Do Chenopodium ambrosioides-Synthesized Silver Nanoparticles Impact Oryzias melastigma Predation Against Aedes albopictus Larvae?

文献类型: 外文期刊

第一作者: Subramaniam, Jayapal

作者: Subramaniam, Jayapal;Jebanesan, Arulsamy;Subramaniam, Jayapal;Murugan, Kadarkarai;Pontheckan, Philips;Dinesh, Devakumar;Murugan, Kadarkarai;Nicoletti, Marcello;Wei, Hui;Higuchi, Akon;Kumar, Suresh;Canale, Angelo;Benelli, Giovanni

作者机构:

关键词: Biological control;Biosafety;Larvivorous fishes;Nanobiotechnology;Nanocrystals

期刊名称:JOURNAL OF CLUSTER SCIENCE ( 影响因子:3.061; 五年影响因子:2.291 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The green synthesis of nanopesticides has been recently proposed to improve the efficacy of mosquito control programs. However, limited efforts shed light on the impact of sub-lethal doses of nanopesticides on behavioral traits of mosquito biocontrol agents. We described the synthesis of silver nanoparticles (AgNP) at room temperature using the aqueous extract of Chenopodium ambrosioides, and their high toxicity against the invasive mosquito Aedes albopictus. LC50 calculated on young instars ranged from 13 ppm (first instar larvae) to 19 ppm (pupae). LC50 calculated on adults was 14 ppm. The chemical composition of the C. ambrosioides extract was characterized by GC-MS analysis. The production of AgNP was confirmed by the surface Plasmon resonance band illustrated in UV-Vis, FTIR spectroscopy, EDX, XRD, TEM, and Zeta Potential analyses. In the field, a single treatment of AgNP (10 x LC50) led to complete elimination of larval populations within 72 h. Sub-lethal doses of the reducing extract and AgNP magnify predation rates of Oryzias melastigma fishes against A. albopictus larvae. Overall, this study highlights the concrete potential of C. ambrosioides-synthesized AgNP to develop effective and cheap tools to control young instars and adults of the invasive mosquito A. albopictus.

分类号: O64

  • 相关文献

[1]Characterization and mosquitocidal potential of neem cake-synthesized silver nanoparticles: genotoxicity and impact on predation efficiency of mosquito natural enemies. Chandramohan, Balamurugan,Murugan, Kadarkarai,Panneerselvam, Chellasamy,Madhiyazhagan, Pari,Chandirasekar, Ramachandran,Dinesh, Devakumar,Kumar, Palanisamy Mahesh,Kovendan, Kalimuthu,Suresh, Udaiyan,Subramaniam, Jayapal,Rajaganesh, Rajapandian,Aziz, Al Thabiani,Syuhei, Ban,Alsalhi, Mohamad Saleh,Devanesan, Sandhanasamy,Nicoletti, Marcello,Wei, Hui,Benelli, Giovanni.

[2]Preparation of starch nanocrystals through enzymatic pretreatment from waxy potato starch. Hao, Yacheng,Chen, Yun,Li, Qian,Gao, Qunyu,Li, Qian. 2018

[3]Green synthesis of gold nanoparticles using Citrus maxima peel extract and their catalytic/antibacterial activities. Yuan, Chun-Gang,Huo, Can,Gui, Bing,Cao, Wei-Ping. 2017

[4]Characterization and biotoxicity of Hypnea musciformis-synthesized silver nanoparticles as potential eco-friendly control tool against Aedes aegypti and Plutella xylostella. Roni, Mathath,Murugan, Kadarkarai,Panneerselvam, Chellasamy,Subramaniam, Jayapal,Madhiyazhagan, Pani,Dinesh, Devakumar,Suresh, Udaiyan,Nicoletti, Marcello,Khater, Hanem F.,Wei, Hui,Canale, Angelo,Benelli, Giovanni,Alarfaj, Abdullah A.,Munusamy, Murugan A.,Higuchi, Akon.

