Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania
Insect-proof net tunnels can help reduce virus infection of clean virus-tested sweetpotato seed produced by decentralized seed producers. However, optimal management is required to maintain both quality and quantity of seed produced. This study investigated the effect of the ratoon cropping technique on vine production in net tunnels and open fields. Virus-tested planting material of two varieties, Kabode and Mataya, were grown in net tunnels and open fields. Each variety had 80 plants per plot, with 40 following the ratooning technique and 40 a replanting technique. The ratooned crop was harvested six times, comprising the initial harvest and five regrowths. This covered 14 months representing six generations of vine production. The number of vines, number of nodes per vine, and vine length were recorded. The number of plants showing virus symptoms was also recorded. The ratoon cropping technique produced more vines compared with the replanting technique in both net tunnels and open fields. Cv. Kabode produced more vines in open fields compared with net tunnels regardless of cropping technique. On the other hand, cv. Mataya produced relatively equal numbers of vines in net tunnels and open fields. Despite ratooning leading to more vine production compared with replanting, the technique led to higher virus incidences on plants grown in the open. This also varied with variety with the highest virus disease incidences being recorded on cv. Mataya. We recommend the ratoon cropping technique for sweetpotato vine production in net tunnels. Replanting technique should be adopted for vine production in the open fields because it acts as a key control strategy for virus infections even for susceptible varieties.
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| Language: | English |
| Subjects: | Cropping technique, Ipomoea batatas, Regrowth, Replanting, |
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dig-wur-nl-wurpubs-6161162025-01-14 Ogero, Kwame Okuku, Haile Selassie McEwan, Margaret Almekinders, Conny Kreuze, Jan Struik, Paul Van Der Vlugt, René Article/Letter to editor Experimental Agriculture 59 (2023) ISSN: 0014-4797 Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania 2023 Insect-proof net tunnels can help reduce virus infection of clean virus-tested sweetpotato seed produced by decentralized seed producers. However, optimal management is required to maintain both quality and quantity of seed produced. This study investigated the effect of the ratoon cropping technique on vine production in net tunnels and open fields. Virus-tested planting material of two varieties, Kabode and Mataya, were grown in net tunnels and open fields. Each variety had 80 plants per plot, with 40 following the ratooning technique and 40 a replanting technique. The ratooned crop was harvested six times, comprising the initial harvest and five regrowths. This covered 14 months representing six generations of vine production. The number of vines, number of nodes per vine, and vine length were recorded. The number of plants showing virus symptoms was also recorded. The ratoon cropping technique produced more vines compared with the replanting technique in both net tunnels and open fields. Cv. Kabode produced more vines in open fields compared with net tunnels regardless of cropping technique. On the other hand, cv. Mataya produced relatively equal numbers of vines in net tunnels and open fields. Despite ratooning leading to more vine production compared with replanting, the technique led to higher virus incidences on plants grown in the open. This also varied with variety with the highest virus disease incidences being recorded on cv. Mataya. We recommend the ratoon cropping technique for sweetpotato vine production in net tunnels. Replanting technique should be adopted for vine production in the open fields because it acts as a key control strategy for virus infections even for susceptible varieties. en application/pdf https://research.wur.nl/en/publications/ratooning-increases-production-of-sweetpotato-seed-vines-multipli 10.1017/S0014479723000066 https://edepot.wur.nl/633152 Cropping technique Ipomoea batatas Regrowth Replanting https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Cropping technique Ipomoea batatas Regrowth Replanting Cropping technique Ipomoea batatas Regrowth Replanting |
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Cropping technique Ipomoea batatas Regrowth Replanting Cropping technique Ipomoea batatas Regrowth Replanting Ogero, Kwame Okuku, Haile Selassie McEwan, Margaret Almekinders, Conny Kreuze, Jan Struik, Paul Van Der Vlugt, René Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania |
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Insect-proof net tunnels can help reduce virus infection of clean virus-tested sweetpotato seed produced by decentralized seed producers. However, optimal management is required to maintain both quality and quantity of seed produced. This study investigated the effect of the ratoon cropping technique on vine production in net tunnels and open fields. Virus-tested planting material of two varieties, Kabode and Mataya, were grown in net tunnels and open fields. Each variety had 80 plants per plot, with 40 following the ratooning technique and 40 a replanting technique. The ratooned crop was harvested six times, comprising the initial harvest and five regrowths. This covered 14 months representing six generations of vine production. The number of vines, number of nodes per vine, and vine length were recorded. The number of plants showing virus symptoms was also recorded. The ratoon cropping technique produced more vines compared with the replanting technique in both net tunnels and open fields. Cv. Kabode produced more vines in open fields compared with net tunnels regardless of cropping technique. On the other hand, cv. Mataya produced relatively equal numbers of vines in net tunnels and open fields. Despite ratooning leading to more vine production compared with replanting, the technique led to higher virus incidences on plants grown in the open. This also varied with variety with the highest virus disease incidences being recorded on cv. Mataya. We recommend the ratoon cropping technique for sweetpotato vine production in net tunnels. Replanting technique should be adopted for vine production in the open fields because it acts as a key control strategy for virus infections even for susceptible varieties. |
| format |
Article/Letter to editor |
| topic_facet |
Cropping technique Ipomoea batatas Regrowth Replanting |
| author |
Ogero, Kwame Okuku, Haile Selassie McEwan, Margaret Almekinders, Conny Kreuze, Jan Struik, Paul Van Der Vlugt, René |
| author_facet |
Ogero, Kwame Okuku, Haile Selassie McEwan, Margaret Almekinders, Conny Kreuze, Jan Struik, Paul Van Der Vlugt, René |
| author_sort |
Ogero, Kwame |
| title |
Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania |
| title_short |
Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania |
| title_full |
Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania |
| title_fullStr |
Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania |
| title_full_unstemmed |
Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania |
| title_sort |
ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in tanzania |
| url |
https://research.wur.nl/en/publications/ratooning-increases-production-of-sweetpotato-seed-vines-multipli |
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