Insights on solanaceous resistance against tomato leafminer (Tuta absoluta), with emphasis on chemical compounds useful in integrated pest management


  • Roxana CICEOI University of Agronomic Sciences and Veterinary Medicine of Bucharest, Research Center for Studies of Food Quality and Agricultural Products, 59, Mărăști Bd. 011464, Bucharest (RO)
  • Mihaela IORDĂCHESCU University of Agronomic Sciences and Veterinary Medicine of Bucharest, Research Center for Studies of Food Quality and Agricultural Products, 59, Mărăști Bd. 011464, Bucharest (RO)
  • Anca A. UDRIȘTE University of Agronomic Sciences and Veterinary Medicine of Bucharest, Research Center for Studies of Food Quality and Agricultural Products, 59, Mărăști Bd. 011464, Bucharest (RO)
  • Liliana A. BĂDULESCU University of Agronomic Sciences and Veterinary Medicine of Bucharest, Faculty of Horticulture, 59, Mărăști Bd. 011464, Bucharest (RO)



constitutive resistance, effective phytochemicals, insect resistance, plant extracts, tomato genotypes


DOI: 10.15835/nbha49412543

For integrated pest management (IPM) and organic farming, breeding resistant varieties is one of the most eco-friendly approaches, that goes along botanicals and other different cultural practices, as the use of companion plants. Among the many pest species that invaded the whole world in the last decades, one of the most frightening is the tomato leafminer, Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae), a devastating pest of cultivated tomato worldwide. Tomato is one of the most important agricultural commodities, including the main mean of subsistence in many countries from Africa and middle East. As chemical pesticides failed to control de pest spread and led to many reports of resistant populations, alternative methods for tomato leafminer management must be quickly developed. Many of such alternatives count on a wide range of chemical compounds. The chemical compounds most often responsible for “constitutive resistance”, synthetized by tomato are methyl-ketones (2-tridecanone), sesquiterpenes (zingiberene), and acyl sugars (acylglucose and acylsucrose) while the chemical compounds produced by other plants, used as isolated substances or mixtures, which have antifeedant, growth inhibiting, repellent, and insecticide effects, are azadirachtin, carvacrol, cinnamaldehyde, citronellal, eugenol, linalool, nicotine, pyrethrin, rotenone, thujone, thymol, α-terpineol, 1.8-cineol, etc. Many of them are already commercially available but their efficacy and use differ widely. Therefore, a deeper understanding of the resistance mechanism of solanaceous species related to chemical compounds and substances important for IPM plans developed against T. absoluta is required by the breeding programs.


Metrics Loading ...


Aigbedion-Atalor PO, Oke AO, Oladigbolu AA, Layade AA, Igbinosa IB, Mohamed SA (2019). Tuta absoluta (Lepidoptera: Gelechiidae) invasion in Nigeria: first report of its distribution. Journal of Plant Diseases and Protection.

Arthropod Pesticide Resistance Database, Search, Genus: [tuta X], Retrieved 2021 September 12 from

Ataide LMS, Arce CCM, Curtinhas JN, Da Silva DJH, Desouza O, Lima E (2017). Flight behavior and oviposition of Tuta absoluta on susceptible and resistant genotypes of Solanum lycopersicum. Arthropod-Plant Interactions 11:567-575.

Azadi F, Rajabpour A, Lotfi Jalal Abadi A, Mahjoub M (2018). Resistance of tomato cultivars to Tuta absoluta (Lepidoptera: Gelechiidae) under field condition. Journal of Crop Protection 7(1):87-92.

Bacci L, Silva ÉM, Silva GA, Silva LJ, Rosado JF, Samuels RI, Picanço MC (2019). Natural mortality factors of tomato leafminer Tuta absoluta in open-field tomato crops in South America. Pest Management Science 75:736-743,

Balzan MV, Wäckers FL (2013). Flowers to selectively enhance the fitness of a host-feeding parasitoid: Adult feeding by Tuta absoluta and its parasitoid Necremnus artynes. Biological Control 67:21-31.

Barone A, Chiusano ML, Ercolano MR, Giuliano G, Grandillo S, Frusciante L (2008). Structural and functional genomics of tomato. International Journal of Plant Genomics 2008:1-12.

