Novel sources of resistance to fusarium wilt in Luffa species.

Fusarium wilt is a serious disease of cucurbit crops including cultivated Luffa species (Luffa aegyptiaca, Luffa acutangula) causing considerable amount of reduction in yield and quality. Luffa is starting to be used as rootstocks for major commercial cucurbit crops, but little is known of its resistance against soilborne diseases. Here, 63 Luffa accessions from the World Vegetable Center genebank were evaluated for resistance to an aggressive isolate of Fusarium oxysporum f. FoCu-1 (Fsp-66). According to visual screening based on disease severity rating, 14 accessions exhibited a high level of resistance against Fsp-66. These accessions were further evaluated for resistance against Fsp-66 and two more isolates FoCu-1 (isolated from infected cucumber plants) and FoM-6 (isolated from infected bitter gourd plants). Of the 14 accessions, 11 were confirmed resistant against isolate Fsp-66. In addition, 13 accessions showed high resistance against isolates FoCu-1 and FoM-6. This is the first report of Fusarium wilt resistance in Luffa and these sources will be valuable for the development of Luffa rootstocks/cultivars resistant to soil-borne pathogen to manage this serious disease.

First Report of Verticillium Wilt Caused by Verticillium dahliae in Grafted Tomato in Taiwan.

Grafted tomato (Solanum lycopersicum L.) is widely used to manage soil-borne diseases (Lee et.al 2010). In Taiwan, grafting on eggplant (S. melongena L.) rootstock have been extensively used to reduce bacterial wilt in tomato production. In July 2019, wilting plants were found at a cherry tomato farm (~ 0.5 ha) located at Miaoli County. About 10% tomatoes of cv. 'Mint Shine' grafted onto the eggplant rootstock displayed wilt symptoms. Numerous leaflets with chlorosis, inter-vein yellowing, V-shaped necrotic lesions and withered leaves were observed on the affected plants. Some plants eventually wilted and died. A cut at the grafting site revealed the vascular discolorations on both scion (tomato) and rootstock (eggplant). A fungus with a compact whitish colony was consistently isolated from the symptomatic vascular tissue by using acidified potato dextrose agar (PDA) plates. Two isolates, Ve2 from eggplant and Ve4 from tomato, grown on PDA plates were characterized. Both Ve2 and Ve4 grow slowly (ca. 2.6 mm/day at 28 oC) and shared almost identical cultural and morphological characteristics. They first showed whitish mycelium and cream color in reverse within 1 week. Later, numerous microsclerotia developed evenly over the colony and the reverse color turned dark black. Microscopic observations revealed hyaline hyphae with black, elongated, irregularly spherical microsclerotia measuring 31.3 to 71.5 × 16.8 to 49.0 µm (average 50.4 × 28.5 µm) on a 3-week-old PDA culture. Abundant hyaline, single-celled, ellipsoida conidia measuring 2.7 to 4.7 × 0.9 to 3.2 µm (average 3.7 × 1.9 µm) and verticillate conidiophores were observed. The fungus was identified as Verticilium dahliae based on the consistent morphological characteristics (Hawksworth et. al 1970). To confirm the identity, the internal transcribed spacer regions of ribosomal DNA, amplified by PCR with universal primers ITS4/ITS5 (White et.al 1990), were sequenced. Both strains shared the same sequences (GenBank MZ734460; MZ736637), and BLASTn searching was 100% identical to many records of V. dahliae including an ex-epitype CBS130341. Pathogenicity was tested on 3-week-old seedlings of tomato cv. 'Bonny best' and eggplant cv. 'Longship' by a root dip method (Bhat & Subbarao 2007). Eighteen plants arranged into three replications were inoculated for each host-isolate combination, and incubated in the greenhouse at 25±3℃. The pathogenicity test was repeated two times, with the result that both isolates were pathogenic to tomato and eggplant. Both isolates induced wilt symptoms in all inoculated plants within 14 days post-inoculation (DPI). Severe leaf drop, wilting and vascular discoloration in all inoculated eggplant whereas slight yellowing and mildly stunt growth in tomato were observed at 21 DPI. Koch's postulates were fulfilled by re-isolating the same fungus from both infected tomato and eggplant. All uninoculated plants remained health and no V. dahliae was isolated from them. To our knowledge, this is the first report of V. dahliae and Verticilium wilt of grafted tomato caused by this pathogen in Taiwan. This pathogen affects over 400 plant species and has resulted in significant economic losses in many regions of world (Subbarao 2020). It is important to investigate the distribution and extent of damage caused by this emerging pathogen on Solanaceous or other crops.

First Report of Podosphaera xanthii Causing Powdery Mildew on Mungbean (Vigna radiata) in Taiwan.

