Scientia Agricultura Sinica ›› 2025, Vol. 58 ›› Issue (21): 4382-4392.doi: 10.3864/j.issn.0578-1752.2025.21.008

• GREEN CONTROL OF MAJOR COWPEA PESTS AND FUSARIUM WILT: RESEARCH AND PRACTICAL INNOVATIONS • Previous Articles     Next Articles

Development and Application of Novel Physical Control Technologies Based on the Correlation Between Megalurothrips usitatus Outbreaks and Cowpea Flower Development Dynamics

SHI CaiHua1(), JIN Jie1, HUA DengKe1, HU JingRong1(), ZHANG YouJun2, HUANG ShengLin3, WU MingYue4, KONG XiangYi4, XIE Wen2,3()   

  1. 1 Institute of Advanced Agricultural Science, Hubei University of Arts and Science, Xiangyang 441053, Hubei
    2 Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences/State Key Laboratory of Vegetable Biobreeding, Beijing 100081
    3 National Nanfan Research Institute (Sanya), Chinese Academy of Agricultural Sciences, Sanya 572024, Hainan
    4 Sanya Academy of Tropical Agricultural Sciences, Sanya 572000, Hainan
  • Received:2025-05-08 Accepted:2025-07-06 Online:2025-11-01 Published:2025-11-06
  • Contact: HU JingRong, XIE Wen

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Abstract:

【Objective】Megalurothrips usitatus is a major biotic disaster for leguminous crops, particularly prone to damaging cowpeas. The study aims to clarify the relationship between field population dynamics of M. usitatus and cowpea flowers, and to develop new green control technologies. 【Method】The population dynamics of M. usitatus across different growth stages and plant organs of cowpeas were investigated, along with the influence of flower opening and shedding times on their activity patterns. The optimal timing for pesticide application was determined, and the abscission efficiency of five abscission methods (natural abscission, fan-induced abscission, lever-induced abscission, climbing net-induced abscission, and a combined method using both fan and lever) was compared. Additionally, the effectiveness of various flower-absorbing carriers (silver-gray plastic film, shading net, weed-proof fabric, hundred-knot net, and bare soil) was evaluated. Based on these findings, a novel integrated green control strategy, termed the “trinity, internal and external killing” approach, was developed and assessed for its efficacy in controlling M. usitatus, as well as its impact on cowpea quality and yield. 【Result】The population density of M. usitatus exhibited a trend of initial increase followed by a decline from the seedling stage to the end of flowering. The lowest population density was observed during the seedling stage, with a significant increase noted during the early flowering stage, peaking at full flowering stage. M. usitatus adults predominantly reside within flowers, while nymphs preferentially inhabit pods, followed by flowers and tender shoots. As flower buds open, the number of M. usitatus adults within flowers increases progressively. Flower closure typically occurs after 10: 00, encapsulating the insects within the floral structures. These closed flowers generally fall off gradually the following day; however, substantial numbers of M. usitatus remain concealed within the fallen flowers. Notably, flowers with receptacles harbor significantly higher numbers of M. usitatus compared to those without. A mass exodus of M. usitatus from the floral structures typically begins after 6: 00, at which point they migrate to new plant organs. For effective chemical control, application during the evening or early morning—when flowers are open—is most effective. Among the tested abscission methods, the combined use of a fan and lever demonstrated the highest efficiency in removing flowers. Additionally, the hundred-knot net significantly enhanced the effectiveness of flower collection. The implementation of the “trinity, internal and external killing” integrated green control strategy resulted in a 93.71% reduction in black head and black tail symptoms, a 96.87% reduction in wrapper tail, and a 91.55% reduction in overall malformation in cowpeas, accompanied by a 20.40% increase in yield. 【Conclusion】The “trinity, internal and external killing” technique not only challenges the conventional reliance on chemical pesticides, but also effectively suppresses M. usitatus populations, enhances cowpea quality and yield, and provides a valuable theoretical and practical framework for the development of green pest control strategies in other crops.