Bawin T, Dujeu D, De Backer L, Francis F, Verheggen FJ (2015). Ability of Tuta absoluta (Lepidoptera: Gelechiidae) to develop on alternative host plant species. The Canadian Entomologist 148(04):434-442.

Bayram Y, Duman M, Buyuk M, Mutlu C (2017). Efficiency of pheromone water traps and life cycle of Tuta absoluta (Lepidoptera: Gelechiidae) in Diyarbakir province, Turkey. Fresenius Environmental Bulletin 26(12A):8146-8153.

Ben-Mahmoud S, Smeda JR, Chappell TM, Stafford-Banks C, Kaplinsky CH, Anderson T, … Ullman DE (2018). Acylsugar amount and fatty acid profile differentially suppress oviposition by western flower thrips, Frankliniella occidentalis, on tomato and interspecific hybrid flowers. PLoS One 13(7):e0201583.

Biondi A, Guedes RNC, Wan FH, Desneux N (2018). Ecology, worldwide spread, and management of the invasive South American tomato pinworm, Tuta absoluta: Past, present, and future. Annual Review of Entomology 63(1):239-258.

Brévault T, Sylla S, Diatte M, Bernadas G, Diarra K (2014). Tuta absoluta Meyrick (Lepidoptera: Gelechiidae): a new threat to tomato production in Sub-Saharan Africa. African Entomology 22(2):441-444.

Campolo O, Cherif A, Ricupero M, Siscaro G, Grissa-Lebdi K, Russo A, … Palmeri V (2017). Citrus peel essential oil nanoformulations to control the tomato borer, Tuta absoluta: chemical properties and biological activity. Scientific Reports 7(1).

Campos MR, Biondi A, Adiga A, Guedes RNC, Desneux N (2017). From the Western Palaearctic region to beyond: Tuta absoluta 10 years after invading Europe. Journal of Pest Science 90:787-796,

Caparros Megido R, Haubruge E, Verheggen FJ (2012). First evidence of deuterotokous parthenogenesis in the tomato leafminer, Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae). Journal of Pest Science 85(4):409-412.

Causse M, Giovannoni J, Bouzayen M, Zouine M (2016). The tomato genome. Compendium of Plant Genomes.

Cherif A, Verheggen F (2019). A review of Tuta absoluta (Lepidoptera: Gelechiidae) host plants and their impact on management strategies. Biotechnologie, Agronomie, Société et Environnement 23(4):270-278,

Ciceoi R, Gutue M (2020). Updated list of host plants of Tuta absoluta (Meyrick, 1917) (Lepidoptera: Gelechiidae) with reference to Romania. Acta Zoologica Bulgarica 72 (4):597-610.

Cohen JE (2003) Human population: the next half century. Science 302(5648):1172-1175.

Coqueret V, Le Bot J, Larbat R, Desneux N, Robin C, Adamowicz S (2017). Nitrogen nutrition of tomato plant alters leafminer dietary intake dynamics. Journal of Insect Physiology 99:130-138.

Crisol-Martínez E, van der Bloom J (2018). Nuevas posibilidades para un manejo sostenible de Tuta absoluta en cultivos de tomate, Cooperativas Agro-alimentarias España 40:44-45,

Crisol-Martínez E, van der Bloom J (2019). Necremnus tutae (Hymenoptera, Eulophidae) is widespread and efficiently controls Tuta absoluta in tomato greenhouses in SE Spain. IOBC/WPRS Bulletin 147:22-29.

D’Esposito D, Manzo D, Ricciardi A, Garonna AP, De Natale A, Frusciante L, … Ercolano MR (2021). Tomato transcriptomic response to Tuta absoluta infestation. BMC Plant Biology 21(1):1-14.

de Brito EF, Baldin ELL, de Carvalho Macedo Silva R, do Prado Ribeiro L, Vendramim JD (2015). Bioactivity of piper extracts on Tuta absoluta (Lepidoptera: Gelechiidae) in tomato. Pesquisa Agropecuária Brasileira 50(3):196-202.

de Falco B, Manzo D, Incerti G, Garonna AP, Ercolano M, Lanzotti V (2019). Metabolomics approach based on NMR spectroscopy and multivariate data analysis to explore the interaction between the leafminer Tuta absoluta and tomato (Solanum lycopersicum). Phytochemical Analysis 30:556-563,

de Oliveira CM, Andrade Júnior VCD, Maluf WR, Neiva IP, Maciel GM (2012). Resistance of tomato strains to the moth Tuta absoluta imparted by allelochemicals and trichome density. Ciência e Agrotecnologia 36:45-52.

