**Acknowledgements**

This chapter was performed under the programme Horticulture (P4-0013), funded by the Slovenian Research Agency, and under Professional tasks from the field of plant protection, funded by the Ministry of Agriculture and Environment – Phytosanitary Administration of the Republic of Slovenia.

var. *capitata* L.). Graduation thesis. Biotechnical faculty, Dep. of Agronomy, Ljublja‐

Research on Seasonal Dynamics of 14 Different Insects Pests in Slovenia Using Pheromone Traps

http://dx.doi.org/10.5772/53186

169

[8] Bohinc, T, & Trdan, S. (2012). Trap crops for reducing damage caused by cabbage stink bugs (*Eurydema* spp.) and flea beetles (*Phyllotreta* spp.) on white cabbage: fact or fantasy? International Journal of Food, Agriculture and Environment , 10(2),

[9] Brady, U. E. Tumlinson III, J.H., Brownlee, R.G., Silverstein, R.M., (1971). Sex stimu‐ lant and attractant in the Indian meal moth and in the almond moth. Science , 171,

[10] Chambers, J. (1990). Overview on stored-product insect pheromones and food attrac‐

[11] Cox, P. D, & Bell, C. H. (1991). Biology and ecology of moth pests of stored foods. In: Gorham J.R. (ed). Ecology and management of food-industry pests (FDA technical bulletin Gaithersburg, Maryland, USA: The Association of Official analytical chem‐

[12] Cepin, N. (2006). Population dynamics of sugarbeet moth (*Scrobipalpa ocellatella* Boyd, Lepidoptera, Gelechiidae) in Slovenia. Graduation thesis. Biotechnical faculty, Dep.

[13] Dolenec, B. (2012). Occurence of the beet moth (*Scrobipalpa ocellatella* Boyd, Lepidop‐ tera, Gelechiidae) and the turnip moth (*Agrotis segetum* [Denis & Schiffermüller], Lepidoptera, Noctuidae) on the fodder beet field (*Beta vulgaris* L. subsp. *vulgaris* var. *alba* DC.) in the area of Škofja Loka. Graduation thesis. Biotechnical faculty, Dep. of

[14] Eigenbrode, S. D, & Shelton, A. M. (1990). Behavior of Neonate Diamondback Moth Larvae (Lepidoptera: Plutellidae) on Glossy-Leafed Resistant *Brassica oleracea* L. Envi‐

[15] Estay, S. A, Lima, M, & Labra, F. A. (2009). Predicting insect pest status under climate change scenarios: combining experimental data and population dynamics modelling.

[16] Florijancic, L. (2010). Seasonal dynamics of European grape berry moth (*Clysia ambi‐ guella* Hübner) and European grapevine moth (*Lobesia botrana* [Denis & Schiffermül‐ ler]) on two varieties of European grapevine. Graduation thesis, Biotechnical faculty,

[17] Garcia-barros, E. (2000). Body size, egg size, and their interspecific relationships with ecological and life history traits in butterflies (Lepidoptera: Papilionoidea, Hesperioi‐

[18] Gilligan, T. M, & Epstein, M. E. (2011). The European grape vine moth not found in California: *Eupoecilia ambiguella* (Hubner)., *In* Plant Pest Diagnostics Center Annual

Report 2010. California Department of Agriculture, Sacaramento, CA., 32-34.

tants. Journal of the Kansas Entomological Society , 63, 490-499.

of Agronomy, Ljubljana: 86 pp. [in Slovenian]

Agronomy, Ljubljana: 37 pp. [in Slovenian]

ronmental Entomology , 19(5), 1566-1571.

*Journal of Applied Entomology* , 133, 491-499.

Dep. of Agronomy, Ljubljana: 34 pp. [in Slovenian]

dea). *Biological Journal of the Linnean Socitey* , 70, 251-284.

na: 32 pp. [in Slovenian]

1365-1370.

802-804.

ists. (4), 181-193.
