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Morphological characteristics of Fusarium oxysporum. (A) 2-day-old colony on PDA, (B) aerial mycelia of 1-week-old colony on PDA, (C) undersurface of 1-week-old colony on PDA, (D) microconidia, (E) macroconidia, and (F) chlamydospores.
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Balloon flower (Platycodon grandiflorum) is a kind of mountain herbs whose roots have restorative properties and the cultivating acreage of balloon flower has been steadily increasing in Korea. More frequent rain and high amount of rainfalls as a result of climate changes predisposed balloon flower to the outbreaks of root rot at high-density culti...
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The root of Platycodon grandiflorum is conventionally used as either foodstuff or a traditional medicine in Korea. The effects of different cooking methods on the phytochemical content and antioxidant capacity of P. grandiflorum root were evaluated. Compared with the raw roots of P. grandiflorum, the vitamin C content was significantly reduced in t...
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The distant hybridization was used in lodging-resistance breeding of Platycodon grandiflorus. The parents were Platycodon grandiflorus (♀) and Campanula medium (♂). 187 seeds of F1 were harvested by using the inter-generic hybridization in 2009 and 2010, 2 repeat, and 88 normal plants were obtained. The characteristics of leaves, stems and branches...
Background:
Campanulaceae species are known to have highly rearranged plastid genomes lacking the acetyl-CoA carboxylase (ACC) subunit D gene (accD), and instead have a nuclear (nr)-accD. Plastid genome information has been thought to depend on studies concerning Trachelium caeruleum and genome announcements for Adenophora remotiflora, Campanula t...
Citations
... Indeed, Jeon et al. (2013), found that F. oxysporum and F. solani were able to cause severe wilts and root rots in Platycodon grandiflorus. The same root rot caused by F. solani in this study is similar to that observed in okra (Rahim et al., 1992;Fayaz et al., 2014). ...
The pathogenicity of two isolates (FS1 and FS2) of the Fusarium solani isolated from diseased chickpea plants harvested from two different regions from Morocco, which were identified morphologically and molecular, was evaluated as the severity, incidence and index of the disease. The results show that the two isolates tested were able to induce symptoms in both parts of the plant (root and aerial), of the seven chickpea varieties (‘Garbanzo’, ‘Farihane’, ‘Moubarak’, ‘Douyet’, ‘Rizki’, ‘Arifi’ and ‘Zahour’), which were associated with a reduction in all measured agronomic parameters. However, the intensity of the symptoms depends on the combination of the variety and the isolate of Fusarium. It appears that the FS2 isolate affected the ‘Moubarak’ variety much more, while the pathogenicity of the FS2 isolate was more pronounced on the ‘Rizki’ variety. The increase in the leaf damage index as a function of time is due to the evolution of leaf yellowing through several physiological stages (necrosis, stunting, wilting, leaf fall), before causing plant death. At the end of the experiment, the re-isolation of the two Fusarium isolates from the four vegetative parts of all inoculated varieties was positive.
... It is possible that the F. oxysporum and F. solani strains were used after more than three series of cultures, which reduced their vitality. In addition, the optimal mycelium growth temperature of F. oxysporum and F. solani is 24-25℃ (Ezrari et al., 2021;Hibar et al., 2006;Jeon et al., 2013), and it is believed that mycelium growth was relatively inactive at 15-20℃, which is the condition used in this experiment. Among Fusarium-based pathogens, F. foetens and F. pseudoanthophilum are known to exhibit high molecular statistical exibility through their formation of a single system with F. oxysporum. ...
Arises during the storage of potatoes as a result of the pathogens introduced during their growing and harvest. In this study, the causative bacteria of domestic potato dry rot disease were identified and their pathogenicity was confirmed. A total of 76 species were isolated from 93 potato necropods collected from samples inoculate with dry rot disease (Table 1). These 76 isolates were identified as Fusarium boothii , F. circinatum , F. citricola , F. foetens , F. iranicum , F. longifundum, F. oxysporum, F. pseudoanthophilum F. solani, Botryotinia ranunculi , Clonostachys rosea , and Humicola nigrescens . The average size of the inoculation site was ≥ 4.6 mm in F. oxysporum and F. solani , which were pathogenic to dry rot in potatoes but not as other strains for up to five weeks. The pathogenicity of F. foetens and F. pseudoanthophilum was related to high a molecular statistical flexibility by forming a single system with F. oxysporum. However, except for F. oxysporum and F. solani , these strains have not yet been reported to be associated with dry rot disease. Additionally, the length of the cross-section and longitudinal section of the potato sclera inoculated with C. rosea increased the most among all strains. This suggests that C. rosea is the dominant species involved in domestic potato dry rot disease. By contrast, there are no reports of the involvement of B. ranunculi and H. nigrescens in dry rot disease. Therefore, these strains can be seen as parasitic using potato sclerosis as nutrients in in vivo experiments through wounds and are not directly related to dry rot disease.
