瑞典油菜(Brassica napus)可持续植物病害保护策略的科学证据:系统地图

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2022-06-21 DOI:10.1186/s13750-022-00277-9
Ann-Charlotte Wallenhammar, Elisa Vilvert, Sanna Bergqvist, Åke Olson, Anna Berlin
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引用次数: 0

摘要

背景:油菜(OSR;Brassica napus L.)是一种非常有价值的粮食、饲料和工业用作物。它主要生长在温带气候地区,近几十年来,其生产面积和利润率都有所增加。与此同时,一些病害也对 OSR 生产造成了负面影响。土壤传播的病原体引起的疾病会造成大量减产,因为轮作计划变得狭窄,田间 OSR 作物之间的间隔时间缩短。本文旨在概述可用于 OSR 生产的植物保护措施,并找出知识差距和需要开展更多研究的领域:本系统图基于之前发布的协议,并遵循 ROSES 报告标准。搜索策略是与利益相关者合作制定的,旨在涵盖与斯堪的纳维亚作物生产相关的气候带(柯本-盖革气候分类中的 Dfc、Dfb、Cfb 和 Cfa)中有关 OSR 病害管理的现有科学证据。我们使用了五个科学数据库来查找经同行评审的文献,并对灰色文献进行了补充检索。文章筛选分为三个阶段:标题、摘要和全文。符合条件的出版物包括对 OSR 作物的研究,所有控制农田作物病害的措施都被视为符合条件的干预措施。比较对象为干预措施和无干预措施,单位面积产量、病害抑制或作物质量提高被确定为干预措施的结果。对每项研究的实验设计进行基本评估,以确定其是否符合条件。所有文章均根据以下类别进行编码:地点和气候区、疾病、病原体、干预和管理方法、结果和研究设计。未报告原始数据但被判定为相关的文章(即综述论文、书籍和栽培品种登记说明)被保存在一个名为 "书籍、综述和报告 "的单独类别中:通过系统检索共收集到 4633 篇文章。剔除重复文章后,有 3513 篇文章被纳入筛选过程。在对文章标题和摘要进行筛选后,对 897 篇文章进行了全文评估,其中 118 篇文章符合系统图的资格标准。OSR作物生产面积最大的国家(加拿大)和地区(欧洲)的文章数量也最多。总共报道了 17 种不同的病害,其中研究最多的病害是黑腿病(同属茎腐病)。研究了 19 种不同的干预方法或管理类型。抗性栽培品种和施用杀虫剂是研究最多的控制措施:我们报告了基于田间试验的 OSR 植物病害保护措施的科学研究,研究结果将直接应用于作物生产管理中。该地图清晰地概述了所选时间段内的研究进展,并指出了仅有少数研究发表的重要病害方面的知识差距,例如由病毒引起的病害。
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Scientific evidence of sustainable plant disease protection strategies for oilseed rape (Brassica napus) in Sweden: a systematic map.

Background: Oilseed rape (OSR; Brassica napus L.) is a highly valued crop for food, feed and industrial use. It is primarily grown in temperate climates, and over recent decades, its area of production and profitability have increased. Concurrently, several diseases negatively impact OSR production. Diseases caused by soil-borne pathogens, pose a risk of substantial yield loss since crop rotation schemes have become narrow as the time lapse between OSR crops in a field has been shortened. The aims of this paper were to provide an overview of plant protection measures available for OSR production and to identify knowledge gaps and areas where more research is needed.

Methods: This systematic map builds on a previously published protocol and follows the ROSES reporting standard. The search strategy was developed in collaboration with stakeholders and designed to cover available scientific evidence for OSR disease management in climate zones relevant for Scandinavian crop production (Dfc, Dfb, Cfb and Cfa in the Köppen-Geiger climate classification). Five scientific databases were used to identify peer-reviewed literature, complemented by additional searches performed in grey literature. Articles were screened at three stages: the title, abstract and full text. The eligible publications included studies of OSR crops, and all measures to control crop disease in agricultural fields were considered eligible interventions. The comparator was intervention and no intervention, and the yield per unit area, disease suppression or an increase in crop quality were determined to be outcomes of interventions. A basic assessment of the experimental design of each study was performed to assess its eligibility. All articles were coded based on the following categories: the location and climate zone, disease, pathogen, intervention and management method, outcome and study design. Articles not reporting original data but judged to be relevant (i.e., review papers, books and notes of registration of cultivars) were saved in a separate category called "books, reviews and reports".

Review findings: A total of 4633 articles were collected through systematic searches. After duplicates were removed, 3513 articles were included in the screening process. After screening at the title and abstract levels, 897 articles were evaluated at the full text level, and 118 articles comprised the studies that met the eligibility criteria of the systematic map. The country (Canada) and region (Europe) with the largest OSR crop production areas also contributed the highest number of articles. In total, 17 different diseases were reported, with black leg (syn. Phoma stem canker) being the most studied disease. Nineteen different intervention methods or management types were examined. Cultivar resistance and pesticide application were the most studied control measures.

Conclusion: We report scientific studies on plant disease protection measures for OSR based on field trials where the results are intended to be directly implemented in crop production management. The map clearly provides an overview of research progress throughout the time period chosen, and it identifies knowledge gaps regarding important diseases where only a few studies have been published, for example, diseases caused by viruses.

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