Draft genome sequences of halotolerant Halomonas spp. SpR1 and SpR8, potential plant growth-promoting bacteria associated with Salicornia rhizosphere in a hydrothermal lagoon ecosystem of the Altiplano, Northern Chile.

Halotolerant Halomonas spp. SpR1 and SpR8 are potential plant growth-promoting bacteria (PGPB) isolated from Salicornia rhizosphere in a Chilean Altiplano hydrothermal lagoon. We report draft genomes of Halomonas sp. SpR1 (5.17Mb) and Halomonas sp. SpR8 (4.47 Mb). Both represent potentially novel independent species closely related to Halomonas boliviensis DSM 15516T.

First Report of Pantoea ananatis and Pantoea eucalypti causing onion leaf blight and bulb decay in Central Chile.

Nearly 5,400 hectares of long-day onions (Allium cepa) are cultivated in the Central Zone of Chile (UTM 33°3´S to 37°24´S). During summer 2021-22 and 2022-23 (December to February), followed by high temperatures (around 35°C) and high humidity conditions, symptoms showing yellowing, soft rot, blight on old leaves, necrotic tips, and soft bulbs were observed. The affected plants were observed in "spots" into the fields, and the incidence reached 5-10%. The severity was high, and 70-80% of the affected plants died. Symptomatic plants from different fields from the Coquimbo, Metropolitan, O´Higgins and Maule regions were sampled. Isolations were made using casamino-acid peptone glucose (CPG) agar medium (Schaad, 2001). Yellow-pigmented, circular to irregular shaped colonies were observed. Molecular identification was carried out by partial 16S rRNA gene sequencing, resulting in the identification of 18 isolates of Pantoea spp. from twelve different fields. Selected strains were biochemically analyzed using the GEN III BIOLOG microtest system (Hayward, CA) and were identified as Pantoea spp. BLAST analyses of the 16S rRNA sequences (602 nt) of selected strains (GenBank Accession No. OR527817 to OR527819) against the NCBI Database resulted in the identification of Pantoea species with 100% coverage and 100% identity. To determine the Pantoea species of each strain, housekeeping gene gyrB (Delétoile et al. 2009) was amplified and sequenced (GenBank Accessions No. OR544061 to OR544063). BLAST analysis (802 nt) of selected strains resulted in 100% coverage and 100% identity, identifying three different species: P. ananatis, P. eucalypti, and P. agglomerans. Pantoea species were isolated from both leaves and bulbs and no more than one species was observed per field. Pathogenicity assays in onion plants and bulbs were performed based on the methodology described by Asselin et al. (2018). Five onion plants cv. Cimarron of thirteen-week-old were inoculated by wounding an external leave with a sterile toothpick previously immersed in a bacterial suspension at ~ 108 CFU/mL and maintained at 26-28°C for 30 days in high humidity conditions. Control plants were inoculated with sterile water. Plants inoculated with Pantoea spp. showed chlorosis, soft rot, and necrosis mainly in older leaves, as observed in the field, while negative control plants remained healthy. Pantoea spp. were re-isolated from the inoculated onion plants. Toothpicks dipped in the inoculum were stuck 4 cm into the shoulders of onion bulbs and incubated at 26°C for 20 days. Water was inoculated as a negative control. At the end of the incubation period, the bulbs were opened longitudinally across their inoculation sites and shrunken, brownish, watery scales were observed. Pantoea species have been previously described as causing leaf blight of onions in Georgia and Michigan in the USA and South Africa, Brazil, and Uruguay (Hattingh and Walters 1981; Gitaitis and Gay 1997; Edens et al. 2006; Tho et al. 2015; De Armas et al. 2022; Rosende et al. 2022). P. agglomerans was recently reported in Chile (Sepúlveda et al. 2023), but this is the first report of P. ananatis and P. eucalypti affecting onions in central Chile. This detection is an alert call for the onion's growers and exporters in Chile for upcoming seasons, where conditions predisposing to disease may continue to occur. It is crucial to continue analyzing the factors that caused the appearance of this new disease in onions.

Occurrence of Pseudomonas cichorii causing midrib rot of lettuce under hydroponic cultivation in Chile.

