Ratooning increases production of sweetpotato seed vines multiplied in insect-proof net tunnels in Tanzania

IF 1.6 4区农林科学 Q1 Agricultural and Biological Sciences

Experimental Agriculture Pub Date : 2023-05-08 DOI:10.1017/S0014479723000066

K. Ogero, H. Okuku, M. McEwan, C. Almekinders, J. Kreuze, P. Struik, R. A. van der Vlugt

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Abstract

Summary 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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坦桑尼亚防虫网隧道中繁殖的红薯种子藤产量增加

摘要防虫网隧道有助于减少分散种子生产商生产的经过病毒测试的红薯种子的病毒感染。然而，需要进行最佳管理，以保持种子产量和质量。本研究探讨了再生种植技术对网穴和露地葡萄生产的影响。Kabode和Mataya两个品种的经过病毒测试的种植材料在网状隧道和开阔地中种植。每个品种每个小区有80株植物，其中40株采用再生技术，40株采用重新种植技术。再生作物收获了六次，包括最初的收获和五次再生。这涵盖了14个月，代表了六代葡萄的生产。记录葡萄藤的数量、每根葡萄藤的节数和葡萄藤的长度。还记录了出现病毒症状的植物数量。无论是在网穴还是开阔地，再生种植技术都比重新种植技术产生了更多的葡萄藤。与网状隧道相比，无论种植技术如何，Kabode在开阔的田地里都能结出更多的葡萄藤。另一方面，马塔亚在网状隧道和开阔地中生产的葡萄藤数量相对相等。尽管与重新种植相比，再生能带来更多的葡萄产量，但这项技术导致露天植物的病毒发生率更高。这也随着品种的不同而变化，马塔亚的病毒病发病率最高。我们建议采用再生种植技术在网状隧道中生产红薯藤。在开阔地生产葡萄时，应采用复种技术，因为它是控制病毒感染的关键策略，即使是对易感品种也是如此。

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来源期刊

Experimental Agriculture 农林科学-农艺学

CiteScore

2.50

自引率

6.20%

发文量

审稿时长

24 months

期刊介绍： With a focus on the tropical and sub-tropical regions of the world, Experimental Agriculture publishes the results of original research on field, plantation and herbage crops grown for food or feed, or for industrial purposes, and on farming systems, including livestock and people. It reports experimental work designed to explain how crops respond to the environment in biological and physical terms, and on the social and economic issues that may influence the uptake of the results of research by policy makers and farmers, including the role of institutions and partnerships in delivering impact. The journal also publishes accounts and critical discussions of new quantitative and qualitative methods in agricultural and ecosystems research, and of contemporary issues arising in countries where agricultural production needs to develop rapidly. There is a regular book review section and occasional, often invited, reviews of research.