RESUMO
From September 2020 to January 2021, an unknown disease of winged bean (Psophocarpus tetragonolobus) was reported by local growers in the Toucheng Town, Yilan County (N24.91, E121.85). The disease occurs in all age of winged bean, and the occurrence tended to be higher in humid environment, such as branches in lower canopy or branches in high density. The disease symptoms, which also appeared to be the sign of the pathogen, were spherical pustules in yellow to orange color on the stems, leaves, and pods of winged bean. Severely infected plants also exhibited growth reduction, malformation, and curling of the leaves and pods. According to the disease literature of winged bean, this unknown disease was likely to be the false rust caused by a chytrid pathogen, Synchytrium psophocarpi (UK, CAB International. 1993); and the uredinia-liked pustules could be the sori, which contain numerous ovoid to globose sporangia inside. In order to characterize the pathogen identity, the sori were manually ruptured to assess the size of individual sporangium, which had an average of 26.71 ± 4.25 µm x 26.61 ± 4.60 µm (n=42), similar to the size reported in literature (Drinkall and Price. 1979). To confirm the molecular identity, the full genomic sequences from the small subunit (SSU) to the internal transcribed spacer-1 (ITS-1), 5.8S unit, and ITS-2 were amplified using the primer sets NS3 and ITS4. The 2,263 bp amplicon was cloned and sequenced to reveal the identity (Smith et al. 2014). The BLASTN results matched the SSU of our isolate (MW649126.1) to the Synchytrium minutum (HQ324138.1) with 96% similarity (1,075 out of 1,121 bp in length), Synchytrium decipiens isolate DAOM_87618 (KF160868.1) with 92% similarity (1,215 out of 1,326 bp in length) and S. decipiens isolate AFTOL-ID 634 (DQ536475.1) with 92% similarity (1210 out of 1316 bp in length). Phylogenetic analysis using the SSU sequence revealed this unknown pathogen was the grouped within the clade of Synchytrium genus with 100% bootstrapping confidence (Smith et al. 2014). Accordingly, the pathogen was confirmed to be a Synchytrium chytrid fungus. To complete the Koch's postulates, the sori were collected from infected tissue. After vortexing washing in 1% bleach for surface sterilization, the sori were gently crashed by a plastic tube pestle to harvest sporangia. The sporangia were sprayed onto healthy winged beans cultivated in pots, and the inoculated plants were kept in a moisture bag in 25 °C. While leaf curling and malformation could be observed about 14 days post inoculation, the yellow to orange sori could be observed around 30 to 40 days post inoculation on the whole plants cultivated in pots. The sori were collected to confirm the sporangia and the sequences were identical to the original pathogen. Collectively, this study not only presents the first report for the false rust of winged bean in Taiwan, but also documents the first reference sequence of S. psophocarpi that will be useful for future molecular diagnosis. Since S. psophocarpi has been only reported in tropic regions including Indonesia, Malay Peninsula, Malaysia, Papua New Guinea, and Philippines, this report provides the first observation of S. psophocarpi moving in the subtropic region.
