Xestia c-nigrum
Cutworm Moth
- Category
- invertebrate
- Primary role
- pest insect
- Family
- Noctuidae
- Genus
- Xestia
Animalia | Arthropoda | Insecta | Lepidoptera | Noctuidae | Xestia
External: GBIF #11699876
0 AI-consensus-verified claims .
No verified claims involving this entity yet.
Aggregated via GloBI — not independently verified by AgroEco.
biocontrol 2
- GloBI eats Xestia c-nigrum Bourlat SJ, Koch M, Kirse A, Langen K, Espeland M, Giebner H, Decher J, Ssymank A, Fonseca VG (2023) Metabarcoding dietary analysis in the insectivorous bat Nyctalus leisleri and implications for conservation. Biodiversity Data Journal 11: e111146. https://doi.org/10.3897/BDJ.11.e111146. Accessed at <https://github.com/globalbioticinteractions/bourlat2023/archive/bff8fb55499beddd0cd73663ad0a6cfecd7d1dae.zip> on 23 May 2026. DOI
- GloBI eats Xestia c-nigrum Barba, E., & Gil-Delgado, J. A. (1990). Seasonal variation in nestling diet of the great tit Parus major in orange groves in eastern Spain. Ornis scandinavica, 296-298. DOI
herbivory 4
- GloBI eats Achillea millefolium https://www.inaturalist.org/observations/181424278
- 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 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 dulcamara Poelen, J. H. Global Biotic Interactions: Interpreted Data Products. Zenodo https://doi.org/10.5281/zenodo.5708970 (2021). DOI
pest pressure 2
- 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 hasHost Trifolium pratense 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 10
- 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 Achillea millefolium https://www.inaturalist.org/observations/181424278
- 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
biocontrol 2
- GloBI eats Xestia c-nigrum Bourlat SJ, Koch M, Kirse A, Langen K, Espeland M, Giebner H, Decher J, Ssymank A, Fonseca VG (2023) Metabarcoding dietary analysis in the insectivorous bat Nyctalus leisleri and implications for conservation. Biodiversity Data Journal 11: e111146. https://doi.org/10.3897/BDJ.11.e111146. Accessed at <https://github.com/globalbioticinteractions/bourlat2023/archive/bff8fb55499beddd0cd73663ad0a6cfecd7d1dae.zip> on 23 May 2026. DOI
- GloBI eats Xestia c-nigrum Barba, E., & Gil-Delgado, J. A. (1990). Seasonal variation in nestling diet of the great tit Parus major in orange groves in eastern Spain. Ornis scandinavica, 296-298. DOI
crop interaction 16
- GloBI eats Achillea millefolium https://www.inaturalist.org/observations/181424278
- 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 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 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 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 interactsWith Achillea millefolium https://www.inaturalist.org/observations/181424278
- 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 eats Trifolium pratense 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 hasHost Trifolium pratense 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 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 eats Solanum dulcamara Poelen, J. H. Global Biotic Interactions: Interpreted Data Products. Zenodo https://doi.org/10.5281/zenodo.5708970 (2021). 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