Mungbean (Vigna radiata L.) is routinely grown in the experimental fields at the headquarters of the World Vegetable Center (23°6'30.88"N, 120°17'51.31"E) for breeding, research and germplasm multiplication. In a spring 2016 mungbean trial, about 50% of the plants were affected with powdery mildew. The white, powdery-like patches first appeared on the upper leaf surfaces, and soon developed to grey patches on both sides of the leaves. Purple to brown discoloration appeared on the underside of the infected leaf. Microscopy examination revealed that the causal organism was not Erysiphe polygoni, which had previously been documented as the powdery mildew pathogen on mungbean in Taiwan (Hartman et al. 1993). The fungus produced typical structures of the powdery mildew Euoidium, anamorph of the genus Podosphaera. The mycelium consisted of septate, flexuous hyphae with indistinct appressoria. The erect conidiophores arising from superficial hyphae varied from straight or slightly curved to curled. Three to ten conidia were borne in long chains with crenate edges. Foot-cells were straight, cylindrical and measured 30 to 52 µm long. Conidia were hyaline, ellipsoid-ovoid to barrel-shaped, with fibrosin bodies, and measured 27 to 33 (mean = 30.4) × 15 to 20 (mean = 16.6) µm. Germ tubes were clavate and occasionally forked, and were produced from the lateral sites of the conidia. No chasmothecia were found in the samples. The morphological characteristics were consistent with P. xanthii (Castagne) U. Braun & Shishkoff (Braun & Cook 2012). To confirm the identity, the internal transcribed spacer (ITS) region of rDNA and partialß-tubulin gene (TUB2) for the isolate MG3 were amplified with the primers ITS4/ITS5 (White et al. 1990) and BtuF5/BtuR7a (Ellingham et al. 2019), respectively. BLASTn analysis revealed the ITS sequence (MN833717) was 100% identical to many records of P. xanthii whereas the TUB2 sequence (MW363957) was 100% identical to a record of P. fusca (syn. P. xanthii; KC333362) in NCBI GenBank. A pathogenicity test was conducted by dusting conidia from an infected leaf onto six healthy four-week-old mungbean plants (cv 'Tainan No. 3'). Another three plants were not inoculated and were used as control. All the plants were maintained in a greenhouse at 25 to 28°C. All inoculated plants developed powdery mildew symptoms after 10 days, whereas the control plants remained symptomless. To our knowledge, this is the first report of P. xanthii causing disease on mungbean in Taiwan. P. xanthii also has been reported on mungbean in Thailand (Meeboon et al. 2016), while other records referring to E. polygoni infecting Vigna spp. are from Brazil and Fiji (Farr & Rossman 2020). Although both P. xanthii and E. polygoni have now been reported as causing powdery mildew on mungbean in Taiwan, which species predominates or is more important remains unclear. A comprehensive survey with accurate species identification is required to develop effective management of the disease, particularly for resistance breeding.

Race Characterization of Phytophthora Root Rot on Capsicum in Taiwan as a Basis for Anticipatory Resistance Breeding.

Peppers (Capsicum sp.) are an increasingly important crop because of their use as a vegetable, spice, and food colorant. The oomycete Phytophthora capsici is one of the most devastating pathogens to pepper production worldwide, causing more than $100 million in losses annually. Developing cultivars resistant to P. capsici is challenging because of the many physiological races that exist and new races that are continuously evolving. This problem is confounded by the lack of a universal system of race characterization. As a basis to develop a global anticipatory breeding program, New Mexico recombinant inbred lines (NMRILs) functioned as a host differential for Phytophthora root rot to characterize the race structure of P. capsici populations in Taiwan. Using the NMRILs, 24 new races were identified, illustrating the utility and usefulness of the NMRILs for anticipatory breeding. Virulence of P. capsici was observed to be geographically specific and in two virulence clusters. Interestingly, all but two isolates collected in 2016 were the A2 mating type, which is a shift from the predominantly A1 mating type isolates collected prior to 2008. The NMRILs host differential provides an approach for scientists to work together on a global scale when breeding for resistance as well as on a local level for regional gene deployment. Additionally, we propose that the current race numbering system, which has no biological meaning, be supplemented with the virulence phenotype, based on the susceptible NMRILs to a given isolate. This work provides insights into the population dynamics of P. capsici and interactions within the highly complex Capsicum-Phytophthora pathosystem, and offers a basis for similar research in other crops.

Host Specificity and Tomato-Related Race Composition of Phytophthora infestans Isolates in Taiwan During 2004 and 2005.

Late blight, caused by Phytophthora infestans, is a major disease of tomato in cool and wet environments. In this study, we report on the host specificity, race composition, and variation among races revealed by amplified fragment length polymorphism (AFLP) of P. infestans isolated from tomato production areas in Taiwan. In all, 177 P. infestans isolates were collected in Taiwan during 2004 and 2005. All were aggressive on both potato and tomato. Nine physiological races were identified based on disease response on a set of tomato differentials developed by the Asian Vegetable Research and Development Center-The World Vegetable Center. Eighty-seven polymorphic bands from 32 isolates of four races were detected by AFLP. No significant correlation between the polymorphism and the races was found using cluster analysis. This study revealed that a high variability of race composition among the asexual population of P. infestans isolates existed in Taiwan during 2004 and 2005. Breeding new tomato cultivars for resistance to P. infestans is an urgent and ongoing need because new races of the pathogen appeared continuously in Taiwan in past years. Further analysis of the genomic diversity is necessary to determine whether the high genetic variation of P. infestans is related to the complex race composition.