Host Specificity and Genetic Diversity of Didymella bryoniae from Cucurbitaceae in Brazil

Thirty‐seven isolates of Didymella bryoniae from three Cucurbitaceae species were collected in Brazil and tested for pathogenicity to watermelon. All isolates were pathogenic but differed in aggressiveness levels. Seven representative isolates were used in cross‐pathogenicity tests against 10 cucurbitaceous hosts. Most isolates were pathogenic to most host species tested, except to Sechium edule. Among the susceptible species, Citrullus and Cucumis species were the most susceptible hosts, while pumpkin and Luffa purgans were the most resistant. Host of origin affected the pattern of aggressiveness on each host. Isolates from watermelon were very aggressive to their original host, but much less aggressive or not pathogenic at all to some Cucurbita. Two previously described random‐amplified polymorphic DNA (RAPD)‐specific primers indicated that 81% of the isolates could be classified into the so‐called RG I group, while the remaining isolates could not be classified into any of the described RG groups. All 37 isolates were further characterized by RAPD fingerprinting and compared with three US isolates representative of RG I and RG II groups. The Brazilian D. bryoniae isolates could be separated into genetically similar clusters. The majority of the isolates were grouped in cluster DB Ia, which contained only isolates of Citrullus lanatus and Cucumis melo. Two of the American isolates used as controls clustered with this group at 68% similarity level. The DB Ib cluster included three Brazilian isolates obtained from melon and watermelon and the American representative for RG II, at a lower similarity level (43%). Two isolates from watermelon clustered with one isolate from melon in a separate group (DB II), while one single isolate from pumpkin (DB III) showed the lowest genetic similarity to all other isolates. Didymella bryoniae isolates from Brazil showed, therefore, a level of genetic diversity higher than previously reported for the species. RAPD fingerprinting allowed for geographical distinction of D. bryoniae isolates but no correlation between genetic distance, aggressiveness or origin of the isolate was found.     

Identification and characterization of Cucurbita gummy stem blight fungi in Northeast China

Cucurbita maxima (pumpkin) is a typical cucurbit that is susceptible to gummy stem blight. In recent years, this major fungal disease has decimated pumpkin yields in Northeast China (Heilongjiang Province) in increasingly numerous outbreaks with more rapid spread in recent years. After culturing fungi on potato dextrose agar medium, we conducted a systematic study of the growth and morphological characteristics of various purified strains of Cucurbita gummy stem blight (GSB) fungus from across Northeast China. Subsequently, DNA samples of 30 isolates with distinct hyphal variations were subjected to internal transcribed spacer (ITS) sequencing. Sequence analysis resulted in identification of the isolates as Stagonosporopsis cucurbitacearum and demonstrated that this is a dominant and widely distributed fungal species in this region. Subsequently, multi‐site phylogenetic analysis assigned the 30 aforementioned strains to two genotypes that aligned to seven phenotypic types of Cucurbita GSB fungi. By analysing ITS conserved sequences of these phenotypically diverse groups, we found that Cucurbita GSB pathogens broadly shared two motifs that contained sequence variations unique to two groups in addition to common identical motifs. Ultimately, this study provided useful data for rapid and accurate identification of S. cucurbitacearum and diagnosis in early symptoms of Cucurbita GSB. This work also provides tools to explore the distribution and regularity of GSB outbreaks spatially and temporally across Northeast China.     

Pathogenicity of fungi associated with melon vine decline and selection strategies for breeding resistant cultivars

Melone Vine Decline is a severe rot root disease of increasing world‐wide importance. In Eastern Spain it is related to the presence of Acremonium cucurbitacearum and Monosporascus cannonballus. The strong influence of environmental conditions on the progress of this disease has made its study difficult. A field screening of Cucumis melo accessions has been conducted over four years. Simultaneously, the pathogenicity of isolates of the two fungi recovered from the screening field was studied. These were more aggressive than other Spanish and American isolates. Percentage of vine decay was scored, togeter with root damage, the latter being evaluated by using four scoring systems based on root characteristics and disease severity. Root inspection alowed the selection of resistance sources, even when aboveground symptoms did not appear, due to the lack of environmental stresses at time of fruit maturity. The root damage scoring if environmental stresses occur during fruit maturity. The accession C. melo var. agrestis Pat 81 consistently exhibited high field resistance level, expressed as a higher percentage of symptomeless plants, together with a significant delay in symptoms appearance. The F₁ hybrids derived from the cross Pat 81 ×C. melo susceptible varienties showed an intermediate level of resistance between the parents, suggesting a partial dominance gene action. The high resistance level found in Pat 81, and also in its derived hybrids, against the aggressive isolates found in this area, makes it promissing for breeding melon verieties resistant to melon vine decline.     

Gummy stem blight: One disease,three pathogens

Gummy stem blight (GSB) is a major disease of cucurbits worldwide. It is caused by three fungal species that are morphologically identical and have overlapping geographic and host ranges. Controlling GSB is challenging due to the lack of resistant cultivars and the pathogens' significant ability to develop resistance to systemic fungicides. The causal agent of GSB is recognized as a complex of three phylogenetically distinct species belonging to domain Eukaryota, kingdom Fungi, phylum Ascomycota, subphylum Pezizomycotina, class Dothideomycetes, subclass Pleosporomycetida, order Pleosporales, family Didymellaceae, genus Stagonosporopsis, species cucurbitacearum, citrulli, and caricae. Pycnidia are tan with dark rings of cells around the ostiole measuring 120–180 μm in diameter. Conidia are 6–13 μm long, hyaline, cylindrical with round ends, and non- or monoseptate. Pseudothecia are black and globose in shape and have a diameter of 125–213 μm. Ascospores are 14–18 × 4–6 μm long, hyaline, ellipsoidal with round ends, and monoseptate with a distinct constriction at the septum. Eight ascospores are found per ascus. The upper end of the apical cell is pointed, whereas the lower end of the bottom cell is blunt. Species-specific PCR primers that can be used in a multiplex conventional PCR assay are available. The GSB species complex is pathogenic to 37 species of cucurbits from 21 different genera. S. cucurbitacearum and S. citrulli are specific to cucurbits, while S. caricae is also pathogenic to papaya and babaco-mirim (Vasconcellea monoica), a related fruit. Under favourable environmental conditions, symptoms can appear 3–12 days after spore germination. Leaf spots often start at the leaf margin or extend to the margins. Spots expand and coalesce, resulting in leaf blighting. Active lesions are typically water-soaked. Cankers are observed on crowns, main stems, and vines. Red to amber gummy exudates are often seen on the stems after cankers develop on cortical tissue.