RESUMEN
Tetrapanax papyrifer (Hook.) K. Koch, widely utilized in clinical practices in traditional Chinese medicine, is a medicinal plant whose dried stem pich exhibits activities such as lactation induction, diuresis, and anti-inflammatory effects. The species is native to the southwest of China, such as Guizhou and Yunnan provinces. It thrives in sunlight and warmth and is planted in fertile valleys in the region (Zhang et al. 2023). In July 2021, a leaf spot-like disease was observed on approximately 15% of T. papyrifer (Big T. papyrifer) in a field in Shibing County (127.2°E, 25.2°N), Guizhou Province, China. The symptomatic leaves displayed irregular, watery dark brown lesions with black conidiomata in gray centers and surrounded by yellow halos. To identify the causal agent leading to the disease, 15 symptomatic leaves from five trees in one field were collected. These leaves underwent surface sterilization, which included 30s in 75% ethanol, 2 min in 3% NaOCl, and three times of washing with sterilized distilled water. Thereafter, small pieces of the symptomatic leaf tissues (0.2 × 0.2 cm) were plated on PDA and incubated at 25°C for seven days (Fang 2007). Three isolates were obtained based on the improved single spore isolation method proposed by Gong et al. (2010), and named as GUTC 321, GUTC 523 and GUTC 873. The fungal colonies on PDA were villiform, creamy-white, whorled, and sparse aerial mycelium on the surface with black, gregarious conidiomata. The conidia were ellipsoid, mid brown to dark brown, mainly with 3-4 transverse septa, usually divided by longitudinal septum, often constricted at the septa, 21.8 (12.6-34.5) × 13.9 (8.8-19.8) µm (n=50). The morphological features were consistent with the descriptions of Pseudopithomyces chartarum (Ariyawansa et al. 2015). All three isolates exhibited identical morphological properties. The potential pathogen was confirmed as P. chartarum by amplification and sequencing of the internal transcribed spacer regions (ITS), large subunit ribosomal (LSU) and translation elongation factor 1 alpha (TEF1) genes with primers ITS4/ITS5, LROR/LR7 and EF-983F/EF-2218R, respectively (Ariyawansa et al. 2015; Jayasiriet al. 2019). BLASTn analyses of the sequences showed 100% identity among the three isolates and a high homology (ITS, 99.8%: 598/599; LSU, 100%: 853/853; and TEF1, 100%: 871/871) with those of P. chartarum sequences in GenBank (MT123059, OK655822, and MK360080, respectively). The sequences of the genes from isolate GUTC321 were deposited in GenBank under accession numbers OP269599 (ITS), OP237015 (LSU), and OR069689 (TEF1). Phylogenetic analyses of the concatenated ITS-LSU-TEF1 sequence (2,685 bp) of GUTC 321 using PhyloSuite 1.2.2 with PartitionFinder model revealed that the isolate clustered closely with P. chartarum isolate CBS 329.86T (Cecilia 1986). The pathogenicity of GUTC 321 was tested thereafter on ten healthy T. papyrifer plants grown in pots in growth chamber. The plants were inoculated by spraying with spore suspension (106 spores mL-1) of GUTC 321 or sterile water (control) onto leaves that had been slightly injured with sterilized SiO2 (0.1-0.25 mm) until runoff. The plants were maintained at 25°C in the growth chamber, and monitored for symptom development. Local lesions began to appear on all GUTC 321-inoculated leaves, but not on those of the control plants, 48 hours after inoculation. Seven days after the inoculation, lesions similar to those observed on field plants occurred on GUTC321-inoculated plants but not on the control plants, the lesions observed only in inoculated leaves. The same fungus was reisolated and identified based on the morphological characterization and molecular analyses (ITS, LSU and TEF1) from the infected leaves thus fulfilling Koch's postulates. To our knowledge, this is the first report of leaf spot on T. papyrifer caused by P. chartarum in China. Considering the significance of T. papyrifer in Chinese medicine, approximate management measures need to be developed and applied to control the disease in the crop.
