# Seasonal Sheep Grazing Does Not Enhance Stable or Total Soil Carbon Stocks in a Long‐Term Calcareous Grassland Experiment

**Authors:** David Encarnation, Deborah Ashworth, Richard Bardgett, Mona Edwards, Clive Hambler, Jeppe Kristensen, Andrew Hector

PMC · DOI: 10.1002/ece3.71582 · 2025-06-30

## TL;DR

A 35-year study found that sheep grazing in UK grasslands did not increase stable soil carbon stocks, challenging the idea that grazing improves long-term carbon storage.

## Contribution

This study provides long-term empirical evidence that sheep grazing does not enhance mineral-associated soil carbon stocks in calcareous grasslands.

## Key findings

- Sheep grazing did not increase mineral-associated organic matter carbon stocks after 35 years.
- Grazing had no significant effect on overall soil carbon stocks.
- Higher C:N ratios in spring-grazed plots suggest possible rhizodeposition but lack direct evidence.

## Abstract

Soils hold a globally important carbon pool that is generally more persistent than the carbon stored in plant biomass. However, soil carbon is becoming increasingly vulnerable to environmental changes such as soil warming, fire, and erosion. Managing land to increase soil carbon sequestration and persistence may therefore improve long‐term soil carbon storage and contribute to climate change mitigation. It has been hypothesized that grazing by large herbivores may enhance the persistence of soil carbon by increasing the amount of soil organic matter forming more stable associations with mineral particles (mineral‐associated organic matter). We compared sheep‐grazed and ungrazed plots within the Gibson Grazing and Successional Experiment located in the Upper Seeds calcareous grassland in Wytham Woods, Oxfordshire, using organic matter fractionation to estimate the surface (0–5 cm) carbon stocks in the mineral‐associated and particulate organic matter fractions. Counter to expectations, after 35 years sheep grazing had not increased mineral‐associated organic matter carbon stocks relative to ungrazed plots. We hypothesize that this indicates the saturation of mineral surfaces in both grazed and ungrazed treatments and the inability of short‐duration mob‐grazing to increase soil fertility. Grazing also did not influence overall soil carbon stocks which, based on various assumptions, could be consistent with the concept of net carbon storage whereby soil carbon stocks are maintained despite reduced aboveground plant biomass inputs. The higher C:N ratio in the mineral‐associated organic carbon in the spring‐grazed plots suggests this could have resulted from increased rhizodeposition in response to grazing (although we have no direct evidence to support this). Overall, while our measurements suggest possible compensatory carbon inputs to offset losses due to sheep grazing, they demonstrate no increase of stable soil carbon over the 35‐year duration of the experiment.

This study investigates whether sheep grazing enhances soil carbon persistence by increasing mineral‐associated organic matter formation in a 35‐year experiment in a calcareous grassland in the UK. Contrary to predictions, grazing did not increase mineral‐associated carbon stocks, challenging the hypothesis that grazing improves long‐term soil carbon storage.

## Full-text entities

- **Chemicals:** N (MESH:D009584), organic carbon (-), C (MESH:D002244)
- **Species:** Ovis aries (domestic sheep, species) [taxon 9940]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12207319/full.md

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Source: https://tomesphere.com/paper/PMC12207319