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These findings suggest that artificial efforts to help ecosystem recovery after fire negatively affect the speed and quality of soil NTF community recovery. Instead, natural recovery appears to be a more suitable land management choice after fire disturbance.We investigated the prognostic effects of hyperuricemia and high or low body mass index (BMI) in peripheral artery disease (PAD) after endovascular therapy (EVT). Between July 2015-2016, 357 consecutive patients with PAD who underwent EVT were enrolled. Patients were divided into 2 groups BMI less then 25 kg/m2 (low BMI) and ≥ 25 kg/m2 (high BMI); they were also divided into 2 more groups based on the presence/absence of hyperuricemia. Rhosin manufacturer The primary and secondary endpoints were major adverse cardiovascular and limb events (MACLE), and all-cause death at 3 years post-EVT. Patients with hyperuricemia had significantly lower freedom from MACLE than patients without hyperuricemia at 3 years (57.0 vs 71.9%, p = .0068). The overall survival of patients with hyperuricemia was significantly lower than that of patients without hyperuricemia (63.9 vs 81.7%, p = .0012). Patients with hyperuricemia who had low BMI experienced significantly lower freedom from MACLE than those without hyperuricemia who had low BMI (48.2 vs 69.9%, p = .002). The overall survival of patients with hyperuricemia who had low BMI was significantly lower than that of patients without hyperuricemia who had low BMI (55.2 vs 77.1%, p = .003). Patients with hyperuricemia had significantly more MACLE and a lower survival at 3 years than patients without hyperuricemia, even if they had a low BMI.Plant viruses transmitted by the soilborne plasmodiophorid Polymyxa graminis constantly threaten global production of cereal crops. Although the yellow mosaic virus disease of barley has been known to be present for a long time in China, the understanding of the diversity of the viral pathogens and their interactions with host resistance remains limited. In this study, we conducted a nationwide survey of P. graminis and the barley yellow mosaic virus (BaYMV) and barley mild mosaic virus (BaMMV) it transmits, followed by genomic and pathogenic diversity analyses of both viruses. BaYMV and BaMMV were found exclusively in the region downstream of the Yangtze River, despite the national distribution of its transmission vector P. graminis. Analysis of the genomic variations of BaYMV and BaMMV revealed an elevated rate of nonsynonymous substitutions in the viral genome-linked protein (VPg), in which most substitutions were located in its interaction surface with the host eukaryotic translation initiation factor 4E (eIF4E). VPg sequence diversity was associated with the divergence in virus pathogenicity that was identified through multiple field trials. The majority of the resistance genes, including the widely applied rym4 and rym5 (alleles of eIF4E), as well as the combination of rym1/11 and rym5, are not sufficient to protect cultivated barley against viruses in China. Collectively, these results provide insights into virulence specificity and interaction mode with host resistance in cultivated barley, which has significant implications in breeding for the broad-spectrum resistance barley varieties.Monilinia vaccinii-corymbosi (Mvc) is an important fungal pathogen of blueberry, causing mummy berry disease. While the symptoms of the advanced stages of the disease can be obvious, diagnosing its early stages can be challenging. To facilitate fast and sensitive screening of asymptomatic or latently infected plant material for Mvc, we developed a specific TaqMan real-time PCR assay targeting the internal transcribed spacer (ITS) region. The assay was shown to be specific to Mvc and did not cross react with any of the other tested Monilinia species or other blueberry pathogens. Using the multicopy ITS region ensured high analytical sensitivity, enabling very low concentrations of Mvc DNA (0.1 pg) to be detected both in water and host DNA matrix. Comparable results were obtained in interlaboratory testing, showing that the assay is robust, and can be effectively used in other laboratories. Assay sensitivity was also confirmed on infected plant tissue, showing that it is effective in detecting the pathogen in infected asymptomatic stem tissue, as well as infected tissue that was mixed with healthy tissue at a ratio of 110 by weight. The assay was duplexed with a plant internal control (cytochrome oxidase gene) for simultaneous amplification of the pathogen and plant internal control in a single reaction. This new diagnostic tool can be used for sensitive and rapid screening of blueberry plants for the presence of Mvc in many different settings, e.g., for breeding programs, research, or biosecurity diagnostics.In Michigan, corn (Zea mays) is grown on 2.35 million acres with an annual production valued at $1.36 billion dollars (USDA-NASS). Southern rust is caused by the obligate biotrophic fungus Puccinia polysora Underw. and is often ranked in the top five most destructive corn diseases in the southern U.S. (Mueller et al. 2020). Yield losses due to southern rust in the northern U.S. have been considerable and estimated to be 231 million bushels from 2016 to 2019. In 2020 and 2021, corn leaf samples exhibiting signs typical of infection by P. polysora were collected from commercial production fields across Michigan. In 2020, samples were collected from two counties, Branch and Hillsdale. In 2021, samples were collected from 10 additional counties, Allegan, Barry, Calhoun, Eaton, Ingham, Kent, Montcalm, Shiawassee, Tuscola, and Van Buren. Uredinia of P. polysora were observed aggregated primarily on the upper leaf surface, light cinnamon brown to bright orange, ovular, and surrounded by yellow halos. Urediniospores espread yield losses due to southern rust have not been documented in Michigan, there have