Crops ›› 2021, Vol. 37 ›› Issue (6): 224-229.doi: 10.16035/j.issn.1001-7283.2021.06.036

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Control Effects of Different Seed Treatments on the Rice Leaf Folder under Machine-Planting Condition

Yu Julong1(), Zhang Guo1, Zhao Laicheng1, Yao Kebing1, Luo Guanghua2, Fang Jichao2, Zhang Jianhua1, Jiao Yang3, Shu Zhaolin1()   

  1. 1Zhenjiang Institute of Agricultural Sciences in Hilly Area of Jiangsu Province, Zhenjiang 212400, Jiangsu, China
    2Institute of Plant Protection, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, Jiangsu, China
    3Zhenjiang National Agricultural Science Park, Jurong 212403, Jiangsu, China
  • Received:2021-01-11 Revised:2021-02-25 Online:2021-12-15 Published:2021-12-16
  • Contact: Shu Zhaolin E-mail:yujulong@126.com;shuzl2005@163.com

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Abstract:

In order to screen suitable seed treatments for long-term control of the rice leaf folder under machine-planting condition in hilly rice area in Jiangsu province, under machine-planting condition, the leaf preservation effect and insecticidal effect of three chlorantraniliprole (CAP) seed treatments (seed soaking with CAP, dressed with CAP after soaking in water and dressed with CAP directly) were compared. Combined with the moth-driving data, the occurrence of the rice leaf folder was analyzed. The results showed that three seed treatment methods had certain control effects on the rice leaf folder. Under the same dosage conditions, the leaf protection effect on rice and the insecticidal effect to rice leaf folder were dry mixing treatment ≥ wet mixing treatment > seed soaking treatment. When the third generation rice leaf folder was mild to moderate occurrence and the fourth was moderately severe occurrence in Jiangsu province, we used effective dosage of CAP 2.0g/kg under soaking treatment, or 1.0g/kg seeds under dry and wet mixing treatments could achieve more than 90% leaf protection and insecticidal effects, which could last more than 111 days. Combining pesticide utilization and cost factors, seed soaked with water after treated with CAP or seed treated with CAP directly can be used to prevent the early occurrence of lighter and moderately heavy occurrence of rice leaf folder in hilly areas of Jiangsu, which can effectively reduce the white leaf rate and the number of insects in the field, and reduce the frequency of control of the rice leaf folder.

Key words: Seed treatment, Rice leaf folder, The amount of occurrence, Chlorantraniliprole, Control effect

Fig.1

Daily population dynamics of rice leaf folder in control fields from July to September in 2018"

Table 1

The leaf protection effects of different seed treatments on rice after 87 days %"

CAP有效用量
Effective
dosage of
CAP (g/kg)		 浸种
Seeds soaked with CAP		 湿拌
Seed dressing with CAP after
soaking in water		 干拌
Dry seed dressing with CAP
白叶率
Rate of white leaf		 保叶效果
Leaf protection effect		 白叶率
Rate of white leaf		 保叶效果
Leaf protection effect		 白叶率
Rate of white leaf		 保叶效果
Leaf protection effect
1.0 1.49±0.33 51.07±10.99bB 0.10±0.02 95.50±1.12aA 0.10±0.02 93.63±1.45aA
1.5 0.68±0.12 77.71±3.87bA 0.07±0.00 96.68±0.12aA 0.04±0.02 97.49±1.25aA
2.0 0.36±0.07 88.23±2.44aA 0.13±0.08 93.76±3.52aA 0.14±0.03 90.83±1.92aA
2.5 0.23±0.09 92.34±2.90aA 0.07±0.04 96.76±1.92aA 0.12±0.05 92.58±2.88aA
0.0(CK) 3.04±0.22 2.13±0.57 1.58±0.17

Table 2

The insecticidal effects of different seed treatments on rice leaf folder after 87 days"

CAP有效用量
Effective
dosage of
CAP (g/kg)		 浸种
Seeds soaked with CAP		 湿拌
Seed dressing with CAP
after soaking in water		 干拌
Dry seed dressing with CAP
百穴活虫数
Number of insects per
hundred holes of rice		 杀虫效果
Insecticidal
effect (%)		 百穴活虫数
Number of insects per
hundred holes of rice		 杀虫效果
Insecticidal
effect (%)		 百穴活虫数
Number of insects per
hundred holes of rice		 杀虫效果
Insecticidal
effect (%)
1.0 30.00±5.00 21.74±13.04bB 3.33±1.67 92.59±3.70aA 3.33±1.67 86.67±6.67aB
1.5 8.33±3.33 78.26±8.70bA 1.67±1.67 96.30±3.70abA 0 100.00aA
2.0 1.67±1.67 95.65±4.35aA 1.67±1.67 96.20±3.70aA 0 100.00aA
2.5 0 100.00aA 0 100.00aA 0 100.00aA
0.0(CK) 38.33±7.26 45.00±13.23 25.00±5.77