de Oliveira JL, Campos EVR, Bakshi M, Abhilash PC, Fraceto LF (2014). Application of nanotechnology for the encapsulation of botanical insecticides for sustainable agriculture: Prospects and promises. Biotechnology Advances 32(8):1550-1561.

de Oliveira JRFD, Resende JTVD, Roberto SR, Silva PRD, Rech C, Nardi C (2020). Tomato breeding for sustainable crop systems: High levels of zingiberene providing resistance to multiple arthropods. Horticulturae 6(2):34.

Desneux N, Luna MG, Guillemaud T, Urbaneja A (2011). The invasive South American tomato pinworm, Tuta absoluta, continues to spread in Afro-Eurasia and beyond: the new threat to tomato world production. Journal of Pest Science 84:403-408,

Desneux N, Wajnberg E, Wyckhuys KAG, Burgio G, Arpaia S, … Urbaneja A (2010). Biological invasion of European tomato crops by Tuta absoluta: ecology, geographic expansion, and prospects for biological control. Journal of Pest Science 83:197-215.

Dias DM, Resende JTD, Zeist AR, Gabriel A, Santos MH, Vilela NC (2019). Resistance of processing tomato genotypes to leafminer (Tuta absoluta). Horticultura Brasileira 37:40-46.

Duke JA (2016). Dr. Duke's phytochemical and ethnobotanical databases. (Data Set). Ag Data Commons.

EFSA PLH Panel: Bragard C, Dehnen-Schmutz K, Di Serio F, Gonthier P, … Potting R (2019). Guidance on commodity risk assessment for the evaluation of high-risk plants dossiers. EFSA Journal 17(4):5668.

Essoung FRE, Mba’ning BM, Mohamed SA, Lwande W, Ngouela SA, Tsamo E, Cox RJ (2017). Welwitschianalol A and B, two cyclohexene derivatives and other insecticidal constituents of Caesalpinia welwitschiana (Oliv.) Brenan. Phytochemistry Letters 22:81-86.

EU Regulation (EU) 2016/2031 of the European parliament of the council of 26 October 2016, on protective measures against pests of plants. (2016). Official Journal of the European Union.

FAO and WHO (2019). Pesticide residues in food. Report 2018 Joint FAO/WHO Meeting on Pesticide Residues. FAO Plant Production and Protection Paper no. 234. Rome, pp 668.

Felföldi Z, Ranga F, Socaci SA, Farcas A, Plazas M, Sestras AF, Vodnar DC, Prohens J, Sestras RE (2021). Physico-chemical, nutritional, and sensory evaluation of two new commercial tomato hybrids and their parental lines. Plants 10(11):2480.

Fernandez-Pozo N, Menda N, Edwards JD, Saha S, Tecle IY, Strickler SR, … Mueller LA (2015). The Sol Genomics Network (SGN)-from genotype to phenotype to breeding. Nucleic Acids Research 43:D1036-D1041.

Floricel M, Mitrea I, Oltean I, Florian T, Varga MI, Vasian I, … Hulujan IB (2018). The testing of some products in order to monitor the Cameraria ohridella Deschka-Dimic species (Lepidoptera: Gracilariidae). Agrolife Scientific Journal 7(2):53-60.

Ghaderi S, Fathipour Y, Asgari S (2017). Susceptibility of seven selected tomato cultivars to Tuta absoluta (Lepidoptera: Gelechiidae): Implications for its management. Journal of Economic Entomology 110:421-429,

Ghanim NM, Abdel Ghani SB (2014). Controlling Tuta absoluta (Lepidoptera: Gelechiidae) and Aphis gossypii (Hemiptera: Aphididae) by aqueous plant extracts. Life Science Journal 11(3):299-307.

Gharekhani GH, Salek-Ebrahimi H (2014). Evaluating the damage of Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae) on some cultivars of tomato under greenhouse condition. Archives of Phytopathology and Plant Protection 47:429-436.

