Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production

Thomas Prade; Sven-Erik Svensson; Lovisa Björnsson

Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production

Thomas Prade, Sven-Erik Svensson, Lovisa Björnsson

Environmental and Energy Systems Studies

Swedish University of Agricultural Sciences

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

Abstract

Changes of soil organic carbon (SOC) ontent can have a substantial effect on greenhouse gas emissions, but are rarely included in crop
production LCAs. SOC content strongly influences soil fertility and therefore crop yields, but is declining in many European soils. The present study investigated if integration of 1-2 years of grass-clover crops in a cereal-dominated crop rotation can increase the SOC pool and how this would impact food production. Results show that when grass-clover crops are integrated, the potential SOC content at steady state will be 41 to 52% higher than in the conventional cereal-dominated crop rotation. The net increase of wheat yields based on SOC improvements indicate that for a crop rotation with one year of grass-clover crops, the initial loss of food production can be counterbalanced due to the impact on fertility of the SOC increase.

Original language	English
Title of host publication	Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector
Editors	R Schenck, D Huizenga
Place of Publication	San Francisco, USA
Publisher	American Centre for Life Cycle Assessment
Pages	1032-1040
Number of pages	9
ISBN (Electronic)	978-0-9882145-7-6
Publication status	Published - 2014

Subject classification (UKÄ)

Environmental Sciences
Environmental Biotechnology
Agricultural Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Impact of biogas crop production on greenhouse gas emissions, soil organic matter and food crop production–A case study on farm level
Björnsson, L. (Project coordinator), Prade, T. (PI), Lantz, M. (PI), Börjesson, P. (PI) & Svensson, S.-E. (PI)
Swedish Energy Agency
2012/09/01 → 2013/12/31
Project: Research

Cite this

Prade, T., Svensson, S.-E., & Björnsson, L. (2014). Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production. In R. Schenck, & D. Huizenga (Eds.), Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector (pp. 1032-1040). American Centre for Life Cycle Assessment.

Prade, Thomas ; Svensson, Sven-Erik ; Björnsson, Lovisa. / Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production. Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector. editor / R Schenck ; D Huizenga. San Francisco, USA : American Centre for Life Cycle Assessment, 2014. pp. 1032-1040

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title = "Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production",

abstract = "Changes of soil organic carbon (SOC) ontent can have a substantial effect on greenhouse gas emissions, but are rarely included in cropproduction LCAs. SOC content strongly influences soil fertility and therefore crop yields, but is declining in many European soils. The present study investigated if integration of 1-2 years of grass-clover crops in a cereal-dominated crop rotation can increase the SOC pool and how this would impact food production. Results show that when grass-clover crops are integrated, the potential SOC content at steady state will be 41 to 52% higher than in the conventional cereal-dominated crop rotation. The net increase of wheat yields based on SOC improvements indicate that for a crop rotation with one year of grass-clover crops, the initial loss of food production can be counterbalanced due to the impact on fertility of the SOC increase.",

author = "Thomas Prade and Sven-Erik Svensson and Lovisa Bj{\"o}rnsson",

year = "2014",

language = "English",

pages = "1032--1040",

editor = "R Schenck and D Huizenga",

booktitle = "Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector",

publisher = "American Centre for Life Cycle Assessment",

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Prade, T, Svensson, S-E & Björnsson, L 2014, Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production. in R Schenck & D Huizenga (eds), Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector. American Centre for Life Cycle Assessment, San Francisco, USA, pp. 1032-1040.

Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production. / Prade, Thomas; Svensson, Sven-Erik; Björnsson, Lovisa.
Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector. ed. / R Schenck; D Huizenga. San Francisco, USA: American Centre for Life Cycle Assessment, 2014. p. 1032-1040.

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

TY - GEN

T1 - Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production

AU - Prade, Thomas

AU - Svensson, Sven-Erik

AU - Björnsson, Lovisa

PY - 2014

Y1 - 2014

N2 - Changes of soil organic carbon (SOC) ontent can have a substantial effect on greenhouse gas emissions, but are rarely included in cropproduction LCAs. SOC content strongly influences soil fertility and therefore crop yields, but is declining in many European soils. The present study investigated if integration of 1-2 years of grass-clover crops in a cereal-dominated crop rotation can increase the SOC pool and how this would impact food production. Results show that when grass-clover crops are integrated, the potential SOC content at steady state will be 41 to 52% higher than in the conventional cereal-dominated crop rotation. The net increase of wheat yields based on SOC improvements indicate that for a crop rotation with one year of grass-clover crops, the initial loss of food production can be counterbalanced due to the impact on fertility of the SOC increase.

AB - Changes of soil organic carbon (SOC) ontent can have a substantial effect on greenhouse gas emissions, but are rarely included in cropproduction LCAs. SOC content strongly influences soil fertility and therefore crop yields, but is declining in many European soils. The present study investigated if integration of 1-2 years of grass-clover crops in a cereal-dominated crop rotation can increase the SOC pool and how this would impact food production. Results show that when grass-clover crops are integrated, the potential SOC content at steady state will be 41 to 52% higher than in the conventional cereal-dominated crop rotation. The net increase of wheat yields based on SOC improvements indicate that for a crop rotation with one year of grass-clover crops, the initial loss of food production can be counterbalanced due to the impact on fertility of the SOC increase.

M3 - Paper in conference proceeding

SP - 1032

EP - 1040

BT - Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector

A2 - Schenck, R

A2 - Huizenga, D

PB - American Centre for Life Cycle Assessment

CY - San Francisco, USA

ER -

Prade T, Svensson SE, Björnsson L. Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production. In Schenck R, Huizenga D, editors, Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector. San Francisco, USA: American Centre for Life Cycle Assessment. 2014. p. 1032-1040

Introduction of grass-clover crops as biogas feedstock in cereal dominated crop rotations. Part I: Effects on soil organic carbon and food production

Abstract

Subject classification (UKÄ)

UN SDGs

Fingerprint

Projects

Impact of biogas crop production on greenhouse gas emissions, soil organic matter and food crop production–A case study on farm level

Cite this