A novel seed treatment-based multiplication approach for cassava planting material.
Cassava (Manihot esculenta Crantz) is an important food security crop in many parts of the developing world. The crop?s high yield potential and multitude of uses?both for nutrition and processing?render cassava a promising driver for the development of rural value chains. It is traditionally propagated from stem cuttings of up to 30 cm in length, giving a multiplication rate as low as 1:10. Propagating cassava traditionally is very inefficient, which leads to challenges in the production and distribution of quality planting material and improved cultivars, greatly limiting the impact of investments in crop breeding. The work described in the present study aimed to develop a seed treatment approach to facilitate the use of shorter seed pieces, increasing the multiplication rate of cassava and thus making the crop?s seed systems more efficient. After several tests, formulation was identified, consisting of thiamethoxam 21 g ha-1, mefenoxam 1.0 g ha-1, fludioxonil 1.3 g ha-1, thiabendazole 7.5 g ha-1 and Latex 2% as a binder. Plant growing from seed pieces treated with this formulation displayed increased crop establishment and early crop vigor, leading to an improved productivity throughout a full growing cycle. This allowed to reduce the cassava seed piece size to 8 cm with no negative effects on germination and crop establishment, leading to yields comparable to those from untreated 16 cm pieces. This, in turn, will allow to increase the multiplication ratio of cassava by a factor of up to 3. Notably, this was possible under regular field conditions and independently of any specialised treatment facilities. Compared with existing seed production protocols, the increased multiplication rates allowed for efficiency gains of between 1 to 1.9 years compared to conventional five-year cycles. We believe that the technology described here holds considerable promise for developing more reliable and remunerative delivery channels for quality cassava planting material and improved genetics.
Saved in:
| Main Authors: | , , , , , , , , , , |
|---|---|
| Other Authors: | |
| Format: | Artigo de periódico biblioteca |
| Language: | Ingles English |
| Published: |
2020-05-12
|
| Subjects: | Mandioca, Cassava, |
| Online Access: | http://www.alice.cnptia.embrapa.br/alice/handle/doc/1122236 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| id |
dig-alice-doc-1122236 |
|---|---|
| record_format |
koha |
| spelling |
dig-alice-doc-11222362020-05-13T04:41:06Z A novel seed treatment-based multiplication approach for cassava planting material. OLIVEIRA, E. J. de OLIVEIRA, S. A. S. de OTTO, C. ALICAI, T. FREITAS, J. P. X. de CORTES, D. F. M. PARIYO, A. LIRI, C. ADIGA, G. BALMER, A. ROBINSON, M. EDER JORGE DE OLIVEIRA, CNPMF; SAULO ALVES SANTOS DE OLIVEIRA, CNPMF; CAROLINE OTTO, Syngenta Foundation for Sustainable Agriculture; TITUS ALICAI, NaCRRI; JUAN PAULO XAVIER DE FREITAS; DIEGO FERNANDO MARMOLEJO CORTES; ANTHONY PARIYO; CHARLES LIRI, NaCRRI; GERALD ADIGA, NaCRRI; ANDREA BALMER, Syngenta Foundation for Sustainable Agriculture; MIKE ROBINSON, Syngenta Foundation for Sustainable Agriculture. Mandioca Cassava Cassava (Manihot esculenta Crantz) is an important food security crop in many parts of the developing world. The crop?s high yield potential and multitude of uses?both for nutrition and processing?render cassava a promising driver for the development of rural value chains. It is traditionally propagated from stem cuttings of up to 30 cm in length, giving a multiplication rate as low as 1:10. Propagating cassava traditionally is very inefficient, which leads to challenges in the production and distribution of quality planting material and improved cultivars, greatly limiting the impact of investments in crop breeding. The work described in the present study aimed to develop a seed treatment approach to facilitate the use of shorter seed pieces, increasing the multiplication rate of cassava and thus making the crop?s seed systems more efficient. After several tests, formulation was identified, consisting of thiamethoxam 21 g ha-1, mefenoxam 1.0 g ha-1, fludioxonil 1.3 g ha-1, thiabendazole 7.5 g ha-1 and Latex 2% as a binder. Plant growing from seed pieces treated with this formulation displayed increased crop establishment and early crop vigor, leading to an improved productivity throughout a full growing cycle. This allowed to reduce the cassava seed piece size to 8 cm with no negative effects on germination and crop establishment, leading to yields comparable to those from untreated 16 cm pieces. This, in turn, will allow to increase the multiplication ratio of cassava by a factor of up to 3. Notably, this was possible under regular field conditions and independently of any specialised treatment facilities. Compared with existing seed production protocols, the increased multiplication rates allowed for efficiency gains of between 1 to 1.9 years compared to conventional five-year cycles. We believe that the technology described here holds considerable promise for developing more reliable and remunerative delivery channels for quality cassava planting material and improved genetics. 2020-05-13T04:40:58Z 2020-05-13T04:40:58Z 2020-05-12 2020 Artigo de periódico Plos One, v.15, n.3, e0229943, March, 2020. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1122236 Ingles en openAccess |
| institution |
EMBRAPA |
| collection |
DSpace |
| country |
Brasil |
| countrycode |
BR |
| component |
Bibliográfico |
| access |
En linea |
| databasecode |
dig-alice |
| tag |
biblioteca |
| region |
America del Sur |
| libraryname |
Sistema de bibliotecas de EMBRAPA |
| language |
Ingles English |
| topic |
Mandioca Cassava Mandioca Cassava |
| spellingShingle |