Giorgini M, Guerrieri E, Cascone P, Gontijo L (2018). Current strategies and future outlook for managing the neotropical tomato pest Tuta absoluta (Meyrick) in the Mediterranean basin. Neotropical Entomology

Gonçalves-Gervásio RCR, Vendramim JD (2007). Bioatividade do extrato aquoso de sementes de nim sobre Tuta absoluta (Meyrick, 1917) Lepidoptera: Gelechiidae) em três formas de aplicação [Bioactivity of the aqueous extract of neem seeds on Tuta absoluta (Meyrick, 1917) Lepidoptera: Gelechiidae) in three forms of application]. In Portuguese. Cienciae Agrotecnologia 31:28-34.

Grandillo S, Cammareri M (2016). Molecular mapping of quantitative trait loci in tomato. In the tomato genome. Compendium of Plant Genomes.

Grant C, Jacobson R, Ilias A, Berger M, Vasakis E, Bielza P, … Bass C (2019). The evolution of multiple-insecticide resistance in UK populations of tomato leafminer, Tuta absoluta. Pest Management Science 75:2079-2085,

Guedes RNC, Roditakis E, Campos MR, Haddi K, Bielza P, Siqueira HAA, … Nauen R (2019). Insecticide resistance in the tomato pinworm Tuta absoluta: patterns, spread, mechanisms, management and outlook. Journal of Pest Science 92(4):1329-1342.

Hallmann CA, Sorg M, Jongejans E, Siepel H, Hofland N, Schwan H, … de Kroon H (2017). More than 75 percent decline over 27 years in total flying insect biomass in protected areas. PLOS One 12(10):e0185809.

Han P, Bayram Y, Shaltiel-Harpaz L, Sohrabi F, Saji A, Esenali UT, … Desneux N (2018a). Tuta absoluta continues to disperse in Asia: damage, ongoing management and future challenges. Journal of Pest Science.

Han P, Desneux N, Becker C, Larbat R, Le Bot J, Adamowicz S, … Lavoir A-V (2018c). Bottom-up effects of irrigation, fertilization and plant resistance on Tuta absoluta: implications for Integrated Pest Management. Journal of Pest Science.

Han P, Zhang YN, Lu ZZ, Wang S, Wang S, Ma D-Y, … Desneux N (2018b). Are we ready for the invasion of Tuta absoluta? Unanswered key questions for elaborating an Integrated Pest Management package in Xinjiang, China. Entomologia Generalis 38:113-125,

Heuvelink E (2018). Tomatoes, 2nd Edition. Cabi, Boston, MA.

Hulme PE (2009). Trade, transport, and trouble: managing invasive species pathways in an era of globalization. Journal of Applied Ecology 46(1):10-18.

Ikbal C, Pavela R (2019). Essential oils as active ingredients of botanical insecticides against aphids. Journal of Pest Science.

Isman MB (2020). Commercial development of plant essential oils and their constituents as active ingredients in bioinsecticides. Phytochemistry Reviews 19:235-241

Karadjova O, Ilieva Z, Krumov V, Petrova E, Ventsislavov V (2013). Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae): potential for entry, establishment and spread in Bulgaria. Bulgarian Journal of Agricultural Science 19:563-571.

Kayahan A, Simsek B, Karaca I, Aktas H (2018). Determination of the responses of different tomato species to Tuta absoluta. Scientific Papers. Series B, Horticulture, LXII:431-436.

Kim J, Kang K, Gonzales-Vigil E, Shi F, Jones AD, Barry CS, Last RL (2012). Striking natural diversity in glandular trichome acylsugar composition is shaped by variation at the acyltransferase2 locus in the wild tomato Solanum habrochaites. Plant Physiology 160:1854-1870.

Leckie BM, D'Ambrosio DA, Chappell TM, Halitschke R, De Jong DM, Kessler A, Kennedy GG, Mutschler MA (2016). Differential and synergistic functionality of acylsugars in suppressing oviposition by insect herbivores. PLOS One 11:e0153345.

Leite GLD, Picanço M, Guedes RNC, Zanuncio JC (2001). Role of plant age in the resistance of Lycopersicon hirsutum f. glabratum to the tomato leafminer Tuta absoluta (Lepidoptera: Gelechiidae). Scientia Horticulturae 89(2):103-113.

Lietti MMM, Botto E, Alzogaray RA (2005). Insecticide resistance in Argentine populations of Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae). Neotropical Entomology 34:113-119.

