尼日利亚森林-稀树草原过渡带移栽番茄氮素和杂草管理

J.A. Adigun , O.S. Daramola , O.R. Adeyemi , P.M. Olorunmaiye , O.A. Osipitan
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引用次数: 11

摘要

杂草丛生和土壤固有的低肥力是尼日利亚番茄产量低的主要原因。在尼日利亚Abeokuta森林-稀树草原过渡地带,于2015年和2016年雨季进行了田间试验,以评价番茄对氮肥施用和杂草控制方法的产量响应。杂草种类的生长与施氮量的增加呈正相关。研究表明,施氮量增加到90 kg/ha时,杂草密度增加了11-25%,但施氮量增加使移栽番茄具有竞争优势,从而增强了杂草的窒息性。在这两年的研究中,与单独使用移栽前除草剂相比,移栽前施用丁草胺(50% w/v)或proben®(20% w/v的甲草胺+ 20% w/v的prometryn)各2.0 kg a.i/ha,然后在移栽后6周补充锄草(WAT),显著降低杂草密度至少15%,增加番茄产量至少32%。移栽前施用2.0 kg a.i/ hm2丁草胺,6 WAT补锄除草,两年平均产量最高,达到12.2 t/ hm2。总的来说,本研究表明,在尼日利亚森林-稀树草原过渡地带,增加施氮量至90 kg/ hm2,并辅以移栽前除草剂和6 WAT锄草,可以提高番茄产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nitrogen and weed management in transplanted tomato in the Nigerian forest-savanna transition zone

Weed infestation and inherent low soil fertility are among primary reasons for low yields of tomato in Nigeria. Field trials were carried out during the wet season of 2015 and 2016 to evaluate yield response of tomato to nitrogen (N) application and weed control methods in the forest-savanna transition zone of Abeokuta, Nigeria. Positive relationship exists between growth of weed species and increase in N application. Across the years of study, increase in N up to 90 kg/ha increased weed density by 11–25%, however, the increased N gave the transplanted tomato competitive advantage and thus enhanced weed smothering. Pre-transplant application of butachlor (50% w/v) or probaben® (metolachlor 20% w/v + prometryn 20% w/v) each at 2.0 kg a.i/ha followed by supplementary hoe weeding at 6 weeks after transplanting (WAT) significantly reduced weed density by at least 15% and increased fruit yield of tomato by at least 32%, compared to use of the pre-transplant herbicides alone, across both years of study. The greatest tomato fruit yield of 12.2 t/ha was obtained with pre-transplant application of butachlor at 2.0 kg a.i/ha followed by supplementary hoe weeding at 6 WAT, averaged for both years. In general, this study suggests that increased application of N up to 90 kg/ha, and complementary weed control by pre-transplant herbicide and hoe weeding at 6 WAT would improve yield of tomato in the forest-savanna transition zone of Nigeria.

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