1319 - conservation agriculture and the system of rice intensification
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Title: Conservation Agriculture and the System of Rice Intensification Presented by: Erika Styger Presented at: Special Exhibit/Event on Rice Production at Agritechnica Venue and Date: Hannover, Germany November 15, 2013TRANSCRIPT
As with SRI, Conservation Agriculture (CA) is an agroecological method of raising cropyields through enhancing and protecting soil and plant health. These two methodologies
work well together, and can enhance each other’s efficacy.
Conservation Agriculture and theSystem of Rice Intensification (SRI)
How CA works Bare soils, monocropping and conventional tillage practices degrade soils by causing erosion, plow pans, disruption to soil biota, loss of soil organic matter and mining of nutrients favored by the monocropped plant. CA addresses this by focusing on agricultural practices that make soil health the basis for crop production.
What‘s next? FAO (www.fao.org/ag/ca) and SRI-Rice (www.sririce.org) are collaborating to promote the integration of CA and SRI, a new concept. This includes the new development of specific mechanized equipment -- including transplanters and direct-seeders -- to facilitate the spread of CA/SRI geographically, focusing primarily on small-holder farmers, and second on medium and larger scale farmers.
CA has threecore principles
1. Minimize or eliminate soil disturbance
2. Maintain soil organic cover at all times
3. Crop diversification through rotations, associations, and sequences
Mechanization challenges andopportunities
Conventional irrigated rice soil cultivation relays on soil puddling, where soil structure is intentionally destroyed – this contradicts the CA principles. On the other hand, SRI and CA can integrate, as SRI focuses on creating organic matter-enriched and aerated soil – even for irrigated rice. Successful examples for SRI/CA integration are based on permanent raised beds, soils covered by mulch, and including the rotation with another crop. Machines need to be able to transplant single seedlings in precise spacing either into mulched surface or on clean soils (as seen in the photos above). As the combination of SRI and CA is a new concept, there is currently a lack of good machine proto-types being developed and made available for farmers in Africa, Asia and Latin America.
CA and SRIworkingtogether
CA can offer to maximize the beneficial effects of SRI while minimizing soil disturbance and improving soil health. A few examples of CA and SRI include:
No-till SRI ricefollowed by no-till vegetables on raised beds and furrows in Sofia, Madagascar.
(Source: AmirKassam)
No-till, mecha-nized CA riceproduction in North Korea.
(Source: AmirKassam)
Precision, mecha-nized SRI using dry soil transplanting and permanent beds in thePunjab Regionof Pakistan.
(Source: Asif Sharif)
The SRIInternationalNetwork and
Resources Center atCornell University
The Foodand AgricultureOrganizationof theUnited Nations
Raised bed with rice stubble after harvest
Raised bedwith rice straw being returned as mulch
Vegetable production
after SRI rice harvest with
rice strawmulch
Rice being transplanted into un-tilled paddy SRI rice nursery
Hand transplantingvia ride-ontractor attachment
Close-up of handtransplanting attachment
Rice close-up
Wheat beingdirectly drilled intoun-tilled rice stubble
Ricegrowingthrough
mulchcover
Contact: Amir Kassam (FAO), [email protected]; Josef Kienzle (FAO), [email protected];Erika Styger (SRI-Rice, Cornell University), [email protected];
www.fao.org/agriculture/crops/thematic-sitemap/theme/spi/en - www.sririce.org
Poster 5.indd 1 10/30/13 11:31 AM