The effort to reduce chemicals has become an important issue in floriculture agribusiness. The chemicals included fungicides for white rust control in chrysanthemum. The combined application of synthetic fungicide with biological agent and botanical fungicide were expected not only to reduce synthetic fungicide application, but also suppressed the white rust attacks. The research was conducted at the Indonesian Ornamental Crops Research Institute (IOCRI). A factorial randomized complete blocked experiment was designed to facilitate combined applications of hexaconazol-50 (SFH-50), antagonist microbe Corynebacterium sp. (Cor-5) and formulated botanical fungicide CEES 50EC (ES-50). The results showed that the combined SFH-50 with Cor-5 and ES-50 merely affected the disease intensity, yet less on white rust incidence, period of disease emergence, plant growth, flower production and quality. All combined applications of SFH-50 with Cor-5 and ES-50 showed lower disease intensity than single SFH-50. Higher suppressions were detected on 1 ml/l SFH-50 + 5 ml/l Cor-5-3 and 1 ml/l SFH-50 + 2 ml/l ES-50-3. The use of antagonist microbe and botanical fungicide singly or in combination with synthetic fungicide could reduce with the higher affectivity than single synthetic fungicide application.

Antagonist; Synthetic Fungicide; Biological Fungicide; White Rust; Chrysanthemum

Abd-Elsalam, K. A., & Khokhlov, A. R. (2015). Eugenol oil nanoemulsion: antifungal activity against Fusarium oxysporum f.sp. vasinfectum and phytotoxicity on cottonseeds. Applied Nanoscience, 5(2), 255–265. crossref

Al-Khatib, M., Alhussaen, K., El-banna, N., & Zyadeh, M. (2010). Biological control of olive leaf spot (peacock spot disease) caused by Cycloconium oleaginum (Spilocea oleaginea). Journal of Microbiology and Antimicrobials, 2(6), 64–67.

Amini, J., Farhang, V., Javadi, T., & Nazemi, J. (2016). Antifungal effect of plant essential oils on controlling Phytophthora species. The Plant Pathology Journal, 32(1), 16–24. crossref

Bonde, M. R., Murphy, C. A., Bauchan, G. R., Luster, D. G., Palmer, C. L., Nester, S. E., … Berner, D. K. (2015). Evidence for systemic infection by Puccinia horiana, causal agent of chrysanthemum white rust, in chrysanthemum. Ecology and Epidemiology, 105(1), 91–98. crossref

Bonde, M. R., Palmer, C. L., Luster, D. G., Nester, S. E., Revell, J. M., & Berner, D. K. (2014). Viability of Puccinia horiana teliospores under various environmental conditions. Plant Health Progress, 15(1), 25–28. crossref

Budiarto, K., & Rosario, T. L. (2005). Stock plant productivity of twelve chrysanthemum (Dendrathema grandiflora [Ramat. [Kitam.] varieties grown under covered and open conditions. Philippines Agricultural Scientist, 88(4), 418–430.

Dhinakaran, A., Rajasekaran, R., & Jayalakshmi, S. (2012). Antiphytopathogenic activity of bacterial protein of a marine Corynebacterium sp. isolated from Mandapam, Gulf of Mannar. Journal of Biopesticides, 5(Suppl), 17–22.

Enyiukwu, D. N., Ononuju, C. C., Awurum, A. N., & Nwaneri, J. A. (2016). Modes of action of potential phyto-pesticides from tropical plants in plant health management. IOSR Journal of Pharmacy, 6(7), 1–17.

Gawai, D. (2015). Antifungal activity of essential oil of Cymbopogon citratus stapf against different Fusarium species. Bionano Frontier, 8(2), 186–189.

Göre, M. E. (2008). White rust outbreaks on chrysanthemum caused by Puccinia horiana in Turkey. Plant Pathology, 57(4), 786. crossref

Hanudin, H., Budiarto, K., & Marwoto, B. (2017). Application of PGPR and antagonist fungibased biofungicide for white rust disease control and its economyc analysis in chrysanthemum production. AGRIVITA Journal of Agricultural Science, 39(3), 266–278. crossref

Hanudin, Nuryani, W., Silvia Yusuf, E., Djatnika, I., & Soedarjo, M. (2011). Perbandingan teknik inokulasi Puccinia horiana dan seleksi bakteri antagonis untuk mengendalikan penyakit karat putih pada krisan. Jurnal Hortikultura, 21(2), 173–184. crossref

Harni, R., Amaria, W., & Supriadi. (2013). Keefektifan beberapa formula fungisida nabati eugenol dan sitronella terhadap Phytopthora palmivora Bult. asal kakao. Jurnal Tanaman Industri Dan Penyegar, 4(1), 11–18. crossref

He, H., Ke, H., Keting, H., Qiaoyan, X., & Silan, D. (2013). Flower colour modification of chrysanthemum by suppression of F3′H and overexpression of the exogenous Senecio cruentus F3′5′H gene. PLoS ONE, 8(11), 1–11. crossref

Indonesian Ministry of Agriculture. (2016). Agricultural statistics 2016. (L. Nuryati & B. Waryanto, Eds.). Jakarta: Centre of Agricultural Data and Information System.