[5]Nanoparticles in the fight against mosquito-borne diseases: bioactivity of Bruguiera cylindrica-synthesized nanoparticles against dengue virus DEN-2 (in vitro) and its mosquito vector Aedes aegypti (Diptera: Culicidae). Murugan, Kadarkarai,Dinesh, Devakumar,Paulpandi, Manickam,Subramaniam, Jayapal,Madhiyazhagan, Pari,Suresh, Udaiyan,Kumar, Palanisamy Mahesh,Mohan, Jagathish,Rajaganesh, Rajapandian,Althbyani, Abdulaziz Dakhellah Meqbel,Wang, Lan,Wei, Hui,Kalimuthu, Kandasamy,Parajulee, Megha N.,Mehlhorn, Heinz,Benelli, Giovanni.

[6]Mosquitocidal, Antimalarial and Antidiabetic Potential of Musa paradisiaca-Synthesized Silver Nanoparticles: In Vivo and In Vitro Approaches. Anbazhagan, Priya,Murugan, Kadarkarai,Jaganathan, Anitha,Sujitha, Vasu,Samidoss, Christina Mary,Jayashanthani, Sudalaimani,Amuthavalli, Pandian,Murugan, Kadarkarai,Higuchi, Akon,Kumar, Suresh,Wei, Hui,Nicoletti, Marcello,Canale, Angelo,Benelli, Giovanni,Benelli, Giovanni.

[7]In vivo and in vitro effectiveness of Azadirachta indica-synthesized silver nanocrystals against Plasmodium berghei and Plasmodium falciparum, and their potential against malaria mosquitoes. Murugan, Kadarkarai,Samidoss, Christina Mary,Madhiyazhagan, Pari,Suresh, Udaiyan,Roni, Mathath,Chandramohan, Balamurugan,Subramaniam, Jayapal,Dinesh, Devakumar,Rajaganesh, Rajapandian,Paulpandi, Manickam,Panneerselvam, Chellasamy,Aziz, Thabiani,Wei, Hui,Alsalhi, Mohamad Saleh,Devanesan, Sandhanasamy,Nicoletti, Marcello,Pavela, Roman,Canale, Angelo,Benelli, Giovanni.

[8]Effect of parasitism on flight behavior of the soybean aphid, Aphis glycines. Wu, Kongming,Wyckhuys, Kris A. G.,Heimpel, George E..

[9]Effects of Carbon Concentrations and Carbon to Nitrogen ratios on Sporulation of Two Biological Control Fungi as Determined by Different Culture Methods. Liu, Xingzhong,Gao, Li.

[10]Measuring gene flow in the cultivation of transgenic cotton (Gossypium hirsutum L.). Bao-Hong Zhang,Xiao-Ping Pan,Teng-Long Guo,Qing-Lian Wang,Todd A. Anderson. 2005

[11]Site-specific DNA excision in transgenic rice with a cell-permeable Cre recombinase. Cao, MX,Huang, JQ,Yao, QH,Liu, SJ,Wang, CL,Wei, ZM. 2006

[12]A comparative proteomics approach to detect unintended effects in transgenic Arabidopsis. Wang, Hua,Li, Linchuan,Qu, Li-Jia,Lv, Jun,Peng, Yufa. 2009

[13]Brazil and the development of international scientific biosafety testing guidelines for transgenic crops. Capalbo, DMF,Hilbeck, A,Andow, D,Snow, A,Bong, BB,Wan, FH,Fontes, EMG,Osir, EO,Fitt, GP,Johnston, J,Songa, J,Heong, KL,Birch, ANE. 2003

[14]Advances in the biosafety research of non-target DNA in transgenic plants. Ma, RC,Peng, YF,Guan, HS. 2001

[15]Detection of unintended effects in genetically modified herbicide-tolerant (GMHT) rice in comparison with non-target phenotypic characteristics. Xiao, Guoying,Jiang, Xianbin,Jiang, Xianbin. 2010

[16]Safety assessment of sFat-1 transgenic pigs by detecting their co-habitant microbe in intestinal tract. Tang, Maoxue,Cheng, Wenke,Jin, Erhui,Yang, Shulin,Cui, Wentao,Li, Kui,Tang, Maoxue,Cheng, Wenke,Jin, Erhui,Yang, Shulin,Cui, Wentao,Li, Kui,Zheng, Xinmin,Chen, Hongxing.