Table 3

The leaf protection effects of different seed treatments on rice after 111 days %"

CAP有效用量
Effective
dosage of
CAP (g/kg)		 浸种
Seeds soaked with CAP		 湿拌
Seed dressing with CAP
after soaking in water		 干拌
Dry seed dressing with CAP
白叶率
Rate of white leaf		 保叶效果
Leaf protection effect		 白叶率
Rate of white leaf		 保叶效果
Leaf protection effect		 白叶率
Rate of white leaf		 保叶效果
Leaf protection effect
1.0 1.59±0.34 52.40±10.14bB 0.16±0.01 93.14±0.51aA 0.12±0.09 94.31±4.08aA
1.5 0.41±0.11 87.78±3.31aA 0.12±0.06 95.11±2.67aA 0.10±0.02 95.14±0.80aA
2.0 0.22±0.09 93.36±2.68aA 0.07±0.04 97.28±1.56aA 0.06±0.04 97.09±0.18aA
2.5 0.18±0.07 94.49±2.24aA 0.07±0.04 97.12±1.71aA 0.02±0.02 98.85±1.15aA
0.0(CK) 3.34±0.15 2.40±0.22 2.10±0.38

Table 4

The insecticidal effects of different seed treatments on rice leaf folder after 111 days"

CAP有效用量
Effective
dosage of
CAP (g/kg)		 浸种
Seeds soaked with CAP		 湿拌
Seed dressing with CAP
after soaking in water		 干拌
Dry seed dressing with CAP
百穴活虫数
Number of insects per
hundred holes of rice		 杀虫效果
Insecticidal
effect (%)		 百穴活虫数
Number of insects per
hundred holes of rice		 杀虫效果
Insecticidal
effect (%)		 百穴活虫数
Number of insects per
hundred holes of rice		 杀虫效果
Insecticidal
effect (%)
1.0 35.00±8.66 32.26±16.76bB 5.00±2.89 91.43±4.95aA 3.33±1.67 94.44±2.78aA
1.5 10.00±7.64 80.65±14.78aA 1.67±1.67 91.14±2.86aA 1.67±1.67 97.22±2.78aA
2.0 1.67±1.67 96.77±3.23aA 1.67±1.67 91.14±2.86aA 0 100.00aA
2.5 1.67±1.67 96.77±3.23aA 0 100.00aA 0 100.00aA
0.0(CK) 51.67±4.41 58.33±10.14 60.00±17.56
[1] 张孝羲, 周威君, 耿济国, 等. 稻纵卷叶螟成虫迁飞与能源物质的研究. 植物保护学报, 1983, 10(8):153-159.
[2] Kawazu K, Shintani Y, Tatsuki S. Effect of multiple mating on the reproductive performance of the rice leaffolder moth,Cnaphalocrocis medinalis (Lepidoptera:Crambidae). Applied Entomology and Zoology, 2014, 49(4):519-524.
doi: 10.1007/s13355-014-0279-6
[3] 郑雪松, 赖添财, 时立波, 等. 双酰胺类杀虫剂应用现状. 农药, 2012, 51(8):554-557.
[4] 刘芳, 奚本贵, 包善微, 等. 氯虫苯甲酰胺对稻纵卷叶螟的防效及对稻田有益节肢动物的安全性评价. 植物保护, 2009, 35(5):139-143.
[5] 张国, 于居龙, 束兆林, 等. 10%三氟苯嘧啶SC拌种水稻对稻飞虱的防效及安全性评价. 南方农业学报, 2019, 50(12):2695-2702.
[6] 于居龙, 张国, 缪康, 等. 种子处理防治稻纵卷叶螟药剂筛选及效果. 植物保护, 2020, 46(1):270-275.
[7] 杨红福, 姚克兵, 束兆林, 等. 噻呋酰胺处理种子防治水稻纹枯病试验研究. 江苏农业科学, 2020, 48(5):107-109.
[8] 龙俊江, 宋锦, 赵世浩. 入田280FS种子处理悬浮剂对水稻稻瘟病的防治效果试验. 南方农业, 2019, 13(17):19-21.
