Beet (Beta vulgaris L) is a potential plant for producing sugar (sugar beet) and dye (beetroot). Therefore, there is a great opportunity to be cultivated in Indonesia because of the suitable climate. Beet plants can harvest twice a year and have a higher yield than in areas with subtropical climates. However, the presence of plant pests and disease organism attacks can be a limiting factor in beet production. This study aims to observe pests and diseases attack beet cultivated in greenhouses. The observation conducted for five months, from September 2022 to January 2023. The results showed that symptoms of pest and disease attacks beet are Spodoptera sp., Lyriomyza sp., tungau, Cercospora sp., Rhozoctonia sp., and Erysiphe sp.

Alimohamadian, M., Aramideh, S., Mirfakhaie, S., & Frozan, M. (2022). Silica nanoparticle: A potential of non-invasive and as a natural insecticide application for beet armyworm, Spodoptera exigua Hubner (Lep.: Noctuidae) control. Agricultural Engineering International: CIGR Journal, 24 (2), 248–257.

Bažok, R., Drmić, Z., Čačija, M., Mrganić, M., Gašparić, H. V., Lemić, D., & Perven, F. (2018). Moths of economic importance in the maize and sugar beet production. In Moths. Pests of Potato, Maize and Sugar Beet. IntechOpen.

Bocianowski, J., Jakubowska, M., Zawada, D., & Dobosz, R. (2022). The effect of acaricide control of the Two-Spotted Spider Mite Tetranychus urticae Koch on the cultivation of Sugar Beet (Beta vulgaris L.) and on the size and quality of the yield. Applied Sciences, 12, 1–18. https://doi.org/10.3390/app122312139

Chao, W., & Zhuang, W.-Y. (2019). Evaluating effective Trichoderma isolates for biocontrol of Rhizoctonia solani causing root rot of Vigna unguiculata. Journal of Integrative Agriculture, 18 (9), 2072–2079.

Coles, L. T., & Clifton, P. M. (2012). Effect of beetroot juice on lowering blood pressure in free- living, disease-free adults: a randomized, placebo-controlled trial. Nutrition Journal, 11(6). https://doi.org/10.1186/1475-2891-11-106

Cooke, D. (1993). Nematode parasites of sugarbeet. In K. Evans, T. DL, & J. Webster (Eds.), Plant Parasitic Nematodes in Temmerate Agriculturae; CABI.

Dewar, A. M., & Qi, A. (2021). The virus yellows epidemic in sugar beet in the UK in 2020 and the adverse effect of the EU ban on Neonicotinoids on sugar beet production. Outlooks on Pest Management. https://doi.org/10.1564/v32_apr_02

Ditjenbun, D. (2013). Kerjasama Rencana Pengembangan Tropical Sugar Beet. Jakarta: Direktorat Jenderal Perkebunan.

Dobosz, R., & Kornobis, S. (2008). Population dinamics of sugar beet cyst nematode (Heterodera schachtii) on spring and winter oilseed rape crops. Journal of Plant Protection Research, 48 (2), 237–245. https://doi.org/10.2478/v10045-008-0027-4

Fajri, N., Hidayat, F., & Juliani, J. (2018). Pengaruh penambahan pasta umbi bit merah (Beta vulgaris L.) dan lama fermentasi terhadap organoleptik donat. Agriovet, 1(1), 96–108.

Francis, S. (2002). Sugar-beet powdery mildew (Erysiphe betae). Moleculer Plant Pathology, 3 (3), 119–124. https://doi.org/10.1046/j.1364-3703.2002.00103.x

Gummert, A., Ladewig, E., Bürcky, K., & Märländer, B. (2015). Variety resistance to Cercospora leaf spot and fungicide application as tools of integrated pest management in sugar beet cultivation – A German case study. Crop Protection, 72, 182–194. https://doi.org/10.1016/j.croro.2015.02.024

Halina, H., & Soroka, S. (2008). Phytosanitary situation in sugar beet crops in Belarus. Zemdirbyste-Agriculture, 95 (3), 65–73.

Han, J., Pang, B., Pang, Z., Gao, S., & Chui, W. (2005). Host plant selectivity on different strains of egg plants in Liriomyza huidobrensis. Journal of Inner Mongolia Agricultural University, 26 (3), 29–32.

Hanse, B., Schneider, J., Termorshuizen, A., & Varrelmann, M. (2011). Pests and diseases contribute to sugar beet yield difference between top and averagely managed farms. Crop Protection, 30 (6), 671–678. https://doi.org/10.1016/j.cropro.2011.02.018

He, C., Wu, W., Wang, S., & Wang, L. (2001). Host plants and feeding preferences of Liriomyza huidobrensis. Acta Entomology Sinica, 44, 384–388.

Hikmawati, H., Hasrianty, H., & Shahabuddin, S. (2013). Kajian jenis pengorok daun Liriomyza sp. (Diptera: Agromizidae) pada berbagai tanaman inang di Lembah Palu. Agrotekbis, 1 (3), 204–210.

Hozayn, M., Korayem, A., El-Saady, A., Darwish, D., AA, A.-E. M., & EM, A.-E. L. (2014). Sugar beet productivity as influenced by sources and over doses of nitrogen fertilizers grown in clay soil. Middle East Journal of Agriculture Research, 3 (4), 1189–1195.

Islam, M., Ahmad, S., Uddin, M., & MA, S. (2012). Evaluation of tropical sugarbeet (Beta vulgaris L.) genotypes under Bangladesh condition. Bangladesh Journal of Agriculture Research, 37 (4), 721–728.