[17]Effects of genetically modified herbicide-tolerant (GMHT) rice on biodiversity of weed in paddy fields. Xiao, Guoying,Jiang, Xianbin,Jiang, Xianbin,Wu, Xingrong. 2010

[18]The Influence of Bt-Transgenic Maize Pollen on the Bacterial Diversity in the Midgut of Chinese Honeybees, Apis cerana cerana. Geng Li-li,Shu Chang-long,Song Fu-ping,Zhang Jie,Jiang Wei-yu,Lin Yi,Dai Ping-li,Zhou Ting,Lang Zhi-hong. 2013

[19]Non-target plant testing of the flea beetle Agasicles hygrophila, a biological control agent for Alternanthera philoxeroides (alligatorweed) in China. Lu, Junjiao,Zhao, Longlong,Ma, Ruiyan,Lu, Junjiao,Fan, Renjun,Zhang, Jintong,Wang, Ren. 2012

[20]Genetic diversity and gene flow dynamics revealed in the rare mixed populations of wild soybean (Glycine soja) and semi-wild type (Glycine gracilis) in China. Wang, Ke-Jing,Li, Xiang-Hua. 2013

作者其他论文 更多>>
  • Nitrogen Deficiency Enhances Eggplant Defense against Western Flower Thrips via the Induction of the Jasmonate Pathway

    作者:Zheng, Yueqin;Liu, Qianxia;Shi, Shuang;Zhu, Xiaowen;Chen, Yong;Lin, Shuo;Tian, Houjun;Huang, Lanyan;Wei, Hui;Zheng, Yueqin;Chen, Yong;Lin, Shuo;Tian, Houjun;Wei, Hui;Zhu, Xiaowen

    关键词:induced defense; JA; N deficiency; eggplant; anti-herbivore resistance; western flower thrips

  • Development and application of a second-generation multilingual tool for invasion risk screening of non-native terrestrial plants

    作者:Vilizzi, Lorenzo;Piria, Marina;Pietraszewski, Dariusz;Marszal, Lidia;Tarkan, Ali Serhan;Vilizzi, Lorenzo;Piria, Marina;Pietraszewski, Dariusz;Kristan, Petra;Giannetto, Daniela;Sermenli, Hayruenisa Bas;Flory, S. Luke;Herczeg, Gabor;Herczeg, Gabor;Britvec, Mihaela;Vitasovic-Kosic, Ivana;Jukoniene, Ilona;Petrulaitis, Lukas;Almeida, David;Al-Wazzan, Zainab;Bakiu, Rigers;Bakiu, Rigers;Boggero, Angela;Chaichana, Ratcha;Dashinov, Dimitriy;Uzunova, Eliza;De Zoysa, Mahanama;Gilles Jr, Allan S.;Pavia Jr, Richard T.;Goulletquer, Philippe;Interesova, Elena;Interesova, Elena;Interesova, Elena;Kopecky, Oldrich;Koutsikos, Nicholas;Vardakas, Leonidas;Koyama, Akihiko;Li, Shan;Lukas, Juliane;Lukas, Juliane;Moghaddas, Seyed Daryoush;Monteiro, Joao G.;Monteiro, Joao G.;Mumladze, Levan;Oh, Chulhong;Olsson, Karin H.;Pickholtz, Renanel;Olsson, Karin H.;Perdikaris, Costas;Preda, Cristina;Ristovska, Milica;Stojchevska, Cvetanka;Svolikova, Kristina Slovak;Stevove, Barbora;Ta, Kieu Anh T.;Verreycken, Hugo;Wei, Hui;Yogurtcuoglu, Baran;Ferinez, Arpad;Kirkendall, Lawrence R.;Paganelli, Daniele;Tarkan, Ali Serhan;Tarkan, Ali Serhan;Yazlik, Ayse

    关键词:Biological invasions; Risk analysis; Terrestrial Plant Species Invasiveness Screening; Kit (TPS-ISK); Turnkey application; Weed Risk Assessment (WRA)

  • Global freshwater fish invasion linked to the presence of closely related species

    作者:Xu, Meng;Fang, Miao;Wei, Hui;Yu, Fandong;Shu, Lu;Wang, Xuejie;Gu, Dangen;Mu, Xidong;Xu, Meng;Fang, Miao;Wei, Hui;Yu, Fandong;Shu, Lu;Wang, Xuejie;Gu, Dangen;Mu, Xidong;Xu, Meng;Fang, Miao;Wei, Hui;Yu, Fandong;Shu, Lu;Wang, Xuejie;Gu, Dangen;Mu, Xidong;Li, Shao-peng;Liu, Chunlong;Tedesco, Pablo A.;Dick, Jaimie T. A.

