Scientia Agricultura Sinica ›› 2021, Vol. 54 ›› Issue (2): 324-333.doi: 10.3864/j.issn.0578-1752.2021.02.008

• PLANT PROTECTION • Previous Articles     Next Articles

Effects of Four Insecticides LC25 on Feeding Behavior of Q-Type Bemisia tabaci Adults

HE YunChuan(),WANG XinPu(),HONG Bo,ZHANG TingTing,ZHOU XueFei,JIA YanXia   

  1. School of Agriculture, Ningxia University, Yinchuan 750021
  • Received:2020-04-20 Accepted:2020-05-12 Online:2021-01-16 Published:2021-02-03
  • Contact: XinPu WANG E-mail:m18301109328@163.com;wangxinpu@nxu.edu.cn

RichHTML

12

PDF

178

Abstract:

【Objective】The objective of this study is to investigate the effects of sub-lethal concentration imidacloprid, pymetrozine, spirotetramat, and cyantraniliprole on the feeding behavior of Q-type Bemisia tabaci adults on tomato seedlings, the feeding behaviors of insects were recorded by the thorn-suck potential technique electronic penetration graph (EPG) after treating with four insecticides LC25 for 24 h.【Method】The Q-type B. tabaci adults that were not exposed to pesticides were used as test insects, and Fenyin No.3, the main tomato variety was employed as the test plant. These plants fed by whitefly were well managed in the lab with hydroponic condition for the experiment. The sub-lethal concentration LC25 of four systemic insecticides was determined by bioassay. On this basis, 13 non-phloem and 8 phloem parameters of B. tabaci adults feeding host were monitored by EPG. Moreover, the leaf piercing suction holes were observed with microscopy. No pesticide treatment was set as control (CK).【Result】The rank of LC25 values of whitefly adult to four insecticides was cyantraniliprole>pymetrozine>imidacloprid>spirotetramat. Within 8 h monitoring of whitefly on plants, the six kinds of waveforms, including non-probing wave (np), pathway phase wave (C), potential drop wave (pd), phloem activities (waveform E: E1 and E2), and xylem activities wave (G), were occurred after the treatment of LC25 of each pesticide. The number of np wave in the cyantraniliprole treatment was largest in all treatments, followed by the spirotetramat treatment. There was no significant difference between the two above pesticides (P>0.05), but was significantly higher than that in CK and imidacloprid treatments (P<0.05). The total duration of C wave and G wave was longest in CK treatment and shortest in cyantraniliprole treatment, and there was significant difference between the two treatments (P<0.05). The total duration of pd wave was longest in CK treatment and shortest in spirotetramat, there was significant difference between the two treatments (P<0.05). The total duration of F wave was longest in spirotetramat and shortest in imidacloprid, and there was significant difference between the two treatments (P<0.05). The total duration of E1 wave and E2 wave was 20.52 and 50.60 min on the phloem of the CK treatment, respectively. There was significant difference with treatments of imidacloprid and cyantraniliprole in the two indicators (P<0.05). However, there was no significant difference with pymetrozine and spirotetramat treatments in the total duration of E1 wave indicator (P>0.05).【Conclusion】The refusal effects on the feeding behavior of Q-type B. tabaci adults have been found by four insecticides with LC25 treatments. It provides a theoretical basis for the feeding refusal mechanism study of the sub-lethal effects of B. tabaci and piercing-sucking mouthparts pests on the four pesticides and pest control.

Key words: Q-type Bemisia tabaci, systemic insecticide, sub-lethal concentration, feeding behavior, electrical penetration graph (EPG)

Table 1

Toxicity of four insecticides to Q-type B. tabaci adults"