In Chile, lettuce is the vegetable that has increased in cultivated area the most in recent years, reaching 8,309 ha. The Coquimbo Region contributes the most to this growth in production with 3,284 ha in 2022 (ODEPA 2023). Most lettuce is grown under open field conditions, but there is significant production in greenhouses and an increase in hydroponic production systems (INIA 2017). During April to June 2021 and 2022 in the Coquimbo Region, butterhead-type lettuce seedlings (Lactuca sativa) cv. Neil, cultivated under a hydroponic system, showed severe brown to black lesions in the leaves and midrib (Figure S1). To determine the etiology of this problem, samples of diseased plants were taken. Pieces of symptomatic tissue were macerated, and the extract was spread on nutrient agar (NA) and on King's B medium (KB) and incubated at 23°C for 48 h. The bacterial colonies observed were predominantly circular, creamy-white in color with irregular margins and fluorescent in KB medium. Isolates were gram-negative strictly aerobic. LOPAT test (Lelliot et al. 1966) results of two selected isolates were: levan production (-), oxidase reaction (+), potato soft rot (-), arginine dihydrolase production (-), and tobacco hypersensitivity (+), which corresponds to the profile of Pseudomonas cichorii. Molecular identification was performed through amplification and sequencing of the 16S rRNA (GenBank Accessions No. OR540674 to OR540675), gyrB and rpoD genes (Hwang et al. 2005; Sarkar and Guttmann 2004) (GenBank Accessions No. OR558279 to OR558282). BLAST analysis of the 16S rRNA gene of the isolates resulted in a match with a 99.86% identity with P. cichorii type strain ATCC 10857 (NR_112070.1). BLAST analysis of gyrB and rpoD resulted in a match with a 100% (630/630 bp) and >99% (546/550 bp) identity respectively, with strains of P. cichorii. Five six-month-old lettuce plants cv. Desert Storm were pricked in the midrib with a toothpick smeared with a fresh colony grown on KB medium. Seven days after inoculation, the plants showed dark brown, watery lesions, characteristic of damage caused by P. cichorii (Figure S1). Bacteria were isolated again from the inoculated plants and were identified as P. cichorii using LOPAT and molecular identification techniques. Midrib rot caused by P. cichorii was reported as an emerging disease of greenhouse-grown lettuce by Cottyn et al. (2009). In Chile, P. cichorii was previously described affecting nectarine fruits (Pinto de Torres and Carreño Ibañez 1983) and reported as a pathogen of lettuce among others horticultural crops by Servicio Agrícola y Ganadero of the Government of Chile (Acuña 2008), but this is the first report of P. cichorii affecting hydroponic lettuce plants in Chile. These results will be the basis of future studies to evaluate the origin of the infection, the potential dissemination, and the implementation of disease management to avoid the damage caused by this bacterium in hydroponic systems in this crop of growing importance in Chile.

Microbial Diversity of Psychrotolerant Bacteria Isolated from Wild Flora of Andes Mountains and Patagonia of Chile towards the Selection of Plant Growth-Promoting Bacterial Consortia to Alleviate Cold Stress in Plants.

Cold stress decreases the growth and productivity of agricultural crops. Psychrotolerant plant growth-promoting bacteria (PGPB) may protect and promote plant growth at low temperatures. The aims of this study were to isolate and characterize psychrotolerant PGPB from wild flora of Andes Mountains and Patagonia of Chile and to formulate PGPB consortia. Psychrotolerant strains were isolated from 11 wild plants (rhizosphere and phyllosphere) during winter of 2015. For the first time, bacteria associated with Calycera, Orites, and Chusquea plant genera were reported. More than 50% of the 130 isolates showed ≥33% bacterial cell survival at temperatures below zero. Seventy strains of Pseudomonas, Curtobacterium, Janthinobacterium, Stenotrophomonas, Serratia, Brevundimonas, Xanthomonas, Frondihabitans, Arthrobacter, Pseudarthrobacter, Paenarthrobacter, Brachybacterium, Clavibacter, Sporosarcina, Bacillus, Solibacillus, Flavobacterium, and Pedobacter genera were identified by 16S rRNA gene sequence analyses. Ten strains were selected based on psychrotolerance, auxin production, phosphate solubilization, presence of nifH (nitrogenase reductase) and acdS (1-aminocyclopropane-1-carboxylate (ACC) deaminase) genes, and anti-phytopathogenic activities. Two of the three bacterial consortia formulated promoted tomato plant growth under normal and cold stress conditions. The bacterial consortium composed of Pseudomonas sp. TmR5a & Curtobacterium sp. BmP22c that possesses ACC deaminase and ice recrystallization inhibition activities is a promising candidate for future cold stress studies.