Analysis of Occurrence Mechanism of Apple Rot Disease in Longdong and Establishment of Forecast Model

doi:10.11923/j.issn.2095-4050.cjas2024-0138

Abstract

Abstract:

This study selected the meteorological observation data of Ningxian County, which is the largest and most representative apple planting area in Longdong from 2011 to 2023, and the apple rot disease data of Ningxian Agricultural Technology Extension Centertoanalyze the occurrence mechanism of apple rot disease in Longdongusing statistical and correlation analysis methods. The results showed that apple rot disease of the most severe impact on production occurred in spring, starting in late March, with the highest incidence from April to May and a significant decrease in June; the interannual variation showed that 2011-2013 was the period with a high incidence of apple rot disease and an increasing trend year by year. The occurrence area of apple rot disease showed a decreasing trend from 2014 to 2019, 2018 was the lowest value in 13 years, 2020 was the year of apple rot disease outbreak, and the incidence area of apple rot disease gradually decreased from 2021 to 2023; the average temperature during the flowering period had a positive impact on rot disease, while during the swelling period, it had a negative impact; the highest temperature during the fruit enlargement period had a negative impact on rot disease; the lowest temperature at each stage had a negative impact on rot disease; the average relative humidity had a negative impact during the flowering period and a positive impact during the fruit enlargement period. The impact of precipitation on rot disease was mainly manifested in a positive impact during the fruit enlargement period; wind speed and sunlight had a positive impact during the flowering period and a negative impact during the fruit enlargement period; a regression model was established for the high incidence period in spring based on significant meteorological factors, and the established regression model was tested. The fitted values were consistent with the measured results, indicating that the established prediction model can be applied to the prediction of rot disease. This study is of great significance for improving the output value of Longdong fruit industry and promoting rural economic revitalization.

Key words: apple rots disease, meteorological factors, correlation analysis, multiple linear regression model, model validation

ZHANG Hongfen, QIU Ninggang, LI Xiangke. Analysis of Occurrence Mechanism of Apple Rot Disease in Longdong and Establishment of Forecast Model[J]. Journal of Agriculture, 2025, 15(10): 70-74.

Figures/Tables 3

References 20

[1]	李保华, 王彩霞, 董向丽. 我国苹果主要病害研究进展与病害防治中的问题[J]. 植物保护, 2013, 39(5):46-54.
[2]	胡清玉, 胡同乐, 王亚南, 等. 中国苹果病害发生与分布现状调查[J]. 植物保护, 2016, 42(1):175-179.
[3]	朱兆坤, 张改芬. 苹果树常见病虫害的绿色防治措施[J]. 南方农机, 2024, 55(16):71-74.
[4]	胡志刚. 关于北方地区苹果树常见病虫害的发生及防治探讨[J]. 河南农业, 2022(29):13-15.
[5]	石文静, 李金章, 刘建平, 等. 庆阳苹果褐斑病发生规律与监测预报研究[J]. 农业科技与信息, 2020(2):77-80,89.
[6]	石文静, 李金章. 庆阳苹果绣线菊蚜发生规律与监测预报技术研究[J]. 广东蚕业, 2022, 56(9):39-42.
[7]	李金章. 庆阳苹果主要病虫害发生防治现状与绿色防控对策[J]. 甘肃农业, 2018(19):20-22.
[8]	石文静, 李金章, 刘建平, 等. 庆阳苹果桃小食心虫发生规律与监测预报研究[J]. 农业科技与信息, 2019(24):88-91,95.
[9]	李金章, 王建民, 白欣可, 等. 庆阳苹果主要病虫害发生防治现状与对策[J]. 安徽农业科学, 2018, 46(15):134-137.
[10]	高克祥, 刘晓光. 苹果树腐烂病研究概况[J]. 河北林学院学报, 1995(1):87-91.
[11]	曹克强, 国立耘, 李保华, 等. 中国苹果树腐烂病发生和防治情况调查[J]. 植物保护, 2009, 35(2):114-117.
[12]	李春霞, 李宏飞, 王莉, 等. 延安市苹果主要病虫害种类及发生规律调查[J]. 果农之友, 2024(7):84-88.
[13]	王卫雄, 徐秉良, 薛应钰, 等. 苹果树腐烂病拮抗细菌鉴定及其抑菌作用效果测定[J]. 中国生态农业学报, 2014, 22(10):1214-1221.
[14]	郭晓峰, 徐秉良, 韩健, 等. 5种化学药剂对苹果树腐烂病室内防效评价[J]. 中国农学通报, 2015, 31(18):285-290. doi: 10.11924/j.issn.1000-6850.casb15020078
[15]	于西芸, 马艳君. 生物有机肥对苹果腐烂病的影响研究[J]. 中国果菜, 2022, 42(6):56-59.
[16]	玄志友. 生物有机肥预防苹果腐烂病[J]. 中国果业信息, 2022, 39(8):57.
[17]	郭向景. 苹果腐烂病发生严重的原因及防治策略探析[J]. 果农之友, 2023(2):48-50.
[18]	王捷. 苹果腐烂病生防芽孢杆菌的筛选鉴定及其防治效果初探[D]. 杨凌: 西北农林科技大学, 2022.
[19]	任亚丽, 张虎成, 陈晓文. 通渭县苹果腐烂病严重发生的原因及防治对策[J]. 农技服务, 2021, 38(3):67-68.
[20]	刘兴禄, 牛军强, 董铁, 等. 修剪时期对陇东‘富士’苹果光合效率及腐烂病发生的影响[J]. 林业科技通讯, 2021(1):72-74.