RESUMO
Soybean (Glycine max [L.] Merr.) is an important crop in Taiwan. In October 2020, an unknown leaf spot disease was counted (n = 100) to occur over 70% of soybean cultivar 'Hualien No.1' in the Shoufeng Township of Hualien County, eastern Taiwan. Initial symptoms on leaves as tiny lesions approximately 3 mm in diameter, which later enlarged and developed into round, irregular, and reddish-brown spots with concentric rings surrounded by a yellowish halo. The symptoms appeared on both young and old leaves, but rarely on the stem or pods. The lesions at the margin of healthy and infected tissues were surface-disinfested in 1% NaOCl for 30 seconds, washed twice in sterilized distilled water, dissected and plated on potato dextrose agar (PDA) to isolate the potential pathogen. Colonies on PDA exhibited light to dark brown color at 24°C with 12-hours light after 7-days incubation. The average growth rate was 3 mm per day. Conidia were light brown in color and obclavate to cylindrical in shape. The size of a conidium was measured with an average of 110.8 ± 28.2 µm in length and 15.2 ± 2.8 µm in width, typically with 3 to 18 septa (n = 50). To confirm the pathogenicity of this fungus, conidial suspension (104 conidia/mL) of two isolates, HL_GM-6 and HL_GM-7, were sprayed on the healthy leaves of 4-weeks-old soybean. Plants sprayed with sterile distilled water were used as a control. After inoculation, the plants were covered with plastic bags to maintain a high humidity for 24 hours before moving into a greenhouse with a condition of 20 to 25°C and relative humidity of 75 to 80%. After 7 days of inoculation, foliar symptoms began to appear and which were identical with the field observations. To complete the Koch's postulates, pathogen isolation was attempted and the identical fungus was retrieved from the foliar spots of the inoculated leaves. The foliar symptoms as well as the morphology of the conidiophores and conidia suggested the pathogen to be Corynespora cassiicola (Ellis et al. 1971). Molecular characterization was performed using the sequences of internal transcribed spacer (ITS) region of rDNA, actin (act1), tubulin, and translation elongation factor 1 alpha (tef1) genes after a PCR with ITS1/ITS4 (White et al. 1990), ACT-512F/ACT-783R (Carbone and Kohn, 1999), BT2a/Bt2b (Udayanga et al. 2012), EF1-728F/EF1-986R (Udayanga et al. 2012), respectively. BLASTN sequence analyses of the ITS, act1, tubulin, and tef1 genomic regions of the isolate HL_GM-7 (GenBanK accessions MW548097 MW961420, MW961419 and MW961421) showed high similarity with the isolates of C. cassiicola including 99.58% with sequence KF810854 (Deon et al. 2014), 99.11% with FJ853005 (Dixon et al. 2009), 99.34% with MH763700 (Duan et al. 2019), and 99.33% with KY112719 (Zhang et al. 2018) respectively. Based on the morphology, pathogenicity, and sequence results, this study becomes the first report of C. cassiicola causing target spot on soybean in Taiwan. C. cassiicola is known to infect a broad host range (Dixon et al. 2009; Lopezet al. 2018), and it has been found to infect tomato, cucumber, papaya, and Salvia miltiorrhiza in Taiwan (Lu et al. 2019; Tsai et al. 2015). Therefore, the emergence of soybean target spot should be aware to avoid potential damage to soybean production in Taiwan.
RESUMO
Elderly dementia patients often get lost due to lack of a sense of direction. This may put them at risk and cause their families much worry. The goal of this study is to use information technology to enhance the professional judgment of caregivers, strengthen internal safety monitoring at care organizations, and improve the quality of care for dementia patients. An eXtensible-Markup-Language-based dementia assessment system combining program code and assessment content is used to provide caregivers with better flexibility and real-time response ability. Beyond establishing long-term case files, the system can also perform data consistency analysis, strengthen caregivers' continuing education, improve caregivers' case judgment skills, and reduce the incidence of accidents due to neglect. This study also applies radio frequency identification (RFID) technology to the development of an indoor and outdoor active safety monitoring mechanism. The system can automatically remind caregivers whenever an elderly person approaches a dangerous area or strays too far. Apart from the use of different size tags, the realization of the system also employs the tame transformation signatures (TTS) algorithm to encrypt tag IDs and protect personal privacy. Clinical testing of the system showed that the indoor RFID reader has a response time of 0.5 s when sensing 40 tags, while the outdoor reader has a sensing time of approximately 5 s due to the need to save power. In the latter case, the system can ensure that elderly patients stay less than 15 m away from their caregivers. Patients were relatively willing to wear light tags. We also found that irritable patients with strong mobility were less compliant and often removed their own tags. Caregivers must provide active care and adopt various safety measures to protect the type of patients.