Mack RN, Simberloff D, Lonsdale WM, Evans H, Clout M, Bazzaz FA (2000). Biotic invasions: causes, epidemiology, global consequences, and control. Ecological Applications 10(3):689.[0689:BICEGC]2.0.CO;2

Maluf WR, de Silva VF, Cardoso M, Gomes LAA, Neto ACG, Maciel GM, Nízio DAC (2010). Resistance to the South American tomato pinworm Tuta absoluta in high acylsugar and/or high zingiberene tomato genotypes. Euphytica 176:113-123.

Mandal S, Ji W, Mcknight TD (2020). Candidate gene networks for acylsugar metabolism and plant defense in wild tomato Solanum pennellii. The Plant Cell 32:81-99.

Mansour R, Brévault T, Chailleux A, Cherif A, Grissa-Lebdi K (2018). Occurrence, biology, natural enemies and management Tuta absoluta in Africa. Entomologia Generalis 38:83-111,

Moawad SS, Ebadah IM, Mahmoud YA (2013). Biological and histological studies on the efficacy of some botanical and commercial oils on Tuta absoluta Meyrick (Lepidoptera: Gelechiidae). Egyptian Journal of Biological Pest Control 23:1-8.

Moreno SC, Carvalho GA, Picanço MC, Morais EG, Pereira RM (2011). Bioactivity of compounds from Acmella oleracea against Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae) and selectivity to two non-target species. Pest Management Science 68(3):386-393.

Owens B (2019). How plants and insects inherit immunity from their parents. Nature 575(7784):S55-S56.

Parker JE, Snyder WE, Hamilton GC and Rodriguez Saona C (2013). Companion planting and insect pest control. Weed and Pest Control - Conventional and New Challenges 1-28.

Pavela R (2014). Limitation of plant biopesticides. Advances in Plant Biopesticides 347-359.

Pavela R, Benelli G (2016). Essential oils as ecofriendly biopesticides? Challenges and constraints. Trends in Plant Science 21(12):1000-1007.

Proffit M, Birgersson G, Bengtsson M, Reis R, Witzgall P, Lima E (2011). Attraction and oviposition of Tuta absoluta females in response to tomato leaf volatiles. Journal of Chemical Ecology 37(6):565-574.

Q2024187 (2021). 2-Undecanone. Wikidata. Retrieved 2021 October 16, from

Q27147536. (2021). 2-Tridecanone Wikidata. Retrieved 2021 October 16, from

Q4117486. (2021). Zingiberene. Wikidata. Retrieved 2021, October 16, from

Rakha M, Zekeya N, Sevgan S, Musembi M, Ramasamy S, Hanson P (2017). Screening recently identified whitefly/spider mite‐resistant wild tomato accessions for resistance to Tuta absoluta. Plant Breeding 136(4):562-568.

Roditakis E, Vasakis E, García-Vidal L, Martínez-Aguirre MR, Rison JL, Haxaire-Lutun MO, … Bielza, P (2018). A four-year survey on insecticide resistance and likelihood of chemical control failure for tomato leaf miner Tuta absoluta in the European/Asian region. Journal of Pest Science 91(1):421-435.

Roser M, Ritchie H, Ortiz-Ospina E (2020). World Population Growth. Published online at Retrieved on 13 Sep 2021 from:

Rostami E, Madadi H, Abbasipour H, Allahyari H, Cuthbertson AGS (2016). Life table parameters of the tomato leaf miner Tuta absoluta (Lepidoptera: Gelechiidae) on different tomato cultivars. Journal of Applied Entomology 141(1-2):88-96.

Santana PA, Kumar L, Da Silva RS, Picanço MC (2019). Global geographic distribution of Tuta absoluta as affected by climate change. Journal of Pest Science 92:1373-1385.

Silva GA, Queiroz EA, Arcanjo LP, Lopes MC, Araújo TA, Galdino TSV, … Picanço MC (2021). Biological performance and oviposition preference of tomato pinworm Tuta absoluta when offered a range of Solanaceous host plants. Scientific Reports 11(1153).

Silva JE, Ribeiro LMS, Vinasco N, Guedes RNC, Siqueira HAA (2019). Field‑evolved resistance to chlorantraniliprole in the tomato pinworm Tuta absoluta: inheritance, cross‑resistance profile, and metabolism, Journal of Pest Science 92:1421-1431.