	平均气温		最高气温		最低气温		平均相对湿度		降水量			平均风速	最大风速	日照时数
3上	—		—		—		—		—			0.456	—	—
3中	—		—		—		-0.463		—			—	—	—
4下	—		—		-0.592**		-0.730***		—			—	—	0.646***
5上	0.616**		—		—		—		—			—	—	—
5中	—		—		—		—		—			—	0.639**	—
6中	—		—		—		—		0.701***			—	—	—
7上	—		—		—		—		—			-0.496	—	—
7中	-0.712 ***		-0.542 *		-0.559*		—		—			-0.490	—	—
7下		-0.523*		-0.569 *		—		—		—	-0.491		—		-0.569*
8上		-0.621**		-0.681***		—		—		—	-0.508		—		-0.532*
8中		-0.509		-0.569 *		—		0.590*		0.597 **	-0.536*		—		-0.542 *
8下		—		—		—		—		—	-0.443		—		—
9上		—		—		-0.443		—		—	-0.556*		-0.638**		—
9中		—		—		—		—		—	-0.557*		—		—
9下		—		-0.508		—		—		—	-0.538 *		—		—
10上		—		—		—		—		—	-0.548 *		-0.488		—
10中		—		—		—		—		—	-0.483		—		—
10下		—		—		—		—		—	-0.565*		—		—

	平均气温		最高气温		最低气温		平均相对湿度		降水量			平均风速	最大风速	日照时数
3上	—		—		—		—		—			0.456	—	—
3中	—		—		—		-0.463		—			—	—	—
4下	—		—		-0.592**		-0.730***		—			—	—	0.646***
5上	0.616**		—		—		—		—			—	—	—
5中	—		—		—		—		—			—	0.639**	—
6中	—		—		—		—		0.701***			—	—	—
7上	—		—		—		—		—			-0.496	—	—
7中	-0.712 ***		-0.542 *		-0.559*		—		—			-0.490	—	—
7下		-0.523*		-0.569 *		—		—		—	-0.491		—		-0.569*
8上		-0.621**		-0.681***		—		—		—	-0.508		—		-0.532*
8中		-0.509		-0.569 *		—		0.590*		0.597 **	-0.536*		—		-0.542 *
8下		—		—		—		—		—	-0.443		—		—
9上		—		—		-0.443		—		—	-0.556*		-0.638**		—
9中		—		—		—		—		—	-0.557*		—		—
9下		—		-0.508		—		—		—	-0.538 *		—		—
10上		—		—		—		—		—	-0.548 *		-0.488		—
10中		—		—		—		—		—	-0.483		—		—
10下		—		—		—		—		—	-0.565*		—		—