Key words: cowpea (Vigna unguiculata), Megalurothrips usitatus, flower-shaking for abscission promotion, flower-sucking for pest control, physical control, control efficacy

Fig. 1

Population dynamics of M. usitatus on cowpea plants across various growth stages"

Fig. 2

Population numbers of M. usitatus adults (A) and nymphs (B) on the different organs of cowpea plants during the flowering stages"

Fig. 3

Population dynamics of M. usitatus on cowpea plants during different time periods of the same day"

Fig. 4

Temporal dynamics of cowpea flower development from blooming (A) to shedding (B)"

Fig. 5

Dynamics of M. usitatus on cowpea plants following flower shedding at different times and with varying morphologies"

Table 1

Control efficacy of spraying against M. usitatus at different times"

喷药时间
Spraying time		 防治效果Control efficacy (%)
1 d 3 d 5 d
8:00 77.30±3.68a 80.19±2.13a 57.60±5.81a
12:00 10.26±6.55b 9.95±8.43b 9.22±2.58b
18:00 85.71±0.66a 83.44±1.49a 55.62±6.38a
22:00 86.27±1.78a 82.60±1.13a 49.41±4.92a

Fig. 6

Screening of efficient abscission techniques under varying times and methods"

Fig. 7

Screening of efficient flower absorption vectors"

Fig. 8

Effect of flower suction on the population of M. usitatus"

Fig. 9

Effects of the “trinity, internal and external killing” technique on the quality (A) and yield (B) of cowpea"

[1]
CABRERA-ASENCIO I, DE JENSEN C E. First report of the exotic species Megalurothrips usitatus (Thysanoptera: Thripidae), pest of Fabaceae, in Puerto Rico. Florida Entomologist, 2023, 106(4): 267-269.
[2]
邱海燕, 刘奎, 李鹏, 付步礼, 唐良德, 张曼丽. 豆大蓟马的生物学特性研究. 热带作物学报, 2014, 35(12): 2437-2441.
QIU H Y, LIU K, LI P, FU B L, TANG L D, ZHANG M L. Biological characteristics of the bean flower thrips, Megalurothrips usitatus (Bagnall) (Thripidae: Thysanoptera). Chinese Journal of Tropical Crops, 2014, 35(12): 2437-2441. (in Chinese)
[3]
TANG L D, YAN K L, FU B L, WU J H, LIU K, LU Y Y. The life table parameters of Megalurothrips usitatus (Thysanoptera: Thripidae) on four leguminous crops. Florida Entomologist, 2015, 98(2): 620-625.
[4]
范咏梅, 童晓立, 高良举, 王萌, 柳志强, 张宇, 杨叶. 普通大蓟马在海南豇豆上的空间分布型. 环境昆虫学报, 2013, 35(6): 737-743.
FAN Y M, TONG X L, GAO L J, WANG M, LIU Z Q, ZHANG Y, YANG Y. The spatial aggregation pattern of dominant species of thrips on cowpea in Hainan. Journal of Environmental Entomology, 2013, 35(6): 737-743. (in Chinese)
[5]
YU X R, TARIQ T, GUO L H, WU S Y, TANG L D, ZANG L S. Assessing the effectiveness of imidacloprid and thiamethoxam via root irrigation against Megalurothrips usitatus (Thysanoptera: Thripidae) and its residual effects on cowpea. Journal of Economic Entomology, 2023, 116(5): 1767-1775.
[6]
李钊阳, 韩云, 唐良德, 吴建辉, SHAUKAT A. 普通大蓟马对寄主植物及其挥发物的行为反应. 环境昆虫学报, 2021, 43(6): 1566-1580.
LI Z Y, HAN Y, TANG L D, WU J H, SHAUKAT A. Behavioral responses of Megalurothrips usitatus (Thysanoptera: Thripoidae) to host plant and volatile compounds. Journal of Environmental Entomology, 2021, 43(6): 1566-1580. (in Chinese)
[7]
张瑞敏, 付步礼, 邱海燕, 唐良德, 李涛, 李鹏, 刘奎. 防虫网对豇豆主要害虫的阻隔作用研究. 中国植保导刊, 2015, 35(11): 36-38, 42.
ZHANG R M, FU B L, QIU H Y, TANG L D, LI T, LI P, LIU K. Study on the blocking role of insect-proof screen to the main pests of cowpea. China Plant Protection, 2015, 35(11): 36-38, 42. (in Chinese)
[8]
邱海燕, 刘奎, 李鹏, 付步礼, 唐良德. 黄、蓝色板对豆大蓟马的诱集效果比较. 中国园艺文摘, 2015, 31(1): 50-52.
QIU H Y, LIU K, LI P, FU B L, TANG L D. Comparison of attracting effect of cowpea flower thrips [Megalurothrips usitatus (Bagnall)] with yellow and blue sticky cards. Chinese Horticulture Abstracts, 2015, 31(1): 50-52. (in Chinese)
[9]
黄伟康, 陈积杰, 郭静依, 符启位, 黄国宋, 罗丰. 巴氏钝绥螨对普通大蓟马的功能反应及田间防效. 中国瓜菜, 2022, 35(3): 92-98.
HUANG W K, CHEN J J, GUO J Y, FU Q W, HUANG G S, LUO F. Functional responses and field efficacy of the predatory mite on controlling the bean flower thrips. China Cucurbits and Vegetables, 2022, 35(3): 92-98. (in Chinese)
[10]
黄丹慜, 史丹妮, 李敦禧, 田蜜, 郭霞. 三叶鱼藤提取物对普通大蓟马的杀虫活性初步研究. 林业与环境科学, 2020, 36(6): 71-74.
HUANG D M, SHI D N, LI D X, TIAN M, GUO X. Preliminary study on insecticidal activity of Derris trifoliate extract against Megalurothrips usitatus. Forestry and Environmental Science, 2020, 36(6): 71-74. (in Chinese)
[11]
李盼, 朱津贤, 莫小娜, 林幸明, 刘田振, 李金花, 蔡笃程. 六斑月瓢虫对普通大蓟马的捕食功能反应. 中国生物防治学报, 2022, 38(1): 140-148.