Jakubowska, M., Bocianowski, J., Nowosad, K., & Kowalska, J. (2020). Decision support system to improve the effectiveness of chemical control against cutworms in sugar beet. Sugar Technology, 22, 911–922. https://doi.org/10.1007/s12355-020-00808-z

Junping, G., Pang, B., Liu, H., & Meng, R. (2006). Relationship between host selectivity of {sl Liriomyza huidobrensis} on tomatoes and leaf trichomes and nutriments. Plant Protection, 32(2), 25–28.

Khan, J., Del Rio, L., Nelson, R., Rivera-Varas, R., Secor, G., & MFR, K. (2008). Survival, Dispersal, and primary infection site for Cercospora beticola in sugar beet. Plant Disease, 92 (5), 741–745. https://doi.org/10.1094/PDIS-92-5-0741

Knight, N. L., Koenick, L. B., Sharmaa, S., & Pethybridge, S. J. (2020). Detection of Cercospora beticola and Phoma betae on table beet seed using quantitative PCR. Phytopatology, 110. https://doi.org/10.1094/PHYTO-11-19-0412-R

Neher, O. T., & Gallian, J. J. (2023, July 13). Powdery mildew on sugar beet. https://www.kpu.ca/sites/default/files/Powdery%20Mildew%20on%20Sugar%20Beet%20Importance%2C%20Identification%20and%20Control.pdf

Prakash, P. N., Suganthi, A., Bhuvaneswari, K., & Kumar, M. S. (2021). Insect pests, pesticide use, and usage pattern in Beetroot crop cultivated in Tamil Nadu. Biological Forum-An International Journal, 13 (4), 719–727.

Rangel, L. I., Spanner, R. E., Ebert, M. K., Pethybridge, S. J., Stukenbrock, E. H., de Jonge, R., Secor, G. A., & Bolton, M. D. (2020). Cercospora beticola: The intoxicating lifestyle of the leaf spot pathogen of sugar beet. Moleculer Plant Pathology, 21 (8), 1020–1041. https://doi.org/10.1111/mpp.12962

Rossi, P., Meriggi, V., Biancardi, E., Asher, M., Holtschulte, B., Molard, M. R., Rosso, F., Steinrucken, G., & Beckers, R. (2000). Effect of Cercospora leaf spot on sugar beet growth, yield and quality. In Advances in sugar beet research Vol. 2: Cercospora beticola Sacc. Biology, agronomic influence and control measures insugar beet,. International Institute for Beet Research.

Santeshwari, S., Misra, V., Mall, A., & Kumar, D. (2020). Problems and integrated pest management strategy for Spodoptera litura in sugar beet in India. Journal of Experimental Zoology, 23 (2), 1887–1890.

Sharma, P., Branch, E., Kikkert, J., & Pethybridge, S. J. (2023, Mei). Rhizoctonia Crown and root rot of table beet. Cornell CALS. https://www.vegetables.cornell.edu/pest-management/disease-factsheets/rhizoctonia-crown-and-root-rot-of-table-beet/.

Skaracis, G. N., Pavli, O. I., & Biancardi, E. (2010). Cercospora Leaf Spot Disease of sugar beet. Sugar Technology, 12(3–4), 220–228. https://doi.org/0.1007/s12355-010-0055-z

Storelli, A., Minder, A., Keiser, A., Kiewnick, S., Daub, M., Mahlein, A.-K., Schumann, M., & Beyer, W. (2021). Screening of sugar beet pre-breeding populations and breeding lines for resistance to Ditylenchus dipsaci penetration and reproduction. Journal of Plant Diseases and Protection, 128, 1303–1311. https://doi.org/10.1007/s41348-021-00483-6

Subrahmanyeswari, T., & Gantait, S. (2022). Advancements and prospectives of sugar beet (Beta vulgaris L.) biotechnology. Applied Microbiology and Biotechnology, 106 (22), 7417–7430. https://doi.org/10.1007/s00253-022-12226-0

Suryarini, D. Y. (2019). Pengaruh komposisi beberapa jenis media tanam pada pertumbuhan dan hasil tanaman bit merah (Beta vulgari L.). Universitas Brawijaya.

Talee, L., Fathipour, Y., Talebi, A., & Khajehali, J. (2017). Performance Evaluation of Spodoptera exigua (Lepidoptera: Noctuidae) Larvae on 10 sugar beet genotypes using nutritional indices. Journal of Agriculture Science and Technology, 19, 1103–1112.

Tenford, S. L., Schaafsma, A. W., Trueman, C. L., & Burlakoti, R. R. (2018). Relationships among airborne Cercospora beticola conidia concentration, weather variables, and cercospora leaf spot severity in sugar beet (Beta vulgaris L.). Canadian Journal of Plant Pathology, 40 (1), 1–10. https://doi.org/10.1080/07060661.2017.1410726

Weintrau, P. G., Scheffe, S. J., Visser, D., Valladares, G., Correa, A. S., Shepard, B. M., Rauf, A., Murphy, S. T., Mujica, N., MacVean, C., Kroschel, J., Kishinevsky, M., Joshi, R. C., Johansen, N. S., Hallett, R. H., Civelek, H. S., Chen, B., & Metzler, H. B. (2017). The Invasive Liriomyza huidobrensis (Diptera: Agromyzidae): Understanding its pest status and management globally. Journal of Insect Science, 17 (1), 1–27. https://doi.org/10.1093/jisesa/iew121

Winanti, E., Andrianti, M., & Nurhartadi, N. (2013). Pengaruh Penambahan bit (Beta vulgaris) sebagai pewarna alami terhadap karakteristik fisikokimia dan sensori sosis daging sapi. Jurnal Teknosains Pangan, 2 (4), 18–24.

Wolf, P., & Verreet, A. (2002). An Integrated pest management system in Germany for the control of fungal leaf diseases in Sugar Beet: The IPM sugar beet model. Plant Disease, 86 (4), 336–344.