[9] 于居龙, 张国, 缪康, 等. 氯虫苯甲酰胺拌种对稻纵卷叶螟的防治效果及安全性评价. 农药学学报, 2019, 21(3):300-308.
[10] 王亚梁, 朱德峰, 向镜, 等. 杂交稻低播量精量播种育秧及机插取秧特性. 中国水稻科学, 2020, 34(4):332-338.
[11] 陈惠哲, 徐一成, 张玉屏, 等. 超级早稻钵形毯状秧苗机插效果及产量形成. 中国农业科学, 2019, 52(23):4240-4250.
[12] 俞法明, 朱国富, 杨曙东, 等. 不同种子处理方式对机械穴直播水稻生长和产量的影响. 农业科技通讯, 2019(1):157-159.
[13] 姜心禄, 杨永波, 付明全, 等. 不同直播方式下种子处理方式对直播稻出苗和产量的影响. 中国稻米, 2017, 23(4):111-114.
[14] 杨红福, 束兆林, 姚克兵, 等. 水稻黑点米形成原因初步研究. 植物保护, 2016, 42(2):218-219.
[15] 靳怀峰. 2种种衣剂水稻包衣苗床干籽播种对水稻的影响. 现代农业科技, 2017(21):113-114.
[16] 曹方元, 仇广灿, 胡健, 等. 丙草胺对干籽直播稻安全性的研究. 杂草科学, 2010, 1(6):20-23.
[17] 胡晓斌, 张斗亮. 稻纵卷叶螟测报工作中“赶蛾”方法的改进. 植物保护, 1993, 19(2):42.
[18] 全国农业技术推广服务中心. 稻纵卷叶螟测报技术规范:GB/T 15793-2011. 北京: 中国标准出版社, 2011.
[19] Lanka S K, Ottea J A, Beuzelin J M, et al. Effects of chlorantraniliprole and thiamethoxam rice seed treatments on egg numbers and first instar survival of Lissorhoptrus oryzophilus (Coleoptera:Curculionidae). Journal of Economic Entomology, 2013, 106(1):181-188.
pmid: 23448030
[20] Hamm J, Lanka S, Stout M. Influence of rice seeding rate on efficacies of neonicotinoid and anthranilic diamide seed treatments against rice water weevil. Insects, 2014, 5(4):961-973.
doi: 10.3390/insects5040961
[21] Adamski Z, Machalska K, Chorostkowska K, et al. Effects of sublethal concentrations of fenitrothion on beet armyworm (Lepidoptera:Noctuidae) development and reproduction. Pesticide Biochemistry and Physiology, 2009, 94(2/3):73-78.
doi: 10.1016/j.pestbp.2009.04.005
[22] 翟保平. 从IPM到EPM:水稻有害生物治理的中国路径. 植物保护学报, 2017, 44(6):881-884.
[23] 冯波, 郭前爽, 朱凤, 等. 迁飞性害虫稻纵卷叶螟成虫的卵巢发育与性诱剂诱捕. 昆虫学报, 2017, 60(2):211-221.
[24] 陈小军, 费春, 樊丽萍, 等. 氯虫苯甲酰胺在大豆植株中的内吸传导特性. 中国农业科学, 2011, 44(11):2276-2283.
[25] 张玉屏, 朱德峰. 浸种时间和温度对不同类型水稻品种种子吸水与萌发的影响. 中国农学通报, 2002, 18(5):25-26.
[26] 于居龙, 周泳凯, 顾浩天, 等. 氯虫苯甲酰胺拌种处理对不同生育期水稻生化物质的影响. 江苏农业学报, 2019, 35(2):55-60.
[27] 胡荣利, 徐蕾, 周福才, 等. 沿江稻区第4代稻纵卷叶螟的成灾机制. 植物保护学报, 2005, 32(4):392-396.
[28] 韩志民, 张蕾, 潘攀, 等. 2010年仪征市稻纵卷叶螟第三、四代发生动态及虫源性质. 植物保护, 2012, 38(3):44-49.
[29] 赵越. 江都地区稻纵卷叶螟发生动态及绿色防控技术研究. 扬州:扬州大学.
[30] 朱友理, 何东兵, 曹书培, 等. 6种药剂在大发生年份对稻纵卷叶螟的田间防效. 农业装备技术, 2018(4):41-44.
[31] 沈彩云, 卢兆成. 稻纵卷叶螟为害的产量损失与防治指标. 昆虫学报, 1984(4):384-391.
[32] 朱友理, 何东兵, 曹书培, 等. 拔节孕穗期稻纵卷叶螟危害对水稻产量的影响及防治指标研究. 现代农业科技, 2018(21):111,114.
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