doi: 10.16409/j.cnki.2095-039x.2021.05.014
LI P, ZHU J X, MO X N, LIN X M, LIU T Z, LI J H, CAI D C. The functional response of Menochilus sexmaculata to Megalurothrips usitatus. Chinese Journal of Biological Control, 2022, 38(1): 140-148. (in Chinese)
[12]
ZHANG Y D, ZHANG X C, TIAN Q H, ALI S, TANG L D, WU J H. Toxicological and biochemical description of synergism of Beauveria bassiana and emamectin benzoate against Megalurothrips usitatus (Bagrall). Journal of Fungi, 2022, 8: 916.
[13]
刘奎, 唐良德, 李鹏, 韩志伟, 邱海燕, 付步礼, 范咏梅. 几种杀虫剂对豆大蓟马的毒力测定及复配增效作用. 热带作物学报, 2014, 35(8): 1615-1618.
LIU K, TANG L D, LI P, HAN Z W, QIU H Y, FU B L, FAN Y M. Toxicity and synergistic effect of the complex formulation of several insecticides to Megalurothrips usitatus (Bagnall). Chinese Journal of Tropical Crops, 2014, 35(8): 1615-1618. (in Chinese)
[14]
刘暮莲, 黄向荣, 马德发, 陈富启. 几种药剂对豇豆蓟马的田间防效试验. 广西植保, 2015, 28(3): 19-21.
LIU M L, HUANG X R, MA D F, CHEN F Q. The field efficacy trials of several pesticides to Megalurothrips usitatus. Guangxi Plant Protection, 2015, 28(3): 19-21. (in Chinese)
[15]
PENG Z K, LI M N, GUO C S, ZHENG H X, WU M Y, YIN F, XIAO Y, WANG H H, KONG X Y, ZALUCKI M P, XIE W, LI Z Y. Field-based evaluation of insecticide effectiveness on Megalurothrips usitatus in Guangdong, China: Implications for pest control strategies. Insects, 2025, 16: 459.
[16]
史彩华, 谢文, 吴明月, 邹祥, 吴青君, 张友军. 豆大蓟马生物生态学特性与绿色防控技术研究进展. 应用昆虫学报, 2023, 60(6): 1643-1653.
SHI C H, XIE W, WU M Y, ZOU X, WU Q J, ZHANG Y J. Progress in research on the ecology of Megalurothrips usitatus and the development of environmentally-friendly control methods for this pest. Chinese Journal of Applied Entomology, 2023, 60(6): 1643-1653. (in Chinese)
[17]
刘墨涛, 陈琪, 肖正坤, 吴明月, 王星, 孔祥义, 谢文, 黄国华. 豇豆花期豆大蓟马种群动态监测及生物药剂田间防效评价. 中国蔬菜, 2024(9): 84-91.
LIU M T, CHEN Q, XIAO Z K, WU M Y, WANG X, KONG X Y, XIE W, HUANG G H. Population dynamics monitoring and field biological control of Megalurothrips usitatus during flowering stage of cowpea. China Vegetables, 2024(9): 84-91. (in Chinese)
[18]
邱海燕, 付步礼, 唐良德, 陈俊谕, 刘奎. 豇豆蓟马发生规律及防治药剂筛选的研究. 中国农学通报, 2017, 33(19): 138-142.

