Passion fruit (Passiflora edulis Sims), which is native to South America, is an important fruit crop in tropical and subtropical countries. Passion fruit growing areas have increased rapidly in southern China. In 2018 to 2019, circular spots on passion fruit were observed in Shangsi, Guangxi, China (21°15'N, 107°98'E). The disease occurred from June to April of the following year. The disease incidence was generally between 10% to 30%, but could reach up to 50% in purple passion fruit 'Tainong No.1'. The initial lesions on the fruits were small, with a brown center and a greasy margin, and then became sunken and lighter brown with a diameter of about 1 cm in later stages. The spots on the leaves were often surrounded by a yellow halo and turned into larger lesions after coalescence.. Five typical symptomatic fruit and leaves were collected from Shangsi county for the presumed pathogen isolation. Section of the samples were surface sterilized to isolate the fungus on potato dextrose agar (PDA) at 28°C. Five fungal isolates with similar morphology on PDA were obtained by single spore isolation. Colonies at the age of 7 days accompany with flourishing aerial hyphae, showed surface color varying from white to grey. Conidia were ovate or elliptic, light brown to brown, with 2 to 5 diaphragms, 0 to 4 longitudinal-oblique diaphragms, and mostly 8.2 to 36.7 μm × 5.4 to 15.8 μm. The morphology of the fungus resembled Alternaria alternata (Fr.) Keissl (Simmons, 2007). Each of the five isolates (SF-001, SF-002, SF-003, SF-004 and SF-005) was molecularly identified using genomic regions of 18S nrDNA (SSU), 28S nrDNA (LSU), RNA polymerase second largest subunit (RPB2), internal transcribed spacer (ITS), glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and translation elongation factor 1-alpha (TEF1) (Jayawardena et al., 2019). Nucleotide sequences of SSU (MZ275254, ON055696, ON055697, ON055698 and ON055699), LSU (MZ275253, ON062947, ON062948, ON062949, ON062950), RPB2 (MZ275251, ON055377, ON055378, ON055379 and ON055380), ITS (MW866522, MW866523, ON053451, ON053452 and ON053453), GAPDH (MZ286628, ON055381, ON055382, ON055383 and ON055384) and TEF1 (MZ275255, ON055373, ON055374, ON055375 and ON055376) were deposited in GenBank database. The LSU, GAPDH and TEF1 sequences showed 100% identity with A. alternata in NCBI (KX609773, MK683852 and MK637432, respectively). The SSU, RPB2 and ITS sequences showed 99% identity to A. alternata (U05194, MK605898 and MN856409, respectively). In pathogenicity test (Zhang et al., 2020), 3-month-old grafted 'Tainong No.1' seedlings and mature fruit were used. Five-mm-diameter mycelial plugs taken from 7-day-old PDA colonies of each of 5 isolates were placed on the leaves and fruit that were wounded with a sterilized needle to form 3 pinpricks. Sterile PDA plugs were used as control. Three plants and three fruits were used in each treatment, and the test was repeated twice. The inoculated plants and fruit were kept in plastic bags and grown in a chamber at 28℃. Typical lesions were observed on inoculated plants and fruit after 3 days, but the controls remained healthy. A. alternata was consistently reisolated from these typical lesions. Previously, leaf spot on passion fruit caused by A. alternata has only been recorded in New Zealand (Rheinländer, 2010). To our knowledge, this is the first report of A. alternata (Fr.) Keissl. causing leaf spot on passion fruit in China. The identification of the pathogen may help to take effective management strategies of controlling this disease.
Keywords: Alternaria alternata; leaf spot; passion fruit; pathogen identification.