... Lack of soil nutrients, changes of soil physical structure, autotoxicity of allelochemicals from root exudates, and enrichment of soilborne diseases are the possible causes of continuous cropping obstacles (Liu et al., 2017). Root rot is one of the serious soybean diseases in China (Jeon et al., 2013). ...
Arbuscular mycorrhizal (AM) fungi can enhance plant resistance particularly against soil-borne pathogenic fungi. However, little is known about the effects of Funneliformis mosseae on the community composition of rhizosphere fungi in soybean (Glycine max [L.] Merr.) continuous cropping soil. Here, the disease index of soybean root rot was analyzed, and high throughput sequencing technology was applied to investigate whether F. mosseae could change the composition of fungal communities in the rhizosphere of continuous cropping soybean during seedling period. The results indicated that the disease index of soybean root rot decreased significantly after inoculation of F. mosseae. The root rot disease index was also affected by the increasing of continuous cropping regimes. Furthermore, the relative abundance of fungal community in soybean rhizosphere soil and root samples was influenced after inoculation. Ascomycota was the dominant phylum in most samples. Basidiomycota was the second dominant phylum in all the soil samples, but Olpidiomycota was the second phylum in most root samples. At the genus level, both inoculation and continuous cropping regimes had significant effects on the dominant genus and their relative abundances in all the samples. The relative abundance of some plant pathogenic fungi such as Fusarium in the inoculated root samples was lower than those in the non-inoculated root samples in the same continuous cropping regime. The results can provide new insights into the interactive effects of AM fungi and rhizosphere fungi, and also provide theoretical evidence on biological solutions to alleviate the obstacles of soybean continuous cropping
... In addition, white hyphae were distributed unevenly in the soil, usu- ally in visible clusters, and reddish-brown sclerotia arose and gathered near the soil surface (this type of soil is denoted "sick soil" in the manuscript). The series of symptoms observed was similar to that described in previous reports [12,13]. ...
Aconitum carmichaelii, commonly known as Fuzi, is a typical traditional Chinese medicine (TCM) herb that has been grown for more than one thousand years in China. Although root rot disease has been seriously threatening this crop in recent years, few studies have investigated root rot disease in Fuzi, and no pathogens have been identified. In this study, fungal libraries from rhizosphere soils were constructed by internal transcribed spacer (ITS) sequencing using the HiSeq 2500 high-throughput platform. A total of 948,843 tags were obtained from 17 soil samples, and these corresponded to 195,583,495 nt. At 97% identity, the libraries yielded 12,266 operational taxonomic units (OTUs), of which 97.5% could be annotated. In sick soils, Athelia, Mucor and Mortierella were the dominant fungi, comprising 10.3%, 10.1% and 7.7% of the fungal community, respectively. These fungi showed 2.6-, 1.53- to 6.31- and 1.38- to 2.65-fold higher enrichment in sick soils compared with healthy soils, and their high densities reduced the fungal richness in the areas surrounding the rotted Fuzi roots. An abundance analysis suggested that A. rolfsii and Mucor racemosus, as the dominant pathogens, might play important roles in the invading Fuzi tissue, and Phoma adonidicola could be another pathogenic fungus of root rot. In contrast, Mortierella chlamydospora, Penicillium simplicissimum, Epicoccum nigrum, Cyberlindnera saturnus and Rhodotorula ingeniosa might antagonize root rot pathogens in sick soils. In addition, A. rolfsii was further verified as a main pathogen of Fuzi root rot disease through hypha purification, morphological observation, molecular identification and an infection test. These results provide theoretical guidance for the prevention and treatment of Fuzi root rot disease.
... This in turn has had a significant negative effect on crop yield, mainly due to mixed infections by the soil inhabiting fungus Fusarium oxysporum and the oomycetes Phytophthora sp. and Pythium sp. [5,6]. Phytophthora sojae, Pythium sp., Fusarium sp., and Rhizoctonia solani are dominant soybean root rot fungi. ...