杀虫剂
Insecticide		 斜率±标准误
Slope±SE		 LC25 95%置信区间
95% CI (mg·L-1)		 LC50 95%置信区间
95% CI (mg·L-1)		 卡方值
χ2 value		 相关系数
Correlation coefficient (r)		 P
P value
吡虫啉Imidacloprid 1.3883±0.1079 14.23 (11.62-17.42) 43.54 (37.37-50.74) 1.6857 0.9911 0.0010
溴氰虫酰胺Cyantraniliprole 1.0069±0.0563 27.52 (23.41-32.36) 100.46 (80.71-125.04) 0.4109 0.9953 0.0004
吡蚜酮Pymetrozine 1.1994±0.0964 24.52 (21.54-27.92) 114.67 (99.24-132.50) 1.0909 0.9905 0.0011
螺虫乙酯Spirotetramat 0.8104±0.0621 4.41 (3.11-6.25) 29.95 (23.69-37.86) 1.3893 0.9913 0.0010

Table 2

EPG parameters of B. tabaci adults feeding on non-phloem at LC25 concentrations of four insecticides (total recording time is 8 h)"

取食参数
Feeding parameter		 np波的次数
Number of np		 刺探次数
Number of probes		 第一次刺探持续时间
Duration of 1st probe (min)		 短暂刺吸 次数
Number of short probes (C<3 min)		 C波的总持续时间
Total duration of C (min)		 pd波的次数
Number of pd		 pd波的总持续时间
Total duration of pd (s)		 G波的次数
Number of G		 G波的总持续时间
Total duration of G (min)		 F波的次数
Number of F		 F波的总持续时间
Total duration of F (min)		 第一次刺探开始时间
Time to 1st probe from start of EPG (min)		 从第一次刺探开始至第一个pd波的时间
Time from the beginning of the 1st probe to 1st pd (min)
对照
Control		 90.20±14.54bc 80.27±14.02ab 13.78±0.40a 70.13±12.91bc 190.12±26.01a 36.33±13.54a 158.36±106.20a 3.47±0.73a 14.31±3.40a 8.87±3.63bc 1.12±0.25b 26.34±15.86a 97.41±34.65c
吡虫啉
Imidacloprid		 62.36±8.68c 60.37±8.65b 1.86±0.67a 46.29±7.53c 149.89±19.78ab 1.29±0.45b 5.52±2.19b 1.50±0.37b 3.55±1.95ab 0.93±0.25c 0.30±0.12c 8.46±3.13a 296.30±56.23a
吡蚜酮
Pymetrozine		 114.93±12.30ab 100.33±11.38ab 6.82±0.94a 98.40±11.65ab 112.41±13.04bc 4.33±1.21b 11.57±7.37b 1.33±1.00b 0.19±0.12b 20.20±6.19a 1.04±0.16b 8.55±3.22a 240.79±50.94ab
螺虫乙酯
Spirotetramat		 137.53±21.77a 110.87±19.84a 7.80±1.33a 115.07±21.21a 102.73±11.09bc 6.00±1.44b 4.88±1.27b 0.47±0.24b 9.94±9.37ab 24.07±3.33a 1.87±0.27a 7.44±4.04a 146.86±47.89bc
溴氰虫酰胺
Cyantraniliprole		 138.87±19.03a 120.00±17.19a 0.88±0.20a 124.27±18.74a 72.30±7.12c 7.73±1.85b 7.28±2.05b 0.27±0.18b 0.14±0.12b 17.67±2.99ab 1.50±0.26ab 12.50±6.39a 145.53±42.81bc
F值 F value 4.021 2.558 0.773 4.321 7.479 5.238 1.978 4.538 1.889 5.815 6.722 0.932 2.93
PP value 0.0055 0.0462 0.5465 0.0035 0.0001 0.001 0.1075 0.0026 0.1222 0.0004 0.0001 0.4506 0.0268

Table 3

EPG parameters of B. tabaci adults feeding on phloem at LC25 concentrations of four insecticides (total recording time is 8 h)"

