The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon
With a specific focus on zero tillage and organic fertilization, this study examines the effects of agronomic practices on soil greenhouse gas (GHGs—CO 2 , N 2 O, and CH 4 ) emissions, global warming potential (GWP), maize productivity and greenhouse gas intensity (GHGI) over two growing seasons (20...
| Autores principales: | , , , , , |
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| Formato: | Journal Article |
| Lenguaje: | Inglés |
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FRONTIERS MEDIA
2025
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| Acceso en línea: | https://hdl.handle.net/10568/179050 |
| _version_ | 1855540430365523968 |
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| author | Amahnui, George Amenchwi Paligwende Nikiema Veronica Ebot Manga Aaron Suh Tening Theophilus Olufemi Isimikalu Tek B. Sapoka |
| author_browse | Aaron Suh Tening Amahnui, George Amenchwi Paligwende Nikiema Tek B. Sapoka Theophilus Olufemi Isimikalu Veronica Ebot Manga |
| author_facet | Amahnui, George Amenchwi Paligwende Nikiema Veronica Ebot Manga Aaron Suh Tening Theophilus Olufemi Isimikalu Tek B. Sapoka |
| author_sort | Amahnui, George Amenchwi |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | With a specific focus on zero tillage and organic fertilization, this study examines the effects of agronomic practices on soil greenhouse gas (GHGs—CO 2 , N 2 O, and CH 4 ) emissions, global warming potential (GWP), maize productivity and greenhouse gas intensity (GHGI) over two growing seasons (2020 minor and 2021 main season) in Buea, Cameroon. Two tillage practices–i.e., zero-tillage and conventional tillage with ridge formation and three fertilizer treatments—i.e., no fertilizer, synthetic fertilizer (urea), and organic fertilizer (composted municipal solid waste), were factorially combined in a split-plot design with three replications. Fertilizer was applied at a rate of 100 kg N ha - ¹. The hybrid maize cultivar CMS 8704 was used. GHG emissions were measured using the static flux chamber method, and flux rates were calculated with the HMR package in R software. Results showed that tillage and fertilizer types significantly (p<0.05) influenced seasonal cumulative CO 2 , N 2 O, and CH 4 emissions. Synthetic fertilizer treatments produced the highest cumulative N 2 O emissions, particularly under zero-tillage in 2020 and conventional tillage in 2021. Conventional tillage paired with organic fertilizer yielded the highest CO 2 emissions across both seasons, while methane fluxes were low and largely negative across treatments, indicating that the volcanic upland soils acted as CH 4 sinks. Application of synthetic fertilizer increased GWP by 20% and 322% under zero tillage in the 2020 and 2021 seasons, respectively. Under conventional tillage, GWP decreased by 15% in 2020 but sharply increased by 295% in 2021, highlighting season-specific effects. Although treatment effects were not significant (P>0.05) on maize yields in 2020, the highest yield (3.06 t/ha) occurred under conventional tillage without fertilization. Fertilizer type and its interaction with tillage significantly (P<0.05) influenced yields in 2021, with the highest yield under conventional tillage with synthetic fertilization (6.15 tons/ha). However, conventional tillage treatment without fertilization produced the highest yield (3.06 t/ha) in 2020 and the lowest GHGI (12.04 kg CO 2 -eq t - ¹). In 2021, zero tillage treatment without fertilization resulted in a high yield (5.56 t/ha) with the lowest GHGI (2.15 kg CO 2 -eq t - ¹). The results suggest that in Buea’s minor growing season, conventional tillage with or without organic fertilization reduced GHG emissions without compromising yields, while in main seasons, zero tillage without fertilization offered the most favorable yield-emission balance. This study highlights the importance of context-specific soil and nutrient management strategies for sustainable agriculture and climate change mitigation. Findings provide valuable data for national GHG inventory reporting and inform agronomic practices in tropical upland agricultural systems. |
| format | Journal Article |
| id | CGSpace179050 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2025 |
| publishDateRange | 2025 |
| publishDateSort | 2025 |
| publisher | FRONTIERS MEDIA |
| publisherStr | FRONTIERS MEDIA |
| record_format | dspace |