Lam, C. H., & Lim, T. L. (1993). Efficacy of hexaconazole for the control of white rust on chrysanthemum and powdery mildew on roses. International Journal of Pest Management, 39(2), 156–160. crossref

Mourao, S. de S. C., Pereira, T. F. de S., de Souza, D. J., Junior, A. F. C., Veloso, R. A., Leao, E. U., & dos Santos, G. R. (2017). Essential oil of Cymbopogon citratus on the control of the Curvularia leaf spot disease on maize. Medicines, 4, 62. crossref

O’Keefe, G., & Davis, D. D. (2015). Morphology of Puccinia horiana, causal agent of chrysanthemum white rust, sampled from naturally infected plants. Plant Disease, 99(12), 1738–1743. crossref

Paranagama, P. A., Abeysekera, K. H. T., Abeywickrama, K., & Nugaliyadde, L. (2003). Fungicidal and anti-aflatoxigenic effects of the essential oil of Cymbopogon citratus (DC.) Stapf. (lemongrass) against Aspergillus flavus Link. isolated from stored rice. Letters in Applied Microbiology, 37(1), 86–90. crossref

Pereira, R. B., Lucas, G. C., Perina, F. J., Ribeiro Junior, P. M., & Alves, E. (2012). Citronella essential oil in the control and activation of coffee plants defense response against rust and brown eye spot. Ciencia E Agrotecnologia, 36(4), 383–390. crossref

Radha, P. L., & Chattannavar, S. N. (2017). Management of seed-borne diseases of sesame through novel seed dressing fungicides, botanicals and bio-agents. International Journal of Current Microbiology and Applied Sciences, 6(10), 2387–2404. crossref

Rana, I. S., Rana, A. S., & Rajak, R. C. (2011). Evaluation of antifungal activity in essential oil of the Syzygium aromaticum (L.) by extraction, purification and analysis of its main component eugenol. Brazilian Journal of Microbiology, 42, 1269–1277. crossref

Salamiah, & Wahdah, R. (2015). Pemanfaatan plant growth promoting rhizobacteria (PGPR) dalam pengendalian penyakit tungro pada padi lokal Kalimantan Selatan. Prosiding Seminar Nasional Masyarakat Biodiversitas Indonesia, 1(6), 1448–1456. crossref

Serdani, A. Di., Aini, L. Q., & Abadi, A. L. (2017). Isolasi dan identifikasi bakteri endofit dari tanaman padi (Oryza sativa) sebagai pengendali penyakit hawar daun bakteri akibat Xanthomonas oryzae pv. oryzae. Jurnal Viabel Pertanian, 11(2), 12–20.

Shabana, Y. M., Abdalla, M. E., Shahin, A. A., El-Sawy, M. M., Draz, I. S., & Youssif, A. W. (2017). Efficacy of plant extracts in controlling wheat leaf rust disease caused by Puccinia triticina. Egyptian Journal of Basic and Applied Sciences, 4(1), 67–73. crossref

Shirurkar, D. D., & Wahegaonkar, N. K. (2012). Antifungal activity of selected plant derived oils and some fungicides against seed borne fungi of maize. European Journal of Experimental Biology, 2(5), 1693–1696.

Sriram, S., Chandran, N. K., Kumar, R., & Reddy, M. K. (2015). First report of Puccinia horiana causing white rust of chrysanthemum in India. New Disease Reports, 32, 8. crossref

Suhardi. (2009). Sumber inokulum, respons varietas, dan efektivitas fungisida terhadap penyakit karat putih pada tanaman krisan. Jurnal Hortikultura, 19(2), 207–213. crossref

Torres, D. E., Rojas-Martínez, R. I., Zavaleta-Mejía, E., Guevara-Fefer, P., Márquez-Guzmán, G. J., & Pérez-Martínez, C. (2017). Cladosporium cladosporioides and Cladosporium pseudocladosporioides as potential new fungal antagonists of Puccinia horiana Henn., the causal agent of chrysanthemum white rust. PLoS ONE, 12(1), e0170782. crossref

Van Rijswick, C. (2015). World Floriculture Map 2015. Rabobank Industry, 475(January), 1–4.

Wang, C., Zhang, J., Chen, H., Fan, Y., & Shi, Z. (2010). Antifungal activity of eugenol against Botrytis cinerea. Tropical Plant Pathology, 35(3), 137–143. crossref

Yusuf, E. S., Djatnika, I., & Suhardi. (2014). Koleksi dan karakterisasi mikoparasit asal karat putih pada krisan. Jurnzl Hortikultura, 24(1), 56–64. crossref

Yusuf, E. S., Nuryani, W., Djatnika, I., Hanudin, Suhardi, & Winarto, B. (2012). Potensi beberapa fungisida nabati dalam mengendalikan karat putih (Puccinia horiana Henn.) dan perbaikan mutu krisan. Jurnal Hortikultura, 22(4), 385–391. crossref

Zeng, J., Sun, J., Xu, Y., Chen, F., Jiang, J., Fang, W., & Chen, S. (2013). Variation for resistance to white rust (Puccinia horiana) among Ajania and chrysanthemum species. HortScience, 48(10),1231–1234.