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Ítem Digital mapping tool: a territorial approach for containment of Fusarium wilt TR4 in Peru(International Society for Horticultural Science, 2023-05-16) Clercx, L.; Cozzarelli, M.; Balarezo Camminati, D.; Rojas Llanque, Juan CarlosFusarium wilt caused by the tropical race 4 (TR4) of Fusarium oxysporum f. sp. cubense is known as the most serious and devastating banana disease. In April 2021 the presence of TR4 was detected on a plot in Chocán, in the district of Querecotillo in the Chira Valley, Peru. Organic banana cultivation for export is located in this valley, between Sullana and Piura, in Morropón and Lambayeque; altogether, 10,000 ha. There are two dozen mid-sized banana farms; but the export sector is mainly made up of approximately 9,000 small producers, with average plot sizes of 0.5-1.0 ha, organized in around 35 producer associations and cooperatives. To a great extent, the banana sector depends on flood irrigation. Harvesting is done by dozens of harvesting teams, who cut and carry banana bunches on their shoulder to one of the hundreds small packing stations, walking their shortest way through the banana plots. The export banana sector in Peru is small and young, with only an incipient institutional development and leadership. Typical biosecurity protocols to prevent entrance of the fungus are designed for farms; and need ‘re-invention’ for the highly fragmented context of Peru. All these characteristics make the sector extremely vulnerable to further spreading of TR4. Between April 2021 and June 2022, 82 TR4 outbreaks were detected by the phytosanitary agency SENASA in the districts of Querecotillo, Salitral and Marcavelica. Together with the data processing company Opus Insights, and in a broad alliance with other companies and institutions, the importer of Fairtrade and organic banana AgroFair started a project to carry out detailed aerial mapping, as tool for implementation of risk analysis and biosecurity measures with a territorial approach. The digital maps were completed in July 2022. We will examine the first practical experiences with this tool, formulate recommendations and indicate institutional conditions favorable to develop strategies for coping with TR4.Ítem Draft genome sequence of Fusarium oxysporum f. sp. cubense tropical race 4 from Peru, obtained by nanopore and illumina hybrid assembly(American Society for Microbiology, 2022-08-08) Leiva, Ana M.; Rouard, Mathieu; Lopez Alvarez, Diana; Cenci, Alberto; Breton, Catherine; Acuña Payano, Rosalyn Katherine; Rojas Llanque, Juan Carlos; Dita, Miguel; Cuellar, Wilmer J.Fusarium oxysporum f. sp. cubense tropical race 4 (Foc TR4) is the causal agent of Fusarium wilt, a major threat to the banana industry worldwide. Here, we report the genome of a Foc TR4 strain from Peru, sequenced using a combination of Illumina and Oxford Nanopore Technologies.Ítem First report of Fusarium oxysporum f. sp. cubense tropical race 4 causing Fusarium wilt in Cavendish bananas in Peru(American Phytopathological Society, 2022-06-29) Acuña Payano, Rosalyn Katherine; Rouard, M.; Leiva, A. M.; Marques, C.; Olortegui, J. A.; Ureta, C.; Cabrera Pintado, Rosa María; Rojas Llanque, Juan Carlos; Lopez Alvarez, Diana; Cenci, A.; Cuellar, W. J.; Dita, M.Fusarium oxysporum f. sp. cubense Tropical Race 4 (Foc TR4), the causal agent of Fusarium wilt of banana (FWB), is currently the major threat to the banana industry worldwide (Dita et al. 2018). Restricted to South Asia for more than 20 years, Foc TR4 has spread in the last years to the Middle East, Mozambique, and Colombia (García-Bastidas et al. 2020; https://pestdisplace.org/embed/news/map/disease/11). The incursion of Foc TR4 in Colombia increased awareness and prevention efforts across Latin America and the Caribbean (LAC). However, new Foc TR4 outbreaks in LAC countries were considered inevitable. In April 2021, banana (Musa spp., Cavendish, AAA) plants (30% of incidence) showing typical symptoms of FWB, such as leaf yellowing, wilting, and vascular discoloration, were observed in one farm (about 1 ha) located in Querecotillo, Peru (4°43′54.84″ S, 80°33′45.00″ W). Mycological analyses of samples (pseudostem strands) collected from 10 symptomatic plants were performed as described by Dita et al. (2010). These analyses revealed a continuous presence of fungal colonies identified as F. oxysporum species complex. Molecular diagnostics targeting two