新型杀菌剂与禾草:对种子产量和病害防治的影响。

G Rijckaert, T Vanden Nest
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引用次数: 0

摘要

草籽作物(黑麦草)是比利时的一种次要作物,应以可耕种的方式进行更集约的管理,可与集约小麦栽培相比较。比提高种子产量更重要的是稳定、长期高产,病虫害综合治理(IPM)形成了这种集约化的框架。2014年进行了两项类似的大田种子生产试验,一项是多年生黑麦草(Lolium perenne L.),另一项是意大利黑麦草(Lolium multiflorum L.),试验使用4种SDHI杀菌剂(bixafen、boscalid、fluxapyroxad和异吡嗪),并与未处理对照和一些参考处理进行了比较。有四个施用时间(阶段):即茎早伸长—BBCH 33 (T1),穗尖可见—BBCH 51 (T2),全穗,开始开花—BBCH 61 (T3)和结束开花—BBCH 69 (T4)。除意大利黑麦草试验外,只进行了最后三个阶段的试验。在只有零星发病的意大利黑麦草试验中,与未经处理的对照相比,所有T3处理都明显提高了种子产量,平均提高了13%。T2处理中,只有Fandango和Adexar明显优于对照。治疗性T4处理(Tilt + Corbel)有提高种子产量的趋势,但不显著。种子产量的差异不能用千粒重(TSW)、叶片枯萎和NDVI评分(作物反射率)的变化来解释。花前病害压力(冠锈病)很低,但茎锈病在多年生黑麦草试验收获前的最后2周发生得很严重。产量响应在T3处理时最为明显。除Fandango和Horizon外,所有T3处理均较未处理的对照显著增产,平均增产18.4%。T4处理(Tilt + Corbel)不能修复作物损伤。进一步讨论了种子产量数据与产量成分、总积、叶片枯萎和植被指数(NDVI)的关系。考虑到季节内的病害发展情况,并根据草的种类和品种,有必要采用一种综合的方法,在草种子上施用单一的、有利可图的杀菌剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NEWER SDHI FUNGICIDES AND GRASSES: EFFECTS ON SEED YIELD AND DISEASE CONTROL.

Grass seed crops (ryegrass), a minor crop in Belgium, should be managed more intensively and in an arable way, comparable with the intensive wheat culture. Even more important than higher seed yields are stable, higher yields over time, Integrated pest management (IPM) forms the framework around this intensification. Two similar seed production field trials--one with perennial ryegrass (Lolium perenne L.) and one with Italian ryegrass (Lolium multiflorum L.)--were conducted in 2014, dealing with 4 SDHI fungicides (bixafen, boscalid, fluxapyroxad and isopyrazam) that were compared with an untreated control and some reference treatments. There were four application times (stages): i.e. early stem elongation--BBCH 33 (T1), ear tips visible--BBCH 51 (T2), full ear, begin of flowering--BBCH 61 (T3) and end of flowering--BBCH 69 (T4). Except for the Italian ryegrass trial, only the last three stages were used. In the Italian ryegrass trial, which had only sporadic incidence of disease, all T3 treatments clearly increased seed yield compared with the untreated control, by 13% on average. For the T2 treatments only Fandango and Adexar clearly out yielded the control. The curative T4 treatment (Tilt + Corbel) tended to increase seed yield, but this was not significant. Seed yield differences could not be explained by variations in thousand seed weight (TSW), leaf withering and NDVI scores (crop reflectance). The disease pressure (crown rust) was very low before flowering, but stem rust developed strongly during the last 2 weeks before harvest of the perennial ryegrass trial. Yield responses were mostly pronounced at the T3 treatment. Except for Fandango and Horizon, all T3 treatments clearly increased yield in comparison with the untreated control, by 18.4% on average. The T4 treatment (Tilt + Corbel) could not repair the crop damage. Further seed yield data are discussed in relation to yield components, TSW, leaf withering and vegetation index (NDVI). An integrated approach for a single, profitable fungicide application in grass seed will be necessary, taking into account the disease development during the season and depending upon grass species and variety.

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