Continuous cropping in soybean is increasingly practiced in Heilongjiang Province, leading to substantial yield reductions and quality degradation. Arbuscular mycorrhizal fungi (AMF) are soil microorganisms that form mutualistic interactions with plant roots and can restore the plant rhizosphere microenvironment. In this study, two soybean lines (HN48 and HN66) were chosen as experimental materials, which were planted in different years of continuous cropping soybean soils and were inoculated or not with Funneliformis mosseae in potted-experiments. Ultimately, analysis of root tissue metabolome and root exudates, soil physicochemical properties, plant biomass, as well as rhizosphere soil properties in different experimental treatments, inoculated or not with F. mosseae, was performed. Experimental results showed that: (a) The disease index of soybean root rot was significantly lower in the treatment group than in the control group, and there were differences in disease index and the resistance effect of F. mosseae between the two cultivars; (b) compared with the control, the root tissue metabolome and root exudates remained unchanged, but there were changes in the relative amounts in the treatment group, and the abundant metabolites differed by soybean cultivar; (c) soybean biomass was significantly higher in the treatment group than in the control group, and the effect of F. mosseae on biomass differed with respect to the soybean cultivar; and (d) there were differences in the physiochemical indexes of soybean rhizosphere soil between the treatment and control groups, and the repairing effect of F. mosseae differed between the two cultivars. Therefore, F. mosseae can increase the biomass of continuously cropped soybean, improve the physicochemical properties of the rhizosphere soil, regulate the root metabolite profiles, and alleviate barriers to continuous cropping in potted-experiments of soybean.
Waterlogging caused by climate change has threatened the growth and production yield of crops. Although morphological and physiological changes in major crops under waterlogging have been well-defined, the effect of waterlogging on the quality of medicinal plants remains largely unknown. In this study, we analysed waterlogging-induced variations in the anti-melanogenic properties of Platycodon grandiflorus roots. Based on the analysis of melanin production and the expression levels of melanogenic enzymes, we found that waterlogging negatively impacted the anti-melanogenic properties of P. grandiflorus roots. Using UPLC-ESI-Q-TOFMS, we identified 12 compounds including platycodin D3 and platycodin A, which showed differences between untreated and waterlogging-treated roots. In addition, waterlogging led to the suppression of the triterpenoid saponin biosynthetic pathway. Taken together, our results will form an important basis for understanding the impact of climate change on the quality of medicinal plants.
Disease arises during the storage of potatoes as a result of pathogens introduced during growing and harvest of the tubers. In this study, the causative fungi of domestic potato dry rot disease were identified, and their pathogenicity was confirmed. A total of 76 species were isolated from 93 potato necropods collected from samples inoculated with dry rot disease. These 76 isolates were identified as Fusarium boothii , F. circinatum , F. citricola , F. foetens , F. iranicum , F. longifundum , F. oxysporum , F. pseudoanthophilum , F. solani , Botryotinia ranunculi , Clonostachys rosea , and Humicola nigrescens . The average size of the inoculation site was ≥ 4.6 mm in F. oxysporum and F. solani , which were pathogenic to dry rot in potatoes but were not pathogenic compared to other strains up to 5 weeks in a 15 to 20 °C and 99% RH environment. The pathogenicity of F. foetens and F. pseudoanthophilum was related to a strong relationship by forming a single system with F. oxysporum. However, except for F. oxysporum and F. solani , these strains have not yet been reported to be associated with dry rot disease. Additionally, the length of the cross-section and longitudinal section of the potato damage symptom inoculated with C. rosea increased the most among all strains. This suggests that C. rosea is the dominant species involved in domestic potato dry rot disease. By contrast, there are no reports of the involvement of B. ranunculi and H. nigrescens in dry rot disease. Therefore, these strains can be seen as parasitic using potato sclerosis as nutrients in in vivo experiments through wounds and are not directly related to dry rot disease.
Since 2015, necrosis caused by Fusarium spp. has been regularly observed in carrot seed crops in France. A collection of 53 Fusarium isolates was gathered from lesions on carrot between 2016 and 2019. Morphological characterization at both the macroscopic and microscopic levels and molecular typing based on the ACL1, RPB2 and EF1-α partial gene sequences resulted in the identification of two main groups, corresponding to 22 F. avenaceum and 22 F. tricinctum isolates. In addition, three isolates of F. graminearum, two each of F. oxysporum and F. acuminatum, and one isolate of F. solani were also identified. Dual cultures of Trichoderma spp. (T. atroviride and T. harzianum) and Fusarium spp. (F. tricinctum isolate FT001 and F. avenaceum isolate FA002) did not indicate any antibiosis capabilities of Trichoderma. The in vitro sensitivity of isolates FT001 and FA002 to two fungicides and one natural product was similar, with an efficacy depending on the active ingredient. Prothioconazole + tebuconazole was more effective (mycelial growth reduced by 97% for FT001 and 99.8% for FA002) than fluopyram + trifloxystrobin (mycelial growth reduced by 58% and 56%, respectively). Allium extracts seemed to be a promising alternative to fungicides, since they were almost as efficient as prothioconazole + tebuconazole. Artificial inoculation of durum wheat using three isolates from carrot lesions (FT001, FA002 and F. graminearum FG001) induced plant necrosis. This result suggests that Fusarium pathogens of carrot seed crops may be transmitted to wheat, which is commonly used in rotation with carrot.
