Conservation agriculture in Southern Africa: Advances in knowledge
The increasing demand for food from limited available land, in light of declining soil fertility and future threats of climate variability and change have increased the need for more sustainable crop management systems. Conservation agriculture (CA) is based on the three principles of minimum soil d...
| Main Authors: | , , , , , , |
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| Format: | Journal Article |
| Language: | Inglés |
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Cambridge University Press
2015
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/76603 |
| _version_ | 1855524205877002240 |
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| author | Thierfelder, Christian L. Rusinamhodzi, Leonard Ngwira AR Mupangwa, W. Nyagumbo, Isaiah Kassie, Girma T. Cairns, Jill E. |
| author_browse | Cairns, Jill E. Kassie, Girma T. Mupangwa, W. Ngwira AR Nyagumbo, Isaiah Rusinamhodzi, Leonard Thierfelder, Christian L. |
| author_facet | Thierfelder, Christian L. Rusinamhodzi, Leonard Ngwira AR Mupangwa, W. Nyagumbo, Isaiah Kassie, Girma T. Cairns, Jill E. |
| author_sort | Thierfelder, Christian L. |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | The increasing demand for food from limited available land, in light of declining soil fertility and future threats of climate variability and change have increased the need for more sustainable crop management systems. Conservation agriculture (CA) is based on the three principles of minimum soil disturbance, surface crop residue retention and crop rotations, and is one of the available options. In Southern Africa, CA has been intensively promoted for more than a decade to combat declining soil fertility and to stabilize crop yields. The objective of this review is to summarize recent advances in knowledge about the benefits of CA and highlight constraints to its widespread adoption within Southern Africa. Research results from Southern Africa showed that CA generally increased water infiltration, reduced soil erosion and run-off, thereby increasing available soil moisture and deeper drainage. Physical, chemical and biological soil parameters were also improved under CA in the medium to long term. CA increased crop productivity and also reduced on-farm labor, especially when direct seeding techniques and herbicides were used. As with other cropping systems, CA has constraints at both the field and farm level. Challenges to adoption in Southern Africa include the retention of sufficient crop residues, crop rotations, weed control, pest and diseases, farmer perception and economic limitations, including poorly developed markets. It was concluded that CA is not a ‘one-size-fits-all’ solution and often needs significant adaptation and flexibility when implementing it across farming systems. However, CA may potentially reduce future soil fertility decline, the effects of seasonal dry-spells and may have a large impact on food security and farmers’ livelihoods if the challenges can be overcome. |
| format | Journal Article |
| id | CGSpace76603 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2015 |
| publishDateRange | 2015 |
| publishDateSort | 2015 |
| publisher | Cambridge University Press |
| publisherStr | Cambridge University Press |
| record_format | dspace |
| spelling | CGSpace766032025-02-19T12:58:19Z Conservation agriculture in Southern Africa: Advances in knowledge Thierfelder, Christian L. Rusinamhodzi, Leonard Ngwira AR Mupangwa, W. Nyagumbo, Isaiah Kassie, Girma T. Cairns, Jill E. climate change agriculture food security conservation agriculture mulching no-tillage rotation sustainable intensification The increasing demand for food from limited available land, in light of declining soil fertility and future threats of climate variability and change have increased the need for more sustainable crop management systems. Conservation agriculture (CA) is based on the three principles of minimum soil disturbance, surface crop residue retention and crop rotations, and is one of the available options. In Southern Africa, CA has been intensively promoted for more than a decade to combat declining soil fertility and to stabilize crop yields. The objective of this review is to summarize recent advances in knowledge about the benefits of CA and highlight constraints to its widespread adoption within Southern Africa. Research results from Southern Africa showed that CA generally increased water infiltration, reduced soil erosion and run-off, thereby increasing available soil moisture and deeper drainage. Physical, chemical and biological soil parameters were also improved under CA in the medium to long term. CA increased crop productivity and also reduced on-farm labor, especially when direct seeding techniques and herbicides were used. As with other cropping systems, CA has constraints at both the field and farm level. Challenges to adoption in Southern Africa include the retention of sufficient crop residues, crop rotations, weed control, pest and diseases, farmer perception and economic limitations, including poorly developed markets. It was concluded that CA is not a ‘one-size-fits-all’ solution and often needs significant adaptation and flexibility when implementing it across farming systems. However, CA may potentially reduce future soil fertility decline, the effects of seasonal dry-spells and may have a large impact on food security and farmers’ livelihoods if the challenges can be overcome. 2015-08 2016-08-25T11:51:36Z 2016-08-25T11:51:36Z Journal Article https://hdl.handle.net/10568/76603 en Limited Access Cambridge University Press Thierfelder C, Rusinamhodzi L, Ngwira AR, Mupangwa W, Nyagumbo I, Kassie GT, Cairns JE. 2015. Conservation agriculture in Southern Africa: Advances in knowledge. Renewable Agriculture and Food Systems 30(4):328-348. |
| spellingShingle | climate change agriculture food security conservation agriculture mulching no-tillage rotation sustainable intensification Thierfelder, Christian L. Rusinamhodzi, Leonard Ngwira AR Mupangwa, W. Nyagumbo, Isaiah Kassie, Girma T. Cairns, Jill E. Conservation agriculture in Southern Africa: Advances in knowledge |
| title | Conservation agriculture in Southern Africa: Advances in knowledge |
| title_full | Conservation agriculture in Southern Africa: Advances in knowledge |
| title_fullStr | Conservation agriculture in Southern Africa: Advances in knowledge |
| title_full_unstemmed | Conservation agriculture in Southern Africa: Advances in knowledge |
| title_short | Conservation agriculture in Southern Africa: Advances in knowledge |
| title_sort | conservation agriculture in southern africa advances in knowledge |
| topic | climate change agriculture food security conservation agriculture mulching no-tillage rotation sustainable intensification |
| url | https://hdl.handle.net/10568/76603 |
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