Calcium Oxalate Crystals and the Optimal Growing Conditions for Actinidia arguta

The presence, distribution, and morphology of calcium oxalate (CaC2O4, CaOx) crystals were observed in the stunted bodies of Actinidia arguta (A. arguta) vines, and their ability of microorganisms to degrade CaOx crystals was analyzed. Leaves, branches, and roots of stunted A. arguta vines were collected. In the roots, CaOx crystal bundles were distributed in the form of dotted lines. In the branches, CaOx crystal bundles were observed blocking and accumulating in the vessels. In the leaves, CaOx crystal bundles were observed in a net-like entanglement. Therefore, CaOx crystals present in the roots, branches, and leaves hinder the growth. A hydroponic cultivation with different calcium (Ca) concentrations showed that the growth of A. arguta was best at a Ca concentration of 1 cmol+/kg; at a Ca concentration of 2 cmol+/kg, the edges of the leaves began to dry out after 7 days; and at a Ca concentration of 4 cmol+/kg, the entire leaves died within 14 days. From this study, it was concluded that CaOx crystals hindered the growth of A. arguta, and the Acinetobacter calcoaceticus (A. calcoaceticus) strain was effective in degrading CaOx crystals. Therefore, the Ca concentration in the soil of the cultivation site should be managed at less than 2 cmol+/kg

Shedding and extensive and prolonged environmental contamination of goat farms of Q fever patients by Coxiella burnetii

Abstract Background A majority (>70%) of Q fever patients in South Korea do not have a history of animal contact. Therefore, unconscious environmental exposure is suspected. The aim of this study was to investigate exposure of Q fever patients to environmental contamination and animal shedding. Methods Two goat farmers were enrolled. One was diagnosed with Q fever 3 years ago (Farm 1). Among 20 goats on Farm 1, five were tested randomly and found to be Q fever PCR‐positive. Three of the five were Q fever ELISA‐positive. Two of five environmental samples taken in 2015 were PCR‐positive. In 2018, 17 of 18 environmental samples were PCR‐positive. On Farm 2, 54 of the 77 goats were PCR‐positive, and 63 were ELISA‐positive. Twelve of 14 environmental samples were PCR‐positive. Repeat administration of oxytetracycline to goats led to a gradual reduction in PCR‐positive tests over a 5‐month period. However, PCR‐positivity of the farm environment persisted for 5 months. Conclusion The environment on farms owned by Q fever patients was contaminated extensively and persistently, even after antibiotic treatment of goats and environmental decontamination. Undetected environmental contamination can be a major source of sporadic Q fever infection in South Korea