Dynamic of Puccinia striiformis f. sp. tritici urediniospore and its correlation with wheat stripe rust epidemics in Xiangyang of China

IF 2.5 2区农林科学 Q1 AGRONOMY

Crop Protection Pub Date : 2024-08-13 DOI:10.1016/j.cropro.2024.106898

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引用次数: 0

Abstract

Stripe rust is one of the main diseases of wheat, which seriously threatens wheat production and food security all over the world. Xiangyang located in the Northwest of Hubei province in China is one of the main winter propagation and spring epidemic regions of Puccinia striiformis f. sp. tritici (Pst), which can provide urediniospores to the major wheat-growing regions in eastern and northeastern China. Understanding the dynamic of Pst urediniospore is important for giving prediction of wheat stripe rust epidemic for eastern and northeastern China and controlling the epidemic of wheat stripe rust. In this study, spore trapper and TaqMan real-time quantitative PCR (TaqMan-qPCR) detection system were employed to monitor Pst urediniospore from December 2018 to December 2022 in Xiangyang. Weather variables including air temperature, relative humidity, sunshine duration and rainfall were collected to clarify the relationship with urediniospore density in the air. In addition, the relationship between disease index of wheat stripe rust and urediniospore density in the air was analyzed. Results showed that Pst urediniospore could be captured in the air all year round. The order of the density of urediniospore from most to least was from April to June, October to December, January to March, and July to September except 2022. The urediniospore density reached the peak when the air temperature was 10–22 °C and the relative humidity was 70%∼85% from April to May in 2019, 2020 and 2021. The density of Pst urediniospores from February to April was linearly related to the total precipitation of 25 days prior to the final day of a 7-day trapping period. There was a significant positive correlation between the disease index of wheat stripe rust and the cumulative urediniospore density 2–4 weeks before the investigation date of wheat stripe rust from March to May (P < 0.05). There was no significant correlation between the disease index and the cumulative urediniospore density from 1–4 weeks after the investigation date of stripe rust from March to May (P > 0.05). This study laid a foundation for the establishment of wheat stripe rust prediction model based on urediniospore density and meteorological factors.

查看原文本刊更多论文

中国襄阳小麦条锈病条斑赤霉病菌(Puccinia striiformis f. sp. tritici urediniospore)的动态及其与小麦条锈病流行的相关性

条锈病是小麦的主要病害之一，严重威胁着全世界的小麦生产和粮食安全。地处鄂西北的襄阳是条锈病菌（Pst）冬季传播和春季流行的主要区域之一，可为华东和东北主要小麦种植区提供楔形孢子。了解 Pst urediniospore 的动态对预测华东和东北地区小麦条锈病的流行和控制小麦条锈病的流行具有重要意义。本研究采用孢子捕获器和TaqMan实时定量PCR（TaqMan-qPCR）检测系统对襄阳地区2018年12月至2022年12月的Pst urediniospore进行监测。收集了气温、相对湿度、日照时间和降雨量等天气变量，以明确与空气中脲原体密度的关系。此外，还分析了小麦条锈病发病指数与空气中脲原体孢子密度的关系。结果表明，空气中一年四季都能捕捉到 Pst 苺里尼孢子。除 2022 年外，从多到少的顺序依次为 4 月至 6 月、10 月至 12 月、1 月至 3 月、7 月至 9 月。2019年、2020年和2021年的4月至5月，当气温为10-22 °C，相对湿度为70%∼85%时，荨麻孢子密度达到峰值。2 月至 4 月的 Pst urediniospores 密度与 7 天诱捕期最后一天前 25 天的总降水量呈线性关系。3 月至 5 月，小麦条锈病发病指数与小麦条锈病调查日期前 2-4 周的累积脲原体孢子密度之间存在明显的正相关（P < 0.05）。3-5月小麦条锈病调查日后1-4周，病害指数与脲原双孢子累积密度无明显相关性（P> 0.05）。该研究为建立基于玷污双孢子密度和气象因子的小麦条锈病预测模型奠定了基础。

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来源期刊

Crop Protection 农林科学-农艺学

CiteScore

6.10

自引率

3.60%

发文量

200

审稿时长

29 days

期刊介绍： The Editors of Crop Protection especially welcome papers describing an interdisciplinary approach showing how different control strategies can be integrated into practical pest management programs, covering high and low input agricultural systems worldwide. Crop Protection particularly emphasizes the practical aspects of control in the field and for protected crops, and includes work which may lead in the near future to more effective control. The journal does not duplicate the many existing excellent biological science journals, which deal mainly with the more fundamental aspects of plant pathology, applied zoology and weed science. Crop Protection covers all practical aspects of pest, disease and weed control, including the following topics: -Abiotic damage- Agronomic control methods- Assessment of pest and disease damage- Molecular methods for the detection and assessment of pests and diseases- Biological control- Biorational pesticides- Control of animal pests of world crops- Control of diseases of crop plants caused by microorganisms- Control of weeds and integrated management- Economic considerations- Effects of plant growth regulators- Environmental benefits of reduced pesticide use- Environmental effects of pesticides- Epidemiology of pests and diseases in relation to control- GM Crops, and genetic engineering applications- Importance and control of postharvest crop losses- Integrated control- Interrelationships and compatibility among different control strategies- Invasive species as they relate to implications for crop protection- Pesticide application methods- Pest management- Phytobiomes for pest and disease control- Resistance management- Sampling and monitoring schemes for diseases, nematodes, pests and weeds.