Salvia miltiorrhiza Bunge is a herb plant used as a traditional Chinese medicine to cure cardiovascular disease. In December 2018, a root rot disease was observed on S. miltiorrhiza in four surveyed counties (Song, Yuzhou, Fangcheng, and Mianchi) in Henan province in China. The disease incidence ranged from 15 to 50% in 12 surveyed fields. At the early stage, the diseased plants were wilting with purple leaves. Leaves and branches became withered and fibrous roots became brown and rotted. The main roots of severely diseased plants also became rotted. The color of the stem surface turned from red to black, and the color of the stem xylem and phloem turned from dark red to brown. Eventually, the roots of diseased plants became completely rotted and the whole plants became dead, but no stink, which is different from Fusarium solani (Mart.) Sacc. (Yuan et al. 2015). Diseased root tissues (5×5×5 mm in size) were cut from diseased plants, surface-sterilized with 1% sodium hypochlorite for 1 min followed by dipping in 75% alcohol for 30 sec, rinsed in sterile distilled water for 3 times, air-dried on a sterilized filter paper in a laminar flow hood, placed on potato dextrose agar (PDA) containing 250 mg/l of streptomycin sulfate, and incubated at 28℃. Five isolates of Fusarium were obtained and purified using the single-spore isolation method. On PDA plates, the colonies were purple in color with formation of white aerial mycelia and reached 50 to 60 mm in diameter after incubation for 5 days. The colonies produced abundant microconidia on the colonies. The microconidia were 4.3 to 12.3 (10.0) × 2.1 to 3.5 (3.1) μm in size (n = 40), hyaline, ovoid or ellipse in shape. The conidiogenous cells were polyphialides. On mung bean media, the isolates formed macroconidia with 3 to 6 septae, fusiform in shape, slightly curved, 21.8 to 32.7 (31.4) × 2.6 to 4.3 (3.4) μm in size (n = 50). The morphological features of the five isolates were consistent with the description for Fusarium proliferatum (Matsush.) Nirenberg ex Gerlach & Nirenberg (Leslie and Summerell 2006). To further define the identity of the five isolates, molecular phylogenetic analysis was performed. The genomic DNA was extracted from all five isolates using the cetyl trimethylammonium bromide (CTAB) method. Five genes [nuclear ribosomal internal transcribed spacer (ITS) region, translation elongation factor 1-α (EF1α), β-tubulin gene, partial sequence for calmodulin (PRO), and RNA-dependent DNA polymerase II subunit (RPB2)] in F. proliferatum were amplified using primers pairs ITS1/ITS4, EF1T/2T, β-tubulin 2a/b, PRO1/2, and RPB2F/R, respectively (Glass and Donaldson 1995; Liu et al. 1999; Mulè 2004; O'Donnell et al. 1998; O'Donnell et al., 2010). The sequences (GenBank accession numbers: MT371373, MT371384, MT925651, MT925652, and MT934441, respectively) showed 99.6 to 100% identities to the corresponding DNA sequences in F. proliferatum (GenBank Acc. Nos. MK243486, MN245720, KJ12896, MN245721, and MK144327, respectively). All five isolates were tested for pathogenicity to fulfill the Koch's postulates. The 45-day-old healthy plants of S. miltiorrhiza grown in sterilized soil in pots (20 cm in diameter), one plant in one pot, were inoculated with conidial suspensions (1.0 × 107 cfu/ml) by pouring 10 ml conidial suspensions around the stem base in one pot. For each isolate, four plants were inoculated. Four plants were treated with sterilized water in the same volume as a control. The tested plants were placed in a growth room at 25°C (RH > 60%) with a 12 h photoperiod of fluorescent light. The pathogenicity assay was repeated for three times. The similar wilt symptoms were observed on the roots in the inoculated plants 30 days after inoculation but were not observed in the control plants. F. proliferatum was re-isolated from the infected roots, and its identity was confirmed by PCR with the primers described above. To our knowledge, this is the first report of F. proliferatum casing root rot disease on S. miltiorrhiza in China.
Introduction College soccer is a major priority for the Chinese sports department. Among the most relevant issues is the search for solutions to prevent sports injuries among young college soccer players in the development process. Objective Investigate the causes and characteristics of sports injuries among young college soccer players, aiming to develop scientific measures for prevention and control. Methods A total of 304 young people from primary and secondary schools in one city were selected as volunteers for the research, and the causes and characteristics of sports injuries among these players were analyzed using questionnaires, interviews with experts, and statistical-mathematical analysis. Results According to the characteristics of injury factors of soccer players at different learning stages, a good job should be done on preventing sports injuries of physiological, psychological, technological, training, and other aspects, to reduce the risk of sports injuries in young soccer players. Conclusion Fully understanding sports injury risk prevention, timely summarizing the experience and learnings, and doing a good job in sports injury prevention from the aspects of physiology, psychology, technology, training, and other aspects according to the characteristics of injury factors of soccer players at different school stages are desirable practices to reduce the risk of sports injury and improve the quality of school soccer training and competition for young college soccer players. Level of evidence II; Therapeutic studies - investigation of treatment outcomes.
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