取食参数
Feeding parameter		 E1波的次数
Number of E1		 E1波的总持续时间
Total duration of E1 (min)		 E1波占总的E波 的时间
Contribution of E1 to phloem phase (%)		 E2波的次数
Number of E2		 E2波的总持续时间
Total duration of E2 (min)		 第一次韧皮部持续时间
Duration of 1st E (min)		 E2波持续次数
(超过10 min)
Number of sustained E2 (longer than 10 min)		 第一次刺探至第一次到达E波的时间
Time from 1st probe to 1st E (min)
对照Control 5.73±0.75a 20.52±5.26a 26.88±6.63b 5.13±0.71a 59.60±10.72a 24.19±7.30a 1.47±0.29a 118.39±19.51b
吡虫啉Imidacloprid 3.50±0.59b 0.81±0.25c 19.92±5.34b 3.14±0.55b 5.60±2.63c 0.64±0.14b 0.14±0.1b 130.31±44.94b
吡蚜酮Pymetrozine 3.33±1.01b 15.88±3.87ab 56.48±7.09a 2.40±0.63bc 21.32±6.70bc 12.00±5.17ab 0.73±0.25b 172.99±43.22ab
螺虫乙酯Spirotetramat 2.60±0.51b 24.77±7.20a 48.39±5.43a 2.20±0.39bc 24.62±5.52b 20.18±6.22a 0.73±0.18b 142.01±38.20ab
溴氰虫酰胺Cyantraniliprole 1.60±0.43b 5.57±1.99bc 45.70±7.87a 1.53±0.38c 9.20±3.92bc 10.75±3.88ab 0.33±0.19b 252.32±49.25a
F值 F value 4.915 4.939 5.674 6.442 10.535 2.772 5.622 1.789
PP value 0.0015 0.0015 0.0006 0.0002 0.0001 0.0354 0.0006 0.1391

Fig. 1

Percentage of each EPG waveform duration to the total time of B. tabaci adults under LC25 of four insecticides"

Table 4

Number of thorn holes by B. tabaci adults in tomato leaves treated with different insecticides"

处理 Treatment 叶面积 Leaf area (mm2) 刺吸孔数(个) Number of sucking holes 刺吸孔直径 Piercing hole diameter (μm)
吡虫啉 Imidacloprid 299.71±14.18a 9.00±2.31b 76.78±8.02a
溴氰虫酰胺Cyantraniliprole 189.81±11.74c 11.00±3.79b 73.48±6.09a
吡蚜酮 Pymetrozine 270.10±24.18ab 7.67±0.88b 75.27±16.90a
螺虫乙酯 Spirotetramat 237.53±16.17bc 13.33±3.76b 72.16±12.49a
对照 Control 274.54±12.15ab 23.67±1.20a 71.78±7.06a
供试昆虫数量均为30只The number of tested insects is 30

Fig. 2

Microscopic observation of piercing holes on tomato leaves of B. tabaci adults treated with different insecticides"