different genome regions (Dita et al. 2010; Li et al. 2013) identified nine of these isolates as Foc TR4. These results were further confirmed by qPCR analyses using the commercial Clear Detections TR4 kit. The genomes of four single-spore isolates (PerS1, PerS2, PerS3, and PerS4) were sequenced using the Illumina platform (MiSeq Kit, 2x151 bp Paired-End). The strain PerS4 was also sequenced using Oxford Nanopore (FLOW-MIN111; R10.3 chemistry) as described by López-Alvarez et al. (2020). The generated draft assembly yielded 533 contigs for a size of 47 Mbp (BioProject: PRJNA755905), which is comparable with sizes of previously reported Foc TR4 strains (Asai et al. 2019; García-Bastidas et al. 2020; Maymon et al. 2020; Warmington et al. 2019; Zheng et al. 2018). The sequence assembly showed high contiguity (94.9%) and high similarity (95.48%) with the high-quality genome sequence of the Foc TR4 isolate ‘UK0001’ (Warmington et al. 2019). Further analyses to identify the presence/absence of full sequences for the putative effector genes (Secreted in Xylem - SIX) and their allelic copies also revealed that the SIX gene profiles of the strains isolated from Querecotillo matched with previously reported Foc TR4 isolates (Czislowski et al. 2017). Pathogenicity tests with three isolates and water controls were performed as described by Dita et al. (2010), using five Cavendish plantlets per treatment. Four weeks after the inoculation, typical external and internal symptoms of FWB were observed only in the inoculated plants. Fungal isolates recovered from inoculated plants tested positive for Foc TR4 when analyzed with PCR diagnostics as mentioned above. No fungal isolates were recovered from water-control plants, which did not show any symptoms. Altogether, our results confirm the first incursion of Foc TR4 in Peru. Currently, Foc TR4 has the phytosanitary status of a present pest with restricted distribution in Peru, and it is under official control of the National Plant Protection Organization – SENASA. Reinforced prevention and quarantine measures, disease monitoring, and capacity building to detect, contain and manage eventual new outbreaks of Foc TR4 are strongly encouraged across LAC banana-producing countries, especially those bordering Peru with larger banana plantations, such as Ecuador and Brazil.Ítem Impact and control of transboundary and invasive banana (Musa spp.) Wilt pathogen, Fusarium oxysporum f. sp. cubense(Springer Nature, 2025-06-25) Sasaki, Nobumitsu; Yokoi, Satoshi; Trigoso Hidalgo, Carla Ximena; Suzuki, Sakae; Takahashi, Sakura; Sha, Kei-ai; Fukuhara, Toshiyuki; Nomura, Yoshihiro; Yamada, Masaaki; Watanabe, Haruka; Kashiwa, Takeshi; Kodama, Motoichiro; Kido, Kazutaka; Abe, Tomoko; Casas Díaz, Andrés Virgilio; Aragón Caballero, Lilliana María; Palomo Herrera, Angel Alfonso; Gonzáles Miranda, María del Carmen; Nishida, Yuichi; Ono Morikawa, Cecilia Inés; Gutiérrez Reynoso, Dina Lida; Cabrera Pintado, Rosa María; Cáceres Patricio, Esmeralda Flor; Cabezas Huayllas, Oscar Esmael; Rivas Pulache, Victorino; Chia Wong, Julio Alfonso; Arie, TsutomuFusarium wilt (FW), or Panama disease, which is caused by Fusarium oxysporum f. sp. cubense (Focb), is one of the most destructive threats to banana/plantain (Musa spp.) pro duction worldwide. Especially the pandemic of Focb race TR4, which can cause FW on the FW-resistant cultivar ‘Cavendish’, is damag ing banana plantations in Asia, India, Australia, East Africa, and South America. In the Selva area of Peru, banana cultiva tion is an important part of farmers’ liveli hoods. A team of Japanese and Peruvian research institutes is currently working on a SATREPS project with the goal of not only preventing the introduction of Focb race TR4 into Peruvian organic banana production areas but also enabling the continuation of high quality banana production by preventing existing FW, thereby improving the liveli hoods of farmers in the region. To achieve this goal, "ve research activities are conducted in the jungle, Tingo María area: (1) establish ment of speci"c diagnosis technology for FW at the macro- to micro-level; (2) development of varieties that are resistant to FW using mutation induction; (3) establishment of a pathogen-free seedling production and supply system; (4) analysis of the microbial #ora of disease-suppressing soil; and (5) establish ment of low-environmental-impact FW con trol technology, such as biological pesticides and plant activators