doi: 10.11924/j.issn.1000-6850.casb16060144
QIU H Y, FU B L, TANG L D, CHEN J Y, LIU K. Occurrence regularity of thrips in cowpea and evaluation of insecticides. Chinese Agricultural Science Bulletin, 2017, 33(19): 138-142. (in Chinese)

doi: 10.11924/j.issn.1000-6850.casb16060144
[19]
张旭. 海南省豆大蓟马种群发生与扩散规律研究[D]. 泰安: 山东农业大学, 2024.
ZHANG X. Study on the population occurrence and dispersal patterns of Megalurothrips usitatus in Hainan, China[D]. Taian: Shandong Agricultural University, 2024. (in Chinese)
[20]
金奕轩, 黄欣怡, 李思涵, 张宇峰, 高振圳, 黄祖金, 陈法军. 西花蓟马对12种植物挥发物的选择行为. 植物保护学报, 2023, 50(3): 676-683.
JIN Y X, HUANG X Y, LI S H, ZHANG Y F, GAO Z Z, HUANG Z J, CHEN F J. Selective behavior of western flower thrips Frankliniella occidentalis to 12 plant volatile organic compounds. Journal of Plant Protection, 2023, 50(3): 676-683. (in Chinese)
[21]
LI T T, LIU Y, LIANG X, WU C L, AN X K, WANG Y, HAO G F, CHEN Y T, CHEN Q. Potential influence of supplemental nutrients intake by adults on the development, fecundity, and population growth of Megalurothrips usitatus (Thysanoptera: Thripidae) offspring. Journal of Economic Entomology, 2025, 118(2): 646-654.
[22]
谭珂, 李曼娟, 陈鑫, 葛文龙, 但建国. 普通大蓟马产卵选择性初探. 热带作物学报, 2015, 36(3): 587-590.
TAN K, LI M J, CHEN X, GE W L, DAN J G. Preliminary studies on oviposition preference of bean flower thrips, Megalurothrips usitatus (Bagnall). Chinese Journal of Tropical Crops, 2015, 36(3): 587-590. (in Chinese)
[23]
HE Y C, GAO Y, HONG H N, GENG J M, CHEN Q L, ZHOU Y, ZHU Z R. Megalurothrips usitatus directly causes the black-heads and black-tail symptoms of cowpea along with the production of insect-resistance flavonoids. Plants, 2023, 12: 3865.
[24]
闫凯莉, 唐良德, 吴建辉. 普通大蓟马对不同颜色的趋性及日节律调查. 应用昆虫学报, 2017, 54(4): 639-645.
YAN K L, TANG L D, WU J H. Color preferences and diurnal rhythm of Megalurothrips usitatus (Bagrall) (Thysanoptera: Thripidae). Chinese Journal of Applied Entomology, 2017, 54(4): 639-645. (in Chinese)
[25]
郇志博, 于世幸. 胡椒和肉桂挥发性组成分析及对普通大蓟马的驱避作用. 植物保护, 2024, 50(3): 195-202.
HUAN Z B, YU S X. Analysis of volatile components in Piper nigrum and Cinnamomum cassia and their repellent activity against Megalurothrips usitatus. Plant Protection, 2024, 50(3): 195-202. (in Chinese)
[26]
KANDAKOOR S B, KHAN H K, GOWDA G B, CHAKRAVARTHY A K, KUMAR C T A, VENKATARAVANA P. The incidence and abundance of sucking insect pests on groundnut. Current Biology, 2012, 6(3): 342-348.
[27]
SRINIVASAN R, PAOLA S, LIN M Y, HY H C, SARETH K, SOR S. Development and validation of an integrated pest management strategy for the control of major insect pests on yard-long bean in Cambodia. Crop Protection, 2019, 116: 82-91.
[28]
TANG L D, GUO L H, WU J H, ZANG L S. Thrips in genus Megalurothrips (Thysanoptera: Thripidae): Biodiversity, bioecology, and IPM. Journal of Integrated Pest Management, 2023, 14(1): 8.
[29]
TANG L D, ZHAO H Y, FU B L, HAN Y, LIU K, WU J H. Colored sticky traps to selectively survey thrips in cowpea ecosystem. Neotropical Entomology, 2016, 45(1): 96-101.