[1] BIONDI A, DESNEUX N, SISCARO G, ZAPPALÀ L. Using organic-certified rather than synthetic pesticides may not be safer for biological control agents: Selectivity and side effects of 14 pesticides on the predator Orius laevigatus. Chemosphere, 2012,87(7):803-812.
doi: 10.1016/j.chemosphere.2011.12.082
[2] ZHANG P, ZHANG X F, ZHAO Y H, WEI Y, MU W, LIU F. Effects of imidacloprid and clothianidin seed treatments on wheat aphids and their natural enemies on winter wheat. Pest Management Science, 2015,72(6):1141-1149.
doi: 10.1002/ps.4090 pmid: 26248607
[3] HOROWITZ A R, ISHAAYA I. Dynamics of biotypes B and Q of the whitefly Bemisia tabaci and its impact on insecticide resistance. Pest Management Science, 2014,70(10):1568-1572.
doi: 10.1002/ps.3752 pmid: 24488629
[4] SHADMANY M, OMAR D, MUHAMAD R. Biotype and insecticide resistance status of Bemisia tabaci populations from Peninsular Malaysia. Journal of Applied Entomology, 2015,139(1/2):67-75.
[5] DESNEUX N, DECOURTYE A, DELPUECH J M. The sublethal effects of pesticides on beneficial arthropods. Annual Review of Entomology, 2007,52:81-106.
pmid: 16842032
[6] BAO H B, LIU S H, GU J H, WANG X Z, LIANG X L, LIU Z W. Sublethal effects of four insecticides on the reproduction and wing formation of brown plant hopper, Nilaparvata lugens. Pest Management Science, 2009,65(2):170-174.
pmid: 18937216
[7] GRESSL J. Low pesticide rates may hasten the evolution of resistance by increasing mutation frequencies. Pest Management Science, 2011,67(3):253-257.
pmid: 21308950
[8] KOO H N, LEE S W, YUN S H, KIM H K, KIM G H. Feeding response of the cotton aphid, Aphis gossypii, to sublethal rates of flonicamid and imidacloprid. Entomologia Experimentalis et Applicata, 2015,154(2):110-119.
[9] WANG S Y, QI Y F, DESNEUX N, SHI X Y, BIONDI A, GAO X W. Sublethal and transgenerational effects of short-term and chronic exposures to the neonicotinoid nitenpyram on the cotton aphid Aphis gossypii. Journal of Pest Science, 2017,90:389-396.
[10] QU Y Y, XIAO D, LIU J J, CHEN Z, SONG L F, DESNEUX N, BENELLI G, GAO X W, SONG D L. Sublethal and hormesis effects of beta-cypermethrin on the biology, life table parameters and reproductive potential of soybean aphid Aphis glycines. Ecotoxicology, 2017,26(7):1002-1009.
doi: 10.1007/s10646-017-1828-x pmid: 28685415
[11] 李静静, 潘建斌, 吴莉莉, 卢少华, 闫凤鸣. 我国刺吸电位技术三十年应用及创新. 应用昆虫学报, 2019,56(6):1224-1234.
LI J J, PAN J B, WU L L, LU S H, YAN F M. Three-decades of electrical penetration graph technique innovation in China. Chinese Journal of Applied Entomology, 2019,56(6):1224-1234. (in Chinese)
[12] 刘佰明, 焦晓国, 杨鑫, 杨妮娜, 张友军. 噻虫嗪对B型烟粉虱抗性种群取食行为的影响. 植物保护学报, 2016,43(1):175-176.
LIU B M, JIAO X G, YANG X, YANG N N, ZHANG Y J. Effects of resistance to thiamethoxam on the feeding behavior of Bemisia tabaci biotype B (Hemiptera: Aleyrodidae). Journal of Plant Protection, 2016,43(1):175-176. (in Chinese)
[13] 崔丽, 杨代斌, 李克斌, 曹雅忠, 袁会珠. 吡蚜酮对禾谷缢管蚜的亚致死效应. 植物保护, 2010,36(6):26-30.
CUI L, YANG D B, LI K B, CAO Y Z, YUAN H Z. Sublethal effects of pymetrozine on Rhopalosiphum padi. Plant Protection, 2010,36(6):26-30. (in Chinese)
[14] 王海鸿, 雷仲仁, 岳梅, 李硕, 纪云亮. 吡蚜酮对烟粉虱取食干扰效应的探讨. 应用昆虫学报, 2011,48(1):54-59.
