Carbon Farming of Main Staple Crops: A Systematic Review of Carbon Sequestration Potential
-
Published:2024-09-10
Issue:18
Volume:16
Page:7907
-
ISSN:2071-1050
-
Container-title:Sustainability
-
language:en
-
Short-container-title:Sustainability
Author:
Arellano Vazquez Diego Armando12ORCID, Gagliano Erica2ORCID, Del Borghi Adriana2ORCID, Tacchino Valeria23ORCID, Spotorno Stefano12ORCID, Gallo Michela2ORCID
Affiliation:
1. Istituto Universitario di Studi Superiori di Pavia (IUSS), Palazzo del Broletto, Piazza della Vittoria 15, 27100 Pavia, Italy 2. Department of Civil Chemical and Environmental Engineering (DICCA), University of Genoa, Via all’Opera Pia 15, 16145 Genova, Italy 3. TETIS Institute Srl, Spin Off of the University of Genoa, Via Gropallo 4/19, 16122 Genova, Italy
Abstract
Carbon farming has become increasingly popular as it integrates agriculture, forestry, and diverse land use practices, all crucial for implementing European strategies aimed at capturing 310 million tons of carbon dioxide from the atmosphere. These farming methods were proven to reliably increase the amount of carbon stored in the soil. However, there is a lack of discussion and consensus regarding the standards used to report these values and their implications. This article analyzes carbon sequestration rates, calculation methodologies, and communication procedures, as well as potential co-benefits and best practices. The average carbon sequestration rates in major staple crops range from very low values (0–0.5 Mg/ha/yr) to medium values (1–5 Mg/ha/yr). Scientific agricultural experiments in key global staple crops demonstrate positive rates of 4.96 Mg C ha−1 yr−1 in wheat–maize rotations and 0.52–0.69 Mg C ha−1 yr−1 in rice–wheat rotations. In agriculture, carbon sequestration rates are reported using different terms that are not consistent and pose communication challenges. This assessment involves a systematic review of the scientific literature, including articles, reviews, book chapters, and conference papers indexed in Scopus from 2001 to 2022. Specifically, this review focuses on long-term experiments, meta-analyses, and reviews that report an increase in soil carbon stock. The research trends observed, through a VOSviewer 1.6.18 analysis, show a steadily increasing interest in the field of carbon sequestration.
Reference74 articles.
1. Santos, F.D., Ferreira, P.L., and Pedersen, J.S.T. (2022). The Climate Change Challenge: A Review of the Barriers and Solutions to Deliver a Paris Solution. Climate, 10. 2. NOAA (2023, September 13). Carbon Dioxide Now More than 50% Higher than Pre-Industrial Levels, Available online: https://www.noaa.gov/news-release/carbon-dioxide-now-more-than-50-higher-than-pre-industrial-levels. 3. Romero, J., and Lee, H. (2023). Summary for Policymakers. Climate Change 2023: Synthesis Report. A Report of the Intergovernmental Panel on Climate Change. Contribution of Working Groups I, II and III to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change, IPCC. 4. Lobus, N.V., Knyazeva, M.A., Popova, A.F., and Kulikovskiy, M.S. (2023). Carbon Footprint Reduction and Climate Change Mitigation: A Review of the Approaches, Technologies, and Implementation Challenges. Carbon, 9. 5. Farooq, M., and Pisante, M. (2019). Carbon Sequestration for Sustainable Agriculture. Innovations in Sustainable Agriculture, Springer International Publishing.
|
|