doi: 10.1007/s13744-015-0334-1 pmid: 26429578
[30]
DURAIMURUGAN P, TYAGI K. Pest spectra, succession and its yield losses in mungbean and urdbean under changing climatic scenario. Legume Research, 2014, 37(2): 212-222.
[31]
HE Y C, GENG J M, GAO Y, CHEN Q L, ZHOU Y, ZHU Z R. Effects of weather parameters on the population dynamics of Megalurothrips usitatus in cowpea fields in Sanya, China. International Journal of Tropical Insect Science, 2024, 44: 2721-2730.
[32]
谭珂, 陈鑫, 李曼娟, 葛文龙, 但建国. 普通大蓟马在3种豆类作物上的实验种群生命表研究. 热带作物学报, 2015, 36(5): 956-960.
TAN K, CHEN X, LI M J, GE W L, DAN J G. Life tables for experimental populations of Megalurothrips usitatus (Bagnall) on three leguminous crops. Chinese Journal of Tropical Crops, 2015, 36(5): 956-960. (in Chinese)
[33]
WANG H T, HUANG L F, ZHENG X L, GONG R, CAO X M, YANG L. An age-stage, two-sex life table for Megalurothrips usitatus feeding on eight different crop plants. Agronomy, 2024, 14: 2283.
[34]
MA L, LIU Q Q, WEI S J, LIU S L, TIAN L, SONG F, DUAN Y G, CAI W Z, LI H. Chromosome-level genome assembly of bean flower thrips Megalurothrips usitatus (Thysanoptera: Thripidae). Scientific Data, 2023, 10: 252.
[35]
LIN X M, LI P, CAI D C, LI J H. Characterization of the complete mitochondrial genome and phylogenetic analysis of bean thrips Megalurothrips usitatus (Bagnall, 1913) (Thysanoptera: Thripidae). Mitochondrial DNA Part B, 2023, 8(10): 1032-1035.
[36]
WU S Y, TANG L D, FANG F, LI D G, YUAN X, LEI Z R, GAO Y L. Screening, efficacy and mechanisms of microbial control agents against sucking pest insects as thrips. Advances in Insect Physiology, 2018, 55: 199-217.
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