WANG H H, LEI Z R, YUE M, LI S, JI Y L. Effect of pymetrozine interferes with feeding behaviour of Bemisia tabaci (Homoptera, Aleyrodidae). Chinese Journal of Applied Entomology, 2011,48(1):54-59. (in Chinese)
[15] HE Y X, ZHAO J W, ZHENG Y, WENG Q Y, BIONDI A, DESNEUX N, WU K M. Assessment of potential sublethal effects of various insecticides on key biological traits of the tobacco whitefly, Bemisia tabaci. International Journal of Biological Sciences, 2013,9(3):246-255.
pmid: 23494876
[16] WANG R, ZHENG H X, QU C, WANG Z H, KONG Z Q, LUO C. Lethal and sublethal effects of a novel cis-nitromethylene neonicotinoid insecticide, cycloxaprid, on Bemisia tabaci. Crop Protection, 2016,83:15-19.
[17] FANG Y, WANG J D, LUO C, WANG R. Lethal and sublethal effects of clothianidin on the development and reproduction of Bemisia tabaci (Hemiptera: Aleyrodidae) MED and MEAM1. Journal of Insect Science, 2018,18(2):37.
[18] WANG R, ZHANG W, CHE W N, QU C, LI F Q, DESNEUX N, LUO C. Lethal and sublethal effects of cyantraniliprole, a new anthranilic diamide insecticide, on Bemisia tabaci (Hemiptera: Aleyrodidae) MED. Crop Protection, 2017,91:108-113.
[19] QU C, ZHANG W, LI F Q, TETREAU G, LUO C, WANG R. Lethal and sublethal effects of dinotefuran on two invasive whiteflies, Bemisia tabaci(Hemiptera: Aleyrodidae). Journal of Asia-Pacific Entomology, 2017,20(2):325-330.
[20] 李小凤, 田虎, 张金良, 张桂芬, 陈苗苗, 万方浩. 基于COI基因5′端与3′端序列田间常见粉虱的分子鉴定. 昆虫学报, 2014,57(4):466-476.
LI X F, TIAN H, ZHANG J L, ZHANG G F, CHEN M M, WAN F H. Identification of common whitefly species (Hemiptera: Aleyrodidae) in China based on the 5′- and 3′-end sequences of the COI gene. Acta Entomologica Sinica, 2014,57(4):466-476. (in Chinese)
[21] 何云川, 宋鲜梅, 李楠, 王新谱, 辛明, 贾彦霞. 供氮水平对番茄苗期Q型烟粉虱成虫种群动态的影响. 生态学杂志, 2020,39(4):1222-1230.
HE Y C, SONG X M, LI N, WANG X P, XIN M, JIA Y X. Effects of nitrogen level on population dynamics of adult Q-type Bemisia tabaci from tomato seedlings. Chinese Journal of Ecology, 2020,39(4):1222-1230. (in Chinese)
[22] KILINC S S, ERTAN E, SEFEROGLU S. Effects of different nutrient solution formulations on morphological and biochemical characteristics of nursery fig trees grown in substrate culture. Scientia Horticulturae, 2007,113(1):20-27.
[23] 李洁, 褚栋, 丁天波, 潘雪莲. 一种烟粉虱饲养与生物学观察装置: CN207355278U[P]. (2018-05-15) [2020-04-20].
LI J, CHU D, DING T B, PAN X L. Bemisia tabaci feeding and biological observation device: CN207355278U[P]. (2018-05-15) [2020-04-20]. (in Chinese)
[24] 谢兆森, 杜鸿儒, 李建宝, BONDADA B. 组织透明法观察葡萄叶片生长过程中气孔与叶脉形态结构特征变化. 植物生理学报, 2018,54(2):237-246.
XIE Z S, DU H R, LI J B, BONDADA B. Morphological and structural changes of stomata and leaf veins during growth of grape leaves using tissue clearing technique. Plant Physiology Journal, 2018,54(2):237-246. (in Chinese)
[25] JIANG Y X, LEI H, COLLAR J L, MARTIN B, MUÑIZ M, FERERES A. Probing and feeding behavior of two distinct biotypes of Bemisia tabaci (Homoptera: Aleyrodidae) on tomato plants. Journal of Economic Entomology, 1999,92(2):357-366.
[26] CIVOLANI S, CASSANELLI S, CHICCA M, RISON J L, BASSI A, ALVAREZ J M, ANNAN I B, PARRELLA G, GIORGINI M, FANO E A. An EPG study of the probing behavior of adult Bemisia tabaci biotype Q (Hemiptera: Aleyrodidae) following exposure to cyantraniliprole. Journal of Economic Entomology, 2014,107(3):910-919.
