Lacanobia oleracea

Bright-line Brown-eye

Category: invertebrate
Primary role: pest insect
Class: Insecta
Order: Lepidoptera
Family: Noctuidae
Genus: Lacanobia

External: GBIF #1759083

1 AI-consensus-verified claim across 1 interaction category.

Related entities

Top entities sharing the most verified claims with Lacanobia oleracea.

Solanum lycopersicum

Garden Tomato

1 shared claim

herbivory 1 claim

This entity is the subject of herbivory on Solanum lycopersicum (Garden Tomato) · effect: harmful

“activity as a moult inhibitor in the tomato moth Lacomobia oleracea”

eats ✓ 2/2 AI critics agreed

Dent D. (2000) · Insect Pest Management, 2nd Edition · p. 87 #6492946

Aggregated via GloBI — not independently verified by AgroEco.

herbivory 6

GloBI eats Brassica oleracea Pearse, I. S., & Altermatt, F. (2013). Extinction cascades partially estimate herbivore losses in a complete Lepidoptera-plant food web. Ecology, 94(8), 1785–1794. https://doi.org/10.1890/12-1075.1 DOI
GloBI eats Solanum lycopersicum Ellis, W. N. (2022). Plant Parasites of Europe – leafminers, galls and fungi [Database]. https://bladmineerders.nl/
GloBI eats Vicia faba https://www.inaturalist.org/observations/228467820
GloBI eats Chenopodium album Ellis, W. N. (2022). Plant Parasites of Europe – leafminers, galls and fungi [Database]. https://bladmineerders.nl/
GloBI eats Trifolium dubium Macfadyen, S., Gibson, R., Polaszek, A., Morris, R. J., Craze, P. G., Planqué, R., Symondson, W. O. C., & Memmott, J. (2013). Data from: Do differences in food web structure between organic and conventional farms affect the ecosystem service of pest control? (Version 1, p. 224668 bytes) [Dataset]. Dryad. https://doi.org/10.5061/DRYAD.5FR85 DOI
GloBI eats Trifolium pratense Macfadyen, S., Gibson, R., Polaszek, A., Morris, R. J., Craze, P. G., Planqué, R., Symondson, W. O. C., & Memmott, J. (2013). Data from: Do differences in food web structure between organic and conventional farms affect the ecosystem service of pest control? (Version 1, p. 224668 bytes) [Dataset]. Dryad. https://doi.org/10.5061/DRYAD.5FR85 DOI

pest pressure 3

GloBI hasHost Chenopodium album https://www.inaturalist.org/observations/186670705
GloBI hasHost Solanum lycopersicum Gaden S. Robinson; Phillip R. Ackery; Ian Kitching; George W Beccaloni; Luis M. Hernández (2023). HOSTS (from HOSTS - a Database of the World's Lepidopteran Hostplants) [Data set resource]. Natural History Museum. https://data.nhm.ac.uk/dataset/hosts/resource/877f387a-36a3-486c-a0c1-b8d5fb69f85a via Natural History Museum (2023). Data Portal query on 1 resources created at 2023-05-24 11:19:42.032183 PID https://doi.org/10.5519/qd.bsucrxdz. Accessed at <https://github.com/globalbioticinteractions/HOSTS/archive/808e0b869f9ec1adf8efff87cf6a395adda103e0.zip> on 23 May 2026. DOI
GloBI hasHost Brassica oleracea Gaden S. Robinson; Phillip R. Ackery; Ian Kitching; George W Beccaloni; Luis M. Hernández (2023). HOSTS (from HOSTS - a Database of the World's Lepidopteran Hostplants) [Data set resource]. Natural History Museum. https://data.nhm.ac.uk/dataset/hosts/resource/877f387a-36a3-486c-a0c1-b8d5fb69f85a via Natural History Museum (2023). Data Portal query on 1 resources created at 2023-05-24 11:19:42.032183 PID https://doi.org/10.5519/qd.bsucrxdz. Accessed at <https://github.com/globalbioticinteractions/HOSTS/archive/808e0b869f9ec1adf8efff87cf6a395adda103e0.zip> on 23 May 2026. DOI