| spelling | CGSpace1790502025-12-20T02:16:40Z The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon Amahnui, George Amenchwi Paligwende Nikiema Veronica Ebot Manga Aaron Suh Tening Theophilus Olufemi Isimikalu Tek B. Sapoka agronomic practices greenhouse gas emissions emisión de gases de efecto invernadero organic fertilizers global warming calentamiento global labranza zero tillage With a specific focus on zero tillage and organic fertilization, this study examines the effects of agronomic practices on soil greenhouse gas (GHGs—CO 2 , N 2 O, and CH 4 ) emissions, global warming potential (GWP), maize productivity and greenhouse gas intensity (GHGI) over two growing seasons (2020 minor and 2021 main season) in Buea, Cameroon. Two tillage practices–i.e., zero-tillage and conventional tillage with ridge formation and three fertilizer treatments—i.e., no fertilizer, synthetic fertilizer (urea), and organic fertilizer (composted municipal solid waste), were factorially combined in a split-plot design with three replications. Fertilizer was applied at a rate of 100 kg N ha - ¹. The hybrid maize cultivar CMS 8704 was used. GHG emissions were measured using the static flux chamber method, and flux rates were calculated with the HMR package in R software. Results showed that tillage and fertilizer types significantly (p<0.05) influenced seasonal cumulative CO 2 , N 2 O, and CH 4 emissions. Synthetic fertilizer treatments produced the highest cumulative N 2 O emissions, particularly under zero-tillage in 2020 and conventional tillage in 2021. Conventional tillage paired with organic fertilizer yielded the highest CO 2 emissions across both seasons, while methane fluxes were low and largely negative across treatments, indicating that the volcanic upland soils acted as CH 4 sinks. Application of synthetic fertilizer increased GWP by 20% and 322% under zero tillage in the 2020 and 2021 seasons, respectively. Under conventional tillage, GWP decreased by 15% in 2020 but sharply increased by 295% in 2021, highlighting season-specific effects. Although treatment effects were not significant (P>0.05) on maize yields in 2020, the highest yield (3.06 t/ha) occurred under conventional tillage without fertilization. Fertilizer type and its interaction with tillage significantly (P<0.05) influenced yields in 2021, with the highest yield under conventional tillage with synthetic fertilization (6.15 tons/ha). However, conventional tillage treatment without fertilization produced the highest yield (3.06 t/ha) in 2020 and the lowest GHGI (12.04 kg CO 2 -eq t - ¹). In 2021, zero tillage treatment without fertilization resulted in a high yield (5.56 t/ha) with the lowest GHGI (2.15 kg CO 2 -eq t - ¹). The results suggest that in Buea’s minor growing season, conventional tillage with or without organic fertilization reduced GHG emissions without compromising yields, while in main seasons, zero tillage without fertilization offered the most favorable yield-emission balance. This study highlights the importance of context-specific soil and nutrient management strategies for sustainable agriculture and climate change mitigation. Findings provide valuable data for national GHG inventory reporting and inform agronomic practices in tropical upland agricultural systems. 2025-11-25 2025-12-19T10:13:05Z 2025-12-19T10:13:05Z Journal Article https://hdl.handle.net/10568/179050 en Open Access application/pdf FRONTIERS MEDIA Amahnui, G.A.; Paligwende Nikiema; Veronica Ebot Manga; Aaron Suh Tening; Theophilus Olufemi Isimikalu; Tek B. Sapoka; (2025) The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon. Frontiers in Soil Science 5: ISSN: 2673-8619 |
| spellingShingle | agronomic practices greenhouse gas emissions emisión de gases de efecto invernadero organic fertilizers global warming calentamiento global labranza zero tillage Amahnui, George Amenchwi Paligwende Nikiema Veronica Ebot Manga Aaron Suh Tening Theophilus Olufemi Isimikalu Tek B. Sapoka The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon |
| title | The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon |
| title_full | The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon |
| title_fullStr | The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon |
| title_full_unstemmed | The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon |
| title_short | The effects of agronomic practices on soil greenhouse gas emissions in maize production systems in Buea, Cameroon |
| title_sort | effects of agronomic practices on soil greenhouse gas emissions in maize production systems in buea cameroon |
| topic | agronomic practices greenhouse gas emissions emisión de gases de efecto invernadero organic fertilizers global warming calentamiento global labranza zero tillage |
| url | https://hdl.handle.net/10568/179050 |
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