Litcius/Paper detail

Quantifying organic carbon storage in temperate pond sediments

Peter Gilbert, Scott Taylor, David Cooke, Michael E. Deary, Michael Jeffries

2020Journal of Environmental Management30 citationsDOIOpen Access PDF

Abstract

Ponds may hold significant stocks of organic carbon in their sediments and pond creation may offer a practical application for land managers to increase carbon storage. However, ponds are overlooked in global carbon budgets. Their potential significance is suggested by the abundance of ponds throughout terrestrial biomes and their high carbon burial rates, but we lack measures of sediment carbon stocks from typical ponds. We sampled sediment from lowland temperate ponds in north east England comparing carbon stocks from ponds categorised by surrounding land use, or dominant vegetation, or drying regime, along with measures of variation within ponds. Sediment carbon varied considerably between ponds. This variation was more important than any systematic variation between pond types grouped by land use, vegetation or drying, or any variation within an individual pond. Our estimates of pond sediment organic carbon give measures that are higher than from soils in widespread habitats such as temperate grassland and woodland, suggesting that ponds are significant for carbon budgets in their own right. Ponds are relatively easy to create, are ubiquitous throughout temperate biomes and can be fitted in amongst other land uses; our results show that pond creation would be a useful and practical application to boost carbon sequestration in temperate landscapes.

Topics & Concepts

Temperate climateBiomeEnvironmental scienceCarbon sequestrationSedimentVegetation (pathology)Total organic carbonBlue carbonGrasslandWoodlandCarbon cycleCarbon fibersEcologyHydrology (agriculture)EcosystemGeologyCarbon dioxideBiologyComposite numberPaleontologyComposite materialGeotechnical engineeringMaterials scienceMedicinePathologyCoastal wetland ecosystem dynamicsPeatlands and Wetlands EcologyGeology and Paleoclimatology Research