doi: 10.1603/ec13511 pmid: 25026647
[27] PRADO MALUTA N K, GARZO E, MORENO A, NAVAS- CASTILLO J, FIALLO-OLIVÉ E, SPOTTI LOPES J R, FERERES A. Stylet penetration activities of the whitefly Bemisia tabaci associated with inoculation of the crinivirus tomato chlorosis virus. Journal of General Virology, 2017,98:1515-1520.
[28] MORENO-DELAFUENTE A, GARZO E, MORENO A, FERERES A. A plant virus manipulates the behavior of its whitefly vector to enhance its transmission efficiency and spread. PLoS ONE, 2013,8(4):e61543.
doi: 10.1371/journal.pone.0061543 pmid: 23613872
[29] 汤清波, 张大山, 姬琨, 丁识伯, 闫凤鸣. 刺吸电位技术应用中的几个问题. 应用昆虫学报, 2011,48(5):1519-1527.
TANG Q B, ZHANG D S, JI K, DING S B, YAN F M. Some key points in applications of electrical penetration graph technique. Chinese Journal of Applied Entomology, 2011,48(5):1519-1527. (in Chinese)
[30] SARRIA E, CID M, GARZO E, FERERES A. Excel Workbook for automatic parameter calculation of EPG data. Computers and Electronics in Agriculture, 2009,67:35-42.
[31] CAMERON R, LANG E B, ANNAN I B, PROTILLO H E, ALVAREZ J M. Use of fluorescence, a novel technique to determine reduction in Bemisia tabaci (Hemiptera: Aleyrodidae) nymph feeding when exposed to benevia and other insecticides. Journal of Economic Entomology, 2013,106(2):597-603.
doi: 10.1603/EC12370 pmid: 23786044
[32] ZENG X Y, HE Y Q, WU J X, TANG Y M, GU J T, DING W, ZHANG Y Q. Sublethal effects of cyantraniliprole and imidacloprid on feeding behavior and life table parameters of Myzus persicae (Hemiptera: Aphididae). Journal of Economic Entomology, 2016,109(4):1595-1602.
doi: 10.1093/jee/tow104 pmid: 27247299
[33] 孙文青. 三氟苯嘧啶对稻飞虱取食行为和生殖的影响研究[D]. 扬州: 扬州大学, 2018.
SUN W Q. The effects of triflumezopyrim on the feeding behaviour and reproduction of rice planthoppers[D]. Yangzhou: Yangzhou University, 2018. (in Chinese)
[34] 彭建红, 李耀发, 高占林, 党志红, 安静杰, 潘文亮. 新烟碱类杀虫剂亚致死剂量对麦长管蚜和棉蚜取食行为的影响. 植物保护, 2019,45(4):91-96.
PENG J H, LI Y F, GAO Z L, DANG Z H, AN J J, PAN W L. Effects of the sublethal dose of neonicotinoid insecticides on the feeding behavior of Sitobion miscanthi and Aphis gossypii. Plant Protection, 2019,45(4):91-96. (in Chinese)
[35] 吴佳星, 何应琴, 曾贤义, 张永强, 丁伟. 吡虫啉对3种体色型烟蚜取食行为的影响. 环境昆虫学报, 2017,39(5):1148-1154.
WU J X, HE Y Q, ZENG X Y, ZHANG Y Q, DING W. The effects of imidacloprid on the feeding behaviors of Myzus persicae in three colors. Journal of Environmental Entomology, 2017,39(5):1148-1154. (in Chinese)
[36] 都振宝. 吡虫啉和噻虫嗪亚致死剂量对荻草谷网蚜生命表参数及取食行为的影响[D]. 武汉: 华中农业大学, 2012.
DU Z B. Effect of sublethal concentration of imidacloprid and thiamethoxam on the life-table parameters and feeding behavior of Sitobion miscanthi[D]. Wuhan: Huazhong Agricultural University, 2012. (in Chinese)
[37] DOUGLAS A E. The nutritional physiology of aphids. Advances in Insect Physiology, 2003,31:73-140.
[38] HARREWIJN P, KAYSER H. Pymetrozine, a fast-acting and selective inhibitor of aphid feeding. in-situ studies with electronic monitoring of feeding behavior. Pest Management Science, 1997,49:130-140.
[39] ROSELL R C, LICHTY J E, BROWN J K. Ultrastructure of the mouthparts of adult sweetpotato whitefly, Bemisia tabaci Gennadius (Homoptera: Aleyrodidae). International Journal of Insect Morphology and Embryology, 1995,24(3):297-306.