RESUMEN
Tetrapanax papyriferus is an evergreen shrub native to China and traditionally used as a herbal medicine (Li et al., 2021). In September 2021, a serious leaf spot disease with symptoms similar to anthracnose was extensively observed on T. papyriferus in Shibing county (E 127°12'0", N 25°11'60"), Qiandongnan Miao and Dong Autonomous Prefecture, Guizhou province, China. Field surveys were conducted in about 1000 T. papyriferus plants in Shibing in September 2021. The incidence of the leaf spot on leaves was 45% to 60%, significantly reducing the quality of medicinal materials. The symptoms began as small yellow spots, developing a brown center and dark brown to black margin, and eventually the diseased leaves were wiltered and rotted. Symptomatic leaves were collected from 20 trees. Symptomatic tissue from diseased leaves was surface desinfected (0.5 min in 75% ethanol and 1 min in 3% NaOCl, washed three times with sterilized distilled water), small pieces of symptomatic leaf tissue (0.2 × 0.2 cm) were plated on potato dextrose agar (PDA) and incubated at 25°C for about 7 days (Fang. 2007). Three single-spore isolates were obtained (GUTC37, GUTC310 and GUTC311) and deposited in the collection of the Plant Pathology Deparment, College of Agriculture, Guizhou University, China (GUCC) (with the accession numbers, GUCC220241, GUCC220242, GUCC220243 respectively). These isolates were identical in morphology and in the sequences of internal transcribed spacer region [ITS], glyceraldehy-3-phosphate dehydrogenase [GAPDH], chitin synthase [CHS-1], actin [ACT], and calmodulin [CAL] genes (White et al. 1990; Carbone and Kohn 1999; Templeton et al. 1992). Therefore, the representative isolate GUTC37 was used for further analysis. The pathogenicity of GUTC37 was tested through a pot assay. Plants were inoculated by spraying a spore suspension (106 spores·ml-1) of isolated strains onto leaves until runoff, and the control leaves sprayed with sterile water. The inoculated plants were incubated in a growth chamber at 28 â and 95% relative humidity for 10 days. Pathogenicity tests were repeated three times (Fang. 2007). The symptoms developed on the inoculated leaves, while control remained asymptomatic. The lesions were first visible 72 h after inoculation, and typical lesions like those observed on field plants appeared after 10 days. The same fungus was reisolated and identified based on the morphological characterization and molecular analyses from the infected leaves but not from the non-inoculated leaves. Results of pathogenicity experiments of isolated fungi fulfilled Koch's postulates. Fungal colonies on PDA were villiform, creamy-white or greyish, aerial mycelium pale grey, dense, surface partly covered with orange conidial masses. The conidia were abundant, oval-ellipsoid, aseptate, and 13.89 (11.62 to 15.21) × 5.21 (4.39 to 5.65) µm (n=50). Appressorium were greyish green, nearly ovoid to cylindrical, 9.64 (6.62 to 14.61) × 6.33 (5.45-7.72) µm (n=50). The morphological features were consistent with the descriptions of Colletotrichum fructicola Prihast., L. Cai & K.D. Hyde (Prihastuti et al. 2009). The pathogen was identified to be C. fructicola by amplification and sequencing of the five genes. The sequences of the PCR products were deposited in GenBank with accession numbers OP143657 (ITS), OP177868 (GAPDH), OP177865 (CHS-1), OP278677 (ACT) and OP177862 (CAL). BLAST searches of the obtained sequences revealed 100% (509/509 nucleotides), 99.63% (269/270 nucleotides), 99.31% (287/289 nucleotides), 99.29% (280/282 nucleotides), and 99.86% (728/729 nucleotides) homology with those of C. fructicola in GenBank (JX010165, JX010033, JX009866, FJ907426, and JX009676, respectively). Phylogenetic analysis (MEGA 7.0) using the maximum likelihood method placed the isolate GUTC37 in a well-supported cluster with C. fructicola. To our knowledge, this is the first report of anthracnose on T. papyriferus caused by C. fructicola in Guizhou, China. This study provides valuable information for the identification and control of the anthracnose on T. papyriferus.