pollination 13

GloBI visits Solanum lycopersicum https://www.inaturalist.org/observations/203739742
GloBI interactsWith Vicia faba https://www.inaturalist.org/observations/228467820
GloBI interactsWith Solanum lycopersicum https://www.inaturalist.org/observations/227296406
GloBI visitsFlowersOf Hypericum perforatum R.E. Walton et al., 2020. Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape.. Biology Letters, 16. doi:10.1098/rsbl.2019.0877 DOI
GloBI visitsFlowersOf Trifolium repens R.E. Walton et al., 2020. Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape.. Biology Letters, 16. doi:10.1098/rsbl.2019.0877 DOI
GloBI interactsWith Chenopodium album https://www.inaturalist.org/observations/186670705
GloBI pollinates Hypericum perforatum Balfour, N. J., Castellanos, M. C., Goulson, D., Philippides, A., & Johnson, C. (2022). DoPI: The Database of Pollinator Interactions. Ecology, 103(11), e3801. https://doi.org/10.1002/ecy.3801 DOI
GloBI visitsFlowersOf Papaver rhoeas Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI
GloBI visitsFlowersOf Trifolium dubium Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI
GloBI visitsFlowersOf Trifolium pratense Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI
GloBI pollinates Trifolium repens Balfour, N. J., Castellanos, M. C., Goulson, D., Philippides, A., & Johnson, C. (2022). DoPI: The Database of Pollinator Interactions. Ecology, 103(11), e3801. https://doi.org/10.1002/ecy.3801 DOI
GloBI visitsFlowersOf Brassica oleracea Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI
GloBI visitsFlowersOf Solanum dulcamara Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI

crop interaction 22

GloBI visits Solanum lycopersicum https://www.inaturalist.org/observations/203739742
GloBI eats Brassica oleracea Pearse, I. S., & Altermatt, F. (2013). Extinction cascades partially estimate herbivore losses in a complete Lepidoptera-plant food web. Ecology, 94(8), 1785–1794. https://doi.org/10.1890/12-1075.1 DOI
GloBI eats Solanum lycopersicum Ellis, W. N. (2022). Plant Parasites of Europe – leafminers, galls and fungi [Database]. https://bladmineerders.nl/
GloBI eats Vicia faba https://www.inaturalist.org/observations/228467820
GloBI eats Chenopodium album Ellis, W. N. (2022). Plant Parasites of Europe – leafminers, galls and fungi [Database]. https://bladmineerders.nl/
GloBI interactsWith Vicia faba https://www.inaturalist.org/observations/228467820
GloBI interactsWith Solanum lycopersicum https://www.inaturalist.org/observations/227296406
GloBI hasHost Chenopodium album https://www.inaturalist.org/observations/186670705
GloBI visitsFlowersOf Hypericum perforatum R.E. Walton et al., 2020. Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape.. Biology Letters, 16. doi:10.1098/rsbl.2019.0877 DOI
GloBI visitsFlowersOf Trifolium repens R.E. Walton et al., 2020. Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape.. Biology Letters, 16. doi:10.1098/rsbl.2019.0877 DOI
GloBI hasHost Solanum lycopersicum Gaden S. Robinson; Phillip R. Ackery; Ian Kitching; George W Beccaloni; Luis M. Hernández (2023). HOSTS (from HOSTS - a Database of the World's Lepidopteran Hostplants) [Data set resource]. Natural History Museum. https://data.nhm.ac.uk/dataset/hosts/resource/877f387a-36a3-486c-a0c1-b8d5fb69f85a via Natural History Museum (2023). Data Portal query on 1 resources created at 2023-05-24 11:19:42.032183 PID https://doi.org/10.5519/qd.bsucrxdz. Accessed at <https://github.com/globalbioticinteractions/HOSTS/archive/808e0b869f9ec1adf8efff87cf6a395adda103e0.zip> on 23 May 2026. DOI
GloBI interactsWith Chenopodium album https://www.inaturalist.org/observations/186670705
GloBI pollinates Hypericum perforatum Balfour, N. J., Castellanos, M. C., Goulson, D., Philippides, A., & Johnson, C. (2022). DoPI: The Database of Pollinator Interactions. Ecology, 103(11), e3801. https://doi.org/10.1002/ecy.3801 DOI
GloBI visitsFlowersOf Papaver rhoeas Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI
GloBI eats Trifolium dubium Macfadyen, S., Gibson, R., Polaszek, A., Morris, R. J., Craze, P. G., Planqué, R., Symondson, W. O. C., & Memmott, J. (2013). Data from: Do differences in food web structure between organic and conventional farms affect the ecosystem service of pest control? (Version 1, p. 224668 bytes) [Dataset]. Dryad. https://doi.org/10.5061/DRYAD.5FR85 DOI
GloBI visitsFlowersOf Trifolium dubium Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI
GloBI eats Trifolium pratense Macfadyen, S., Gibson, R., Polaszek, A., Morris, R. J., Craze, P. G., Planqué, R., Symondson, W. O. C., & Memmott, J. (2013). Data from: Do differences in food web structure between organic and conventional farms affect the ecosystem service of pest control? (Version 1, p. 224668 bytes) [Dataset]. Dryad. https://doi.org/10.5061/DRYAD.5FR85 DOI
GloBI visitsFlowersOf Trifolium pratense Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI
GloBI pollinates Trifolium repens Balfour, N. J., Castellanos, M. C., Goulson, D., Philippides, A., & Johnson, C. (2022). DoPI: The Database of Pollinator Interactions. Ecology, 103(11), e3801. https://doi.org/10.1002/ecy.3801 DOI
GloBI hasHost Brassica oleracea Gaden S. Robinson; Phillip R. Ackery; Ian Kitching; George W Beccaloni; Luis M. Hernández (2023). HOSTS (from HOSTS - a Database of the World's Lepidopteran Hostplants) [Data set resource]. Natural History Museum. https://data.nhm.ac.uk/dataset/hosts/resource/877f387a-36a3-486c-a0c1-b8d5fb69f85a via Natural History Museum (2023). Data Portal query on 1 resources created at 2023-05-24 11:19:42.032183 PID https://doi.org/10.5519/qd.bsucrxdz. Accessed at <https://github.com/globalbioticinteractions/HOSTS/archive/808e0b869f9ec1adf8efff87cf6a395adda103e0.zip> on 23 May 2026. DOI
GloBI visitsFlowersOf Brassica oleracea Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI
GloBI visitsFlowersOf Solanum dulcamara Richard E. Walton, Carl D. Sayer, Helen Bennion, Jan C. Axmacher; Nocturnal pollinators strongly contribute to pollen transport of wild flowers in an agricultural landscape. Biol Lett 1 May 2020; 16 (5): 20190877. https://doi.org/10.1098/rsbl.2019.0877. Accessed at <https://github.com/globalbioticinteractions/walton2020/archive/c8954ca2555d6fb13c1521c9fd0f50925fc8efe3.zip> on 23 May 2026. DOI

Profile

Scientific name: Lacanobia oleracea
Common name: Bright-line Brown-eye
Kingdom: Metazoa
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Family: Noctuidae
Genus: Lacanobia
Category: invertebrate
Organism type: —
Primary role: pest insect
Larval role: herbivore
Adult role: nectarivore
Life cycle: —
Temperature: —
Native regions: Belgium, Brussels-Capital Region, Flemish Region, Walloon Region, Antwerpen province, Brabant Wallon province, Brabant province, Hainaut province, Limburg province, Liège province, Luxembourg province, Namur province +6 more
Invasive regions: —
Habitat: —
Activity months: —
Activity pattern: —
Migration: —
Voltinism: —
Diet breadth: —
Diet type: —
Host range: —
Pest mobility: —
Crop damage: —
Vulnerable stage: —
Degree-days: —
Thermal kill: —
Dispersal: —
Natural enemies: —
Biocontrol product: —

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