Mandioca Cassava Mandioca Cassava OLIVEIRA, E. J. de OLIVEIRA, S. A. S. de OTTO, C. ALICAI, T. FREITAS, J. P. X. de CORTES, D. F. M. PARIYO, A. LIRI, C. ADIGA, G. BALMER, A. ROBINSON, M. A novel seed treatment-based multiplication approach for cassava planting material. |
| description |
Cassava (Manihot esculenta Crantz) is an important food security crop in many parts of the developing world. The crop?s high yield potential and multitude of uses?both for nutrition and processing?render cassava a promising driver for the development of rural value chains. It is traditionally propagated from stem cuttings of up to 30 cm in length, giving a multiplication rate as low as 1:10. Propagating cassava traditionally is very inefficient, which leads to challenges in the production and distribution of quality planting material and improved cultivars, greatly limiting the impact of investments in crop breeding. The work described in the present study aimed to develop a seed treatment approach to facilitate the use of shorter seed pieces, increasing the multiplication rate of cassava and thus making the crop?s seed systems more efficient. After several tests, formulation was identified, consisting of thiamethoxam 21 g ha-1, mefenoxam 1.0 g ha-1, fludioxonil 1.3 g ha-1, thiabendazole 7.5 g ha-1 and Latex 2% as a binder. Plant growing from seed pieces treated with this formulation displayed increased crop establishment and early crop vigor, leading to an improved productivity throughout a full growing cycle. This allowed to reduce the cassava seed piece size to 8 cm with no negative effects on germination and crop establishment, leading to yields comparable to those from untreated 16 cm pieces. This, in turn, will allow to increase the multiplication ratio of cassava by a factor of up to 3. Notably, this was possible under regular field conditions and independently of any specialised treatment facilities. Compared with existing seed production protocols, the increased multiplication rates allowed for efficiency gains of between 1 to 1.9 years compared to conventional five-year cycles. We believe that the technology described here holds considerable promise for developing more reliable and remunerative delivery channels for quality cassava planting material and improved genetics. |
| author2 |
EDER JORGE DE OLIVEIRA, CNPMF; SAULO ALVES SANTOS DE OLIVEIRA, CNPMF; CAROLINE OTTO, Syngenta Foundation for Sustainable Agriculture; TITUS ALICAI, NaCRRI; JUAN PAULO XAVIER DE FREITAS; DIEGO FERNANDO MARMOLEJO CORTES; ANTHONY PARIYO; CHARLES LIRI, NaCRRI; GERALD ADIGA, NaCRRI; ANDREA BALMER, Syngenta Foundation for Sustainable Agriculture; MIKE ROBINSON, Syngenta Foundation for Sustainable Agriculture. |
| author_facet |
EDER JORGE DE OLIVEIRA, CNPMF; SAULO ALVES SANTOS DE OLIVEIRA, CNPMF; CAROLINE OTTO, Syngenta Foundation for Sustainable Agriculture; TITUS ALICAI, NaCRRI; JUAN PAULO XAVIER DE FREITAS; DIEGO FERNANDO MARMOLEJO CORTES; ANTHONY PARIYO; CHARLES LIRI, NaCRRI; GERALD ADIGA, NaCRRI; ANDREA BALMER, Syngenta Foundation for Sustainable Agriculture; MIKE ROBINSON, Syngenta Foundation for Sustainable Agriculture. OLIVEIRA, E. J. de OLIVEIRA, S. A. S. de OTTO, C. ALICAI, T. FREITAS, J. P. X. de CORTES, D. F. M. PARIYO, A. LIRI, C. ADIGA, G. BALMER, A. ROBINSON, M. |
| format |
Artigo de periódico |
| topic_facet |
Mandioca Cassava |
| author |
OLIVEIRA, E. J. de OLIVEIRA, S. A. S. de OTTO, C. ALICAI, T. FREITAS, J. P. X. de CORTES, D. F. M. PARIYO, A. LIRI, C. ADIGA, G. BALMER, A. ROBINSON, M. |
| author_sort |
OLIVEIRA, E. J. de |
| title |
A novel seed treatment-based multiplication approach for cassava planting material. |
| title_short |
A novel seed treatment-based multiplication approach for cassava planting material. |
| title_full |
A novel seed treatment-based multiplication approach for cassava planting material. |
| title_fullStr |
A novel seed treatment-based multiplication approach for cassava planting material. |
| title_full_unstemmed |
A novel seed treatment-based multiplication approach for cassava planting material. |
| title_sort |
novel seed treatment-based multiplication approach for cassava planting material. |
| publishDate |
2020-05-12 |
| url |
http://www.alice.cnptia.embrapa.br/alice/handle/doc/1122236 |
| work_keys_str_mv |
AT oliveiraejde anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT oliveirasasde anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT ottoc anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT alicait anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT freitasjpxde anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT cortesdfm anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT pariyoa anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT liric anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT adigag anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT balmera anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT robinsonm anovelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT oliveiraejde novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT oliveirasasde novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT ottoc novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT alicait novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT freitasjpxde novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT cortesdfm novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT pariyoa novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT liric novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT adigag novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT balmera novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial AT robinsonm novelseedtreatmentbasedmultiplicationapproachforcassavaplantingmaterial |
| _version_ |
1756026962411782144 |