[40] 洪慧金, 任顺祥, 杜予州, 王联德. 三种粉虱触角、口针及跗节感受器的超微结构观察. 应用昆虫学报, 2011,48(1):77-83.
HONG H J, REN S X, DU Y Z, WANG L D. Ultra-structure of the antennal, stylet, and tarsal sensilla of three whiteflies: Bemisia tabaci, Trialeurodes vaporariorum, Alenrocybotns indice (Homoptera: Aleyrodidae). Chinese Journal of Applied Entomology, 2011,48(1):77-83. (in Chinese)
[41] FREEMAN T P, BUCKNER J S, NELSON D R, CHU C C, HENNEBERRY T. J. Stylet penetration by Bemisia argentifolii (Homoptera: Aleyrodidae) into host leaf tissue. Annals of the Entomological Society of America, 2001,94(5):761-768.
[42] 黄翠虹, 王雪丽, 李静静, 闫凤鸣. L-阿拉伯糖对B型和Q型烟粉虱毒性及取食行为的影响. 植物保护学报, 2016,43(1):111-116.
HUANG C H, WANG X L, LI J J, YAN F M. Toxic and feeding behavioral effects of L-arabinose on Bemisia tabaci biotypes B and Q. Journal of Plant Protection, 2016,43(1):111-116. (in Chinese)
[1] CHEN Xi,LIU YingJie,DONG YongHao,LIU JinYan,LI Wei,XU PengJun,ZANG Yun,REN GuangWei. Effects of CMV-Infected Tobacco on the Performance, Feeding and Host Selection Behavior of Myzus persicae [J]. Scientia Agricultura Sinica, 2021, 54(8): 1673-1683.
[2] HE Hang,XIONG ZiBiao,SHOU YaXiao,XIE Qing,XIE HeFang. Effects of Rearing Modes on Nocturnal Feeding Behavior in Goslings [J]. Scientia Agricultura Sinica, 2019, 52(13): 2352-2358.
[3] ZHANG Wen-ping, LIU Bai-ming, ZHANG Shan, WAN Fang-hao, CHU Dong. Comparison of Feeding Behavior Between Two Bemisia tabaci Strains Using EPG Technique [J]. Scientia Agricultura Sinica, 2016, 49(13): 2544-2552.
[4] ZHAO Man, TIAN Ti-wei, LI Wei-zheng, LUO Mei-hao, GUO Xian-ru, YAN Feng-ming. Comparative Analysis of Rhopalosiphum maidis Feeding Behaviors on Eight Maize Hybrids (Inbreds) [J]. Scientia Agricultura Sinica, 2015, 48(8): 1538-1547.
[5] LU Shao-hua, LI Jing-jing, LIU Ming-yang, BAI Run-e, TANG Qing-bo, YAN Feng-ming. Comparative Analysis of the Competitiveness Between B and Q Biotypes of Bemisia tabaci Under Laboratory Conditions [J]. Scientia Agricultura Sinica, 2015, 48(7): 1339-1347.
[6] LIU Jing, WU Shan-Shan, MENG Ling, LI Bao-Ping. Effects of CO2 Concentration and Pesticide Resistance on Penetration Behaviors in Nilaparvata lugens (Homoptera: Delphacidae) [J]. Scientia Agricultura Sinica, 2013, 46(21): 4471-4477.
[7] LI Xiao-Min, LI Jing-Jing, TANG Qing-Bo, YAN Feng-Ming. Effects of Nicotine on Feeding Behavior of Bemisia tabaci B and Q Biotypes Based on EPG and Liquid Diet Sac Technique [J]. Scientia Agricultura Sinica, 2013, 46(10): 2041-2049.
[8] ZHAO Qiu-jian,WU Di,LIN Feng-min,LI Chang-you,ZHANG Yong-jun,WU Kong-ming2,GUO Yu-yuan. EPG Analysis of Apolygus lucorum Meyer-Dür Feeding Behaviors on Different Cotton Varieties (Lines) and Field Verifications [J]. Scientia Agricultura Sinica, 2011, 44(11): 2260-2268 .
[9] Xiang-shun Hu Hui-Yan ZHAO Zu-qing HU Yu-Hong ZHANG Dong-hong LI. EPG Compare of Sitobion avenae (Fab.) Feeding behavior on 3 Wheat Varieties [J]. Scientia Agricultura Sinica, 2008, 41(7): 1989-1994 .
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
京ICP备09089781号-30
Copyright 2018 © Editorial office of Scientia Agricultura Sinica
Tel: 86-010-82106279    E-mail: zgnykx@mail.caas.net.cn
Supported by Beijing Magtech Co.Ltd