首页|期刊导航|广东农业科学|广东梅州产区柑橘黄龙病时间流行动态及预测模型研究

广东梅州产区柑橘黄龙病时间流行动态及预测模型研究OA

Predictive Modeling of Citrus Huanglongbing Temporal Dynamics in Meizhou,Guangdong

中文摘要英文摘要

[目的]分析柑橘黄龙病在梅州产区的流行趋势,构建并筛选时间流行动态预测模型;获悉灾情的流行时期,为梅州产区柑橘黄龙病的精确防控提供理论依据与技术支持.[方法]采用植物病害流行学研究方法、结合实时荧光定量PCR(qPCR)检测技术,对梅州产区柑橘黄龙病的发生和流行动态进行系统调查监测,统计发病率和病情指数;采用Logistic、Linear、Cubic、Gompertz和Exponential等5种数学模型对柑橘黄龙病的实测数据进行拟合,构建并筛选出最佳的病害流行时间动态预测模型,推导病害流行时期.[结果]监测期间,校正后病情指数由12.5增加至68.5,表明柑橘黄龙病在该监测点呈现快速增长态势.Logistic模型(R2=0.987)与Cubic模型(R2=0.994)对病害动态的拟合效果最优.Logistic模型拐点时间(73.8 d)与田间木虱扩散高峰期一致,具有明确的生物学意义.基于qPCR检测的Ct值与病情指数呈显著负相关性(r=-0.82),提出1级(Ct=30.4~31.5)、3级(Ct=26.8~29.0)、5级(Ct=22.9~24.6)及7级(Ct=20.0~21.6)的病情分类阈值.[结论]适用于梅州产区柑橘黄龙病时间动态预测的数学模型为Logistic模型与Cubic模型,推荐Logistic模型作为核心预测工具,辅以Cubic模型进行短期趋势分析.基于qPCR检测与病情指数相关性提出的病情分级标准,可为病害早期诊断提供量化依据.

[Objective]This study aimed to analyze the epidemic trend of citrus Huanglongbing(HLB)in Meizhou production area,construct and screen temporal dynamic prediction models,identify key epidemic periods,and provide a theoretical basis and technical support for precise HLB management in this region.[Method]Plant disease epidemiology methods were combined with real-time quantitative PCR(qPCR)to systematically investigate and monitor the occurrence and progression of HLB in Meizhou area.Disease incidence and severity index were statistically analyzed.Five mathematical models including Logistic,Linear,Cubic,Gompertz,and Exponential were employed to fit the field observation data,and the optimal temporal dynamic prediction model was selected to identify the epidemic phases.[Result]During the monitoring period,the disease index rose from 12.5 to 68.5,indicating a rapid increase trend of HLB at the monitored site.The Logistic model(R2=0.987)and the Cubic model(R2=0.994)provided the best fit for the disease progression data.The inflection point of the Logistic model(73.8 d)coincided with the peak period of psyllid dispersal in the field,demonstrating clear biological relevance.Based on a significant negative correlation(r=-0.82)between qPCR-derived Ct values and the disease index,classification thresholds for disease severity were proposed:Level 1(Ct=30.4-31.5),Level 3(Ct=26.8-29.0),Level 5(Ct=22.9-24.6),and Level 7(Ct=20.0-21.6).[Conclusion]The Logistic model and the Cubic model are suitable for predicting the temporal dynamics of HLB in Meizhou production area.The Logistic model is recommended as the core forecasting tool,supplemented by the Cubic model for short-term trend analysis.The disease severity classification standard established based on the correlation between qPCR detection and the disease index provides a quantitative basis for early disease diagnosis.

孙嘉曼;罗舒仪;池庆豪;张进忠;罗海华;刘志伟

嘉应学院生命科学学院/广东省山区特色农业资源保护与精准利用重点实验室,广东梅州 514015嘉应学院生命科学学院/广东省山区特色农业资源保护与精准利用重点实验室,广东梅州 514015嘉应学院生命科学学院/广东省山区特色农业资源保护与精准利用重点实验室,广东梅州 514015广州市农业农村科学院,广东 广州 510335嘉应学院生命科学学院/广东省山区特色农业资源保护与精准利用重点实验室,广东梅州 514015嘉应学院生命科学学院/广东省山区特色农业资源保护与精准利用重点实验室,广东梅州 514015

农业科技

柑橘黄龙病病害流行病原菌检测实时荧光定量PCR模型构建

citrus Huanglongbingdisease epidemiologypathogen detectionquantitative real-time PCR(qPCR)model construction

《广东农业科学》 2026 (3)

76-84,9

广东省自然科学基金(2023A1515012735)广东省普通高校特色创新类项目(2023KTSCX142)国家级大学生创新创业训练项目(202410582010)广东省创新团队项目(2023KCXTD034)

10.16768/j.issn.1004-874X.2026.03.007

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