    关键词:

  • microRNA-8514-5p regulates adipokinetic hormone/corazonin-related peptide receptor to affect development and reproduction of Plutella xylostella

    作者:Pang, Senbo;Wang, Shuo;Asad, Muhammad;Yu, Jiajing;Lin, Guifang;Sun, Cuiying;Huang, Pengrong;Chang, Yanpeng;Yang, Guang;Pang, Senbo;Wang, Shuo;Asad, Muhammad;Yu, Jiajing;Lin, Guifang;Sun, Cuiying;Huang, Pengrong;Chang, Yanpeng;Yang, Guang;Pang, Senbo;Wang, Shuo;Asad, Muhammad;Yu, Jiajing;Lin, Guifang;Sun, Cuiying;Huang, Pengrong;Chang, Yanpeng;Yang, Guang;Pang, Senbo;Wang, Shuo;Asad, Muhammad;Yu, Jiajing;Lin, Guifang;Sun, Cuiying;Huang, Pengrong;Chang, Yanpeng;Yang, Guang;Pang, Senbo;Wang, Shuo;Asad, Muhammad;Yu, Jiajing;Lin, Guifang;Sun, Cuiying;Huang, Pengrong;Chang, Yanpeng;Yang, Guang;Chen, Jinzhi;Wei, Hui

    关键词:Dicer1; Plutella xylostella; miRNA; adipokinetic hormone/corazonin-related peptide receptor; development and reproduction

  • Spinetoram exposure disrupts survival of flower bugs and leads to population collapse in orchards

    作者:Lin, Tao;Chen, Yong;Chen, Yixin;Hu, Jinfeng;Lin, Shuo;Zhao, Jianwei;Yang, Fenghua;Wei, Hui;Lin, Tao;Chen, Yong;Chen, Yixin;Hu, Jinfeng;Lin, Shuo;Zhao, Jianwei;Yang, Fenghua;Wei, Hui;Lin, Tao;Yang, Guang

    关键词:Spinosyn; Orius; thrips; sublethal toxicity; risk; transgenerational effects

  • Advances in theory, data analysis, and application of the age-stage, two-sex life table for demographic research, biological control, and pest management

    作者:Chi, Hsin;Xu, Yong-Yu;Zheng, Fang-Qiang;Ye, Bao-Hua;Chen, Zhen-Zhen;Chi, Hsin;You, Min-Sheng;Chi, Hsin;Fu, Jian-Wei;Shi, Meng-Zhu;Kavousi, Aurang;Gharekhani, Gholamhossein;Atlihan, Remzi;Ozgokce, Mehmet Salih;Guncan, Ali;Gokce, Ayhan;Smith, Cecil L.;Benelli, Giovanni;Guedes, Raul Narciso C.;Amir-Maafi, Masood;Shirazi, Jalal;Taghizadeh, Roya;Maroufpoor, Mostafa;Li, Jian-Yu;Hu, Zu-Qing;Zheng, Chang-Ying;Luo, Lan;Yuan, Zhong-Lin;Zang, Lian-Sheng;Chen, Yong-Ming;Tuan, Shu-Jen;Lin, Ya-Ying;Wang, Hai-Hong;Gotoh, Tetsuo;Ullah, Mohammad Shaef;Botto-Mahan, Carezza;De Bona, Sophie;Bussaman, Prapassorn;Gabre, Refaat M.;Saska, Pavel;Schneider, Marcela Ines;Ullah, Farman;Desneux, Nicolas

    关键词:group-reared life table; bootstrap-match technique; set theory; multinomial theorem; Cartesian paired test; computer simulation; predation; infertile bootstrap sample

  • Prolonged Exposure to Plant Volatiles does not Significantly Affect Pban Expression and Mating Behavior in Diamondback Moth [Plutella Xylostella (Lepidoptera: Plutellidae)]

    作者:Tian, Houjun;Xu, Ruibin;Li, Heng;Lin, Shuo;Chen, Yixin;Chen, Yong;Wei, Hui;Tian, Houjun;Li, Heng;Lin, Shuo;Chen, Yixin;Chen, Yong;Wei, Hui;Yang, Guang

    关键词:Plant Volatiles; Mating Behavior; odor Preference; Pheromone Biosynthesis Activating Neuropeptide (PBAN); Plutella Xylostella (L.)

微信小程序