甜菜硬根腐病的全球分布、鉴定、致病机理和先进管理策略

IF 1.8 3区 农林科学 Q2 AGRONOMY Sugar Tech Pub Date : 2024-08-23 DOI:10.1007/s12355-024-01478-x
Varucha Misra, A. K. Mall
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引用次数: 0

摘要

由真菌 Sclerotium rolfsii 引起的硬根腐病给甜菜种植带来了巨大挑战,尤其是在热带和气候温暖的地区,因为那里的高温有利于病原体的扩散。这种病害流行于全球南部地区,那里的最佳条件使真菌能够迅速产生白色棉状菌丝和硬菌丝。这些硬孢菌丝可随风或在农业活动中散播,融入土壤剖面,使病害管理复杂化。病原体的生命周期复杂,寄主范围广泛,这加剧了管理难度。早期识别症状对有效管理至关重要,这就强调了对先进诊断技术的需求。本研究重点介绍了管理硬根腐病的最新进展,重点是生物技术创新和精准农业方法。CRISPR/Cas 基因编辑、人工智能、卫星农业和增强现实等技术为疾病控制提供了前景广阔的解决方案。CRISPR/Cas 技术可提供精确的基因修饰,增强甜菜的抗病性。人工智能和卫星农业可进行实时监测和预测分析,以便及早发现和管理病害。增强现实工具通过身临其境的互动平台促进农民教育和决策。这些先进技术的集成提供了一种防治硬根病的综合方法,可确保受影响地区甜菜的可持续生产。这项研究强调了利用尖端创新技术解决农业病原体管理复杂问题的重要性。
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Global Distribution, Identification, Pathogenesis, and Advanced Management Strategies for Sclerotium Root Rot in Sugar beet

Sclerotium root rot, caused by the fungus Sclerotium rolfsii, presents a significant challenge to sugar beet cultivation, particularly in tropical and warmer climates where high temperatures favor pathogen proliferation. This disease is prevalent in southern regions globally, where optimal conditions enable the fungus to produce white cottony mycelium and sclerotia rapidly. These sclerotia can be dispersed by wind or during agricultural activities, integrating into the soil profile and complicating disease management. The pathogen’s complex life cycle and broad host range exacerbate management difficulties. Early identification of symptoms is crucial for effective management, emphasizing the need for advanced diagnostic techniques. This study highlights recent advancements in managing Sclerotium root rot, focusing on biotechnological innovations and precision agriculture methods. Techniques such as CRISPR/Cas gene editing, artificial intelligence, satellite farming, and augmented reality offer promising solutions for disease control. CRISPR/Cas technology provides precise genetic modifications to enhance disease resistance in sugar beets. Artificial intelligence and satellite farming enable real-time monitoring and predictive analytics for early detection and management of the disease. Augmented reality tools facilitate farmer education and decision-making through immersive and interactive platforms. The integration of these advanced technologies presents a comprehensive approach to combating Sclerotium root rot, ensuring sustainable sugar beet production in affected regions. This study underscores the importance of leveraging cutting-edge innovations to address the complexities of pathogen management in agriculture.

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来源期刊
Sugar Tech
Sugar Tech AGRONOMY-
CiteScore
3.90
自引率
21.10%
发文量
145
期刊介绍: The journal Sugar Tech is planned with every aim and objectives to provide a high-profile and updated research publications, comments and reviews on the most innovative, original and rigorous development in agriculture technologies for better crop improvement and production of sugar crops (sugarcane, sugar beet, sweet sorghum, Stevia, palm sugar, etc), sugar processing, bioethanol production, bioenergy, value addition and by-products. Inter-disciplinary studies of fundamental problems on the subjects are also given high priority. Thus, in addition to its full length and short papers on original research, the journal also covers regular feature articles, reviews, comments, scientific correspondence, etc.
期刊最新文献
Current Status and Prospects of the Global Sugar Beet Industry Sugar Beet Special Issue: Biotechnology and Breeding Techniques for Stress-Resistant Sugar Beet Genome-Wide Identification of the BvHSFs Gene Family and Their Expression in Sugar Beet (Beta vulgaris L.) Under Salt Stress Effects of Different Irrigation and Fertilization Levels on the Yield and Quality of Wet Sugar Beet Pulp Used as Animal Feed Arbuscular Mycorrhizal Fungi Enhance Tolerance to Drought Stress by Altering the Physiological and Biochemical Characteristics of Sugar Beet
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