been anecdotal reports of 30 bushels per acre losses in grain corn and 30% loss of tonnage from silage fields. Understanding the distribution of southern rust can help inform future disease management and corn breeding research. Furthermore, the distribution of southern rust is projected to move poleward by 15° by 2100 due to increasing global temperatures (Ramirez-Cabral et al. 2017), and the movement of southern rust into northern corn growing regions should be documented. Additional Michigan counties with confirmations of southern rust will continue to be reported via the corn IPMpipe https//corn.ipmpipe.org/.Fusarium wilt is a destructive and widespread disease of tomatoes in China, and currently, there are no effective and environmentally friendly control measures. Combining biological control agents with fungicides has become an executable method for disease control. Here, Bacillus amyloliquefaciens SDTB009 showed excellent in vitro antagonistic activity against Fusarium oxysporum and tolerance to high concentrations of difenoconazole (200 mg/liter) in vitro. The combination of SDTB009 and difenoconazole exhibited more effectiveness in mycelial growth inhibition than either treatment alone. Compared with that in the SDTB009 bulk solution in vitro (5.22 g/liter), surfactin titer reached 7.15 g/liter in the 100 mg/liter of difenoconazole-containing medium. Interestingly, the upregulation of 20 genes in the surfactin biosynthesis pathway from 2-fold to 4-fold was observed, explaining the synergistic effect. The SDTB009 combined with varying concentrations of difenoconazole (60, 120, and 150 g a.i./ha) showed a synergistic effect in two consecutive years of field trials. These results show that the integration of difenoconazole with the biocontrol agent B. amyloliquefaciens SDTB009 synergistically increases the control efficacy of the fungicide against tomato Fusarium wilt.Liriodendron chinense × tulipifera black spot is a newly discovered disease that causes yellowing and early shedding of leaves, affecting the growth of Liriodendron trees, and significantly reducing their ornamental value as a garden species. The pathogen responsible for this disease, and how it can be prevented and controlled, are not clear. In this study, the occurrence of this disease was first investigated according to Koch's postulates, and the primary pathogens causing Liriodendron black spot were determined to be Colletotrichum gloeosporioides and Alternaria alternata. Biocontrol strains antagonistic to these two pathogens were then screened from the leaf microorganisms of L. chinense × tulipifera, and a preliminary investigation of the biological control of Liriodendron black spot was performed. Through the screening of antagonistic microorganisms on the leaf surface of L. chinense × tulipifera, the strain Trichoderma koningiopsis T2, which displayed strong antagonism against C. gloeosporioides and A. alternata, was obtained. The T2 strain could inhibit the growth of the two pathogens via three mechanisms hyperparasitism, volatile and nonvolatile metabolite production, and environmental acidification. The biocontrol experiments in the greenhouse and field showed that initial spraying with a T. koningiopsis T2 spore suspension followed by the two pathogens resulted in the lowest disease incidence. These results confirmed the black spot pathogens of L. chinense × tulipifera, clarified the antagonistic mechanism of T. koningiopsis T2 against the two pathogens, and provided a theoretical basis and technical support for the biological control of the disease.Puccinia striiformis Westend. f. sp. tritici, commonly known as stripe rust, is an economically important pathogen of wheat (Triticum aestivum L.). The hexaploid club spring wheat cultivar JD contains both all-stage and adult plant resistance (APR) genes and exhibited consistent high resistance to stripe rust in the field. In this study, we aimed to identify the quantitative trait loci (QTL) for stripe rust resistance using a BC1F7 back-cross inbred-line population derived from the cross of JD and the recurrent parental line 'Avocet'. The population was phenotyped in field plots in Washington State at the Spillman Agronomy Farm in Pullman and Mount Vernon Northwest Washington Research and Extension Center in between 2014 and 2016. A major QTL tentatively designated as QYrJD.wsu-1B, conferring all-stage resistance in JD background, was identified and mapped at the telomere region on the short arm of chromosome 1B using the genotyping-by-sequencing method. This QTL was further characterized with simple sequence repeat (SSR) markers and found to have the greatest logarithm-of-the-odds score and phenotypic effect, using SSR marker wmc798 on chromosome 1BS. Seven additional QTLs associated with APR were identified in the JD background on chromosomes 2D, 3A, 3B, 4A, 6B, and 7A with partial phenotypic effects.Stripe rust, caused by Puccinia striiformis f. sp. tritici, is an important disease of wheat. In this study, 1,567 isolates collected from the United States from 2013 to 2017 were tested for virulence on 18 wheat Yr single-gene lines to differentiate races. In total, 72 races, including 20 new, were identified, and their frequencies in different years and different epidemiological regions were determined and compared. The 20 new races had low frequencies, and 7 of them each were detected from only one sample and 10 only in a single year. Frequencies of virulence to Yr10, Yr24, and Yr32 were low (70%), although they varied from year to year and from region to region. No virulence was detected to either Yr5 or Yr15, indicating that these genes were still effective against the pathogen in the United States. Based on the virulence data, the diversity of the U.S. P. striiformis f. sp. tritici population was the highest in 2016 and lowest in 2015, and the diversity of the regional population was the highest in region 1 and lowest in region 11.