipped plants.
- Reproductive traits were more sensitive to disturbance than vegetative growth.
- Clipping alone had no significant direct impact on measured traits.

## Abstract

Natural selection drives how organisms allocate resources among competing demands such as growth, reproduction, and survival. In ferns, where reproductive and vegetative organs share developmental pathways, these trade‐offs may be particularly strong under environmental disturbance. This study investigates how the rare fern 
Ophioglossum vulgatum
 allocates resources between vegetative growth and reproduction in response to vegetation removal (mowing) and simulated herbivory (clipping). A field experiment was conducted in wet meadow and peatland habitats in central Poland using a factorial design. Four treatments were applied: control, clipping, mowing, and clipping combined with mowing. Across 10 transects, 533 ramets were marked and monitored. Biometric measurements included leaf blade area, sporophore length, number of sporangia, and plant height. Data were analyzed using two‐way ANOVA with clipping and mowing as fixed factors. Key results: Mowing significantly reduced plant height and leaf blade area, but only in unclipped plants (significant clipping × mowing interaction). Clipping alone, simulating herbivory, had no significant direct impact on any of the measured traits, although its interaction with mowing revealed important effects. Control plots exhibited the greatest allocation to reproduction, with larger sporophores and more sporangia. All treatments reduced reproductive output compared to controls, while vegetative performance remained stable or increased. Ramet abundance increased across all treatments, suggesting resilience through clonal propagation. These findings suggest that 
O. vulgatum
 exhibits trait‐specific and context‐dependent responses to disturbance. Reproductive traits are more sensitive than vegetative growth, and their suppression under mowing may limit reproductive success in managed habitats. Conservation strategies should account for both short‐term physiological responses and long‐term demographic processes. Management practices, particularly mowing, should be carefully timed and scaled to avoid unintended negative effects on reproduction in rare ferns such as 
O. vulgatum
.

The study explores how the rare fern 
Ophioglossum vulgatum
 allocates resources between growth and reproduction under mowing and simulated herbivory. The results reveal that mowing promotes photosynthetic growth at the expense of spore production, while herbivory shows no significant impact, highlighting the fern's resilience. The findings underline the need for tailored conservation practices to balance growth and reproduction, ensuring the species persistence in its habitat.

## Linked entities

- **Species:** Ophioglossum vulgatum (taxon 49227)

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12166191/full.md

## References

44 references — full list in the complete paper: https://tomesphere.com/paper/PMC12166191/full.md

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Source: https://tomesphere.com/paper/PMC12166191