Snoeren TAL, Sitbon E, Levy D (2017). Resistance to arthropod pest in tomatoes. United States Patent Application Publication. Pub. No: US2017/0240910 A1.

Sohrabi F, Nooryazdan HR, Gharati B, Saeidi Z (2017). Plant Resistance to the moth Tuta absoluta (Meyrick) (Lepidoptera:Gelechiidae) in tomato cultivars. Neotropical Entomology 46:203-209.

Solgenomics / SGN (2021). Retrieved 2021 October 16, from

Suresh BV, Roy R, Sahu K, Misra G, Chattopadhyay D (2014). Tomato genomic resources database: an integrated repository of useful tomato genomic information for basic and applied research. PLoS One 9(1):e86387.

Sylla S, Brévault T, Monticelli LS, Diarra K, Desneux N (2019). Geographic variation of host preference by the invasive tomato leaf miner Tuta absoluta: implications for host range expansion. Journal of Pest Science 92:1387.

TGC - The Tomato Genome Consortium (2012). The tomato genome sequence provides insights into fleshy fruit evolution. Nature 485:635-641.

Tonnang HEZ, Mohamed SF, Khamis F, Ekesi S (2015). Identification and risk assessment for worldwide invasion and spread of Tuta absoluta with a focus on Sub-Saharan Africa: implications for phytosanitary measures and management. PLoS One 10(8):e0135283,

Umpiérrez ML, Lagreca ME, Cabrera R, Grille G, Rossini C (2012). Essential oils from Asteraceae as potential biocontrol tools for tomato pests and diseases. Phytochemistry Reviews 11(4):339-350.

Urbaneja A, González-Cabrera J, Arnó J, Gabarra R (2012). Prospects for the biological control of Tuta absoluta in tomatoes of the Mediterranean basin. Pest Management Science. 68:1215-1222.

Vendemiatti E, Zsögön A, de Silva, GFF de Jesus, FA, Cutri L, Figueiredo CRF, … Peres LEP (2017). Loss of type-IV glandular trichomes is a heterochronic trait in tomato and can be reverted by promoting juvenility. Plant Science 259:35-47.

Venzon M, Togni PHB, Amaral DSSL, Rezende MQ, Batista MC, Chiguachi JAM, Martins EF, Perez AL (2018). Mobilização de mecanismos de regulação natural de pragas via plantas com múltiplos serviços ecossistêmicos [Mobilization of natural pest regulation mechanisms via plants with multiple ecosystem services]. Innovations Agronomiques 64:83-95.

Verheggen F, Fontus B (2019). First record of Tuta absoluta in Haiti. Entomologia Generalis 38:349-353.

Weinhold A, Baldwin IT (2011). Trichome-derived O-acyl sugars are a first meal for caterpillars that tags them for predation. Proceedings of the National Academy of Sciences 108(19):7855-7859.

Yarou BB, Bawin T, Boullis A, Heukin S, Lognay G, Verheggen FJ, Francis F (2018). Oviposition deterrent activity of basil plants and their essentials oils against Tuta absoluta (Lepidoptera: Gelechiidae). Environmental Science and Pollution Research 25:29880-29888,

Zappalà L, Biondi A, Alma A, Al-Jboory IJ, Arnò J, Bayram A, … Desneux N (2013). Natural enemies of the South American moth, Tuta absoluta, in Europe, North Africa and Middle East, and their potential use in pest control strategies. Journal of Pest Science 86:635-647.

Zlof V, Suffert M (2012). Report of the EPPO/FAO/IOBC/NEPPO Joint International Symposium on management of Tuta absoluta (tomato borer). Bulletin OEPP/EPPO 42(2):203-204,

Zoubiri S, Baaliouamer A (2014). Potentiality of plants as source of insecticide principles. Journal of Saudi Chemical Society 18:925-938.




How to Cite

CICEOI, R., IORDĂCHESCU, M., UDRIȘTE, A. A., & BĂDULESCU, L. A. (2021). Insights on solanaceous resistance against tomato leafminer (Tuta absoluta), with emphasis on chemical compounds useful in integrated pest management. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 49(4), 12543.



Review Articles
DOI: 10.15835/nbha49412543