First Report of Southern Blight, Caused by Athelia rolfsii (syn. Sclerotium rolfsii) on Hellebores in North America.

Abstract

Lenten rose (Hellebores hybridus) is an herbaceous perennial grown in landscapes and valued for early spring flowers and high levels of deer resistance. An additional benefit as a landscape plant comes from the high level of disease resistance, with only three fungal pathogens reported in North America. In August of 2021, a Lenten rose plant within a mature landscape in Silver Spring, MD, USA, (lat 39.116629 long 77.043198) was found with a collapsed canopy and brown stems near the soil line. Small clusters of brown sclerotia-like objects were seen along the stem. Samples of the sclerotia and diseased tissue were dipped in 70 percent ethanol for 15 sec, transferred to 5 percent NaClO for 30 sec, immersed in sterile water for one minute, then plated onto Potato Dextrose Agar. Sclerotia-like objects germinated and white mycelia covered the plates within five days of germination. Hyphae emerged from diseased tissue within two days and also grew rapidly. Cultures from sclerotia-like objects and diseased tissue produced white sclerotia which melanized to brown spherical sclerotia ranging in size from two to four mm. Culture samples (1 cm square) were excised from the culture plates and transferred to the base of three two-year old potted hellebore plants. Control plants had blocks of PDA placed at the base of the plants. Plants were placed in plastic bags for two days to maintain humidity, then maintained at room temperature without plastic bags. Petioles turned brown and collapsed within seven days of inoculation. White, fan-like hyphae were present along with maturing sclerotia. Samples from surface sterilized tissue and sclerotia produced the same culture morphology as the originally isolated cultures. Non-inoculated plants remained healthy, and the pathogen was not isolated from non-inoculated plants. Individual DNA samples were prepared from original cultures and the re-isolated cultures. Molecular identification was performed by amplification of the internal rRNA transcribed spacer region (ITS1/4, White et al. 1990 ), the large subunit rRNA (LSU), and the elongation factor-1A (EF1a). Amplification products were cloned into TOPO-TA pcr4 vector and sequenced (Macrogen USA). Sequences were submitted to GenBank for IT1/4 (OK172559) and LSU (OK172560). Homology to ITS1/4 was found with Athelia rolfsii (MN622806), to LSU with Athelia rolfsii (MT225781) and for EF1a with Athelia rolfsii (MW322687). This is the first report of Athelia rolfsii on Hellebores in North America (Farr, D.F & Rossman, A.Y. Fungal Databases, U.S. National Fungus Collections, ARS, USDA. Retrieved September 10, 2021). This report is unique in that few pathogens are known to infect Hellebores(Taylor et al. 2011) and southern blight is not commonly isolated in landscape plantings at Maryland latitudes. 1. White et al. PCR Protocols: A Guide to Methods and Amplifications. Academic Press, San Diego, 1990 2. Taylor, R.K., Romberg, M.K. & Alexander, B.J.R. A bacterial disease of hellebore caused by Pseudomonas viridiflava in New Zealand. Australasian Plant Dis. Notes 6, 28–29, 2011.