The impact of biogas production on the organic carbon input to the soil of Dutch dairy farms: A substance flow analysis

The use of Dutch dairy manure for biogas production is expected to increase from 10% in 2020 to 60% in 2030. Traditionally, manure is returned to fields as a source of nutrients and organic carbon. Since a share of manure carbon is converted into biogas, this practice impacts the organic carbon inpu...

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Bibliographic Details
Published inJournal of industrial ecology Vol. 26; no. 2; pp. 491 - 508
Main Authors Hoang, Dieu Linh, Wiersema, Brienne, Moll, Henri C., Nonhebel, Sanderine
Format Journal Article
LanguageEnglish
Published New Haven Wiley Subscription Services, Inc 01.04.2022
Subjects
Agricultural production
agricultural residue
bioenergy
Biogas
Carbon
carbon management
Carbon sources
Crop production
Dairy farming
Dairy farms
dairy production
Dairy wastes
Farms
Grazing
Grazing lands
industrial ecology
Manures
Nutrients
Organic carbon
Organic soils
Production
Refuse as fuel
Regulation
Soils
substance flow analysis
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Summary:The use of Dutch dairy manure for biogas production is expected to increase from 10% in 2020 to 60% in 2030. Traditionally, manure is returned to fields as a source of nutrients and organic carbon. Since a share of manure carbon is converted into biogas, this practice impacts the organic carbon input to soil (OCIS) of the dairy farms. The magnitude of the impact depends on the magnitude of the other sources of organic carbon. This impact is not considered by current advocates for large‐scale use of dairy manure for biogas while understanding it is essential because of the risk of decreasing carbon soil input. Therefore, a study of carbon flows of dairy farms that eventually contribute to the OCIS is required. In this paper, we use substance flow analysis to quantify the carbon flows on different Dutch dairy farms and investigate the impact of using manure for biogas production to their OCIS (kgC/year/ha). The farms differ in farming practices such as whether cows are grazed outside or not. The results show that about 40% of OCIS of a Dutch dairy farm comes from manure and the rest comes from its crop production. The organic carbon from manure to the soil is also limited by the need to export manure due to the Dutch nutrient regulations. The overall reduction in OCIS caused by biogas production is 10%–20%. The impact is largest in farms with no grazing. These findings provide insights into the possible trade‐offs of using manure for biogas production.
Bibliography:Funding information
ADAPNER project—Adaptive Logistics in Circular Economy, under the sponsorship of NWO, Grant Number: 428‐15‐519 of TKI‐Logistiek.
Editor Managing Review: Ester van der Voet
ISSN:1088-1980
1530-9290
DOI:10.1111/jiec.13197