RESUMEN
Watermelon (Citrullus lanatus) is one of the major vegetable crops grown in Georgia during the spring and summer seasons, contributing $180 million of farmgate value to the state's economy (Georgia Farm Gate Value Report 2019). During the summer of 2021, watermelon plants with foliar symptoms such as yellow mottling, chlorosis, and wrinkling with thickened, bunchy, and upward curling were observed on commercial fields of Georgia, USA. A disease incidence of 15-20% in ~56 ac in Tift county and 10-15% in ~60 ac in Wilcox county was observed. The symptoms observed were similar to those described for watermelon crinkle leaf-associated viruses (WCLaV-1 and WCLaV-2) from Florida (Hendrick et al., 2021) and Texas (Hernandez et al., 2021). Symptomatic leaves from Tift (n=40) and Wilcox (n=20) counties were collected, surface sterilized with 0.1% bleach and used for total nucleic acid extractions using MagMAX 96 Viral RNA isolation kit (ThermoFisher Scientific, Waltham, MA, USA) following the manufacturer's instruction without DNase treatment. The potential introduction of WCLaV-1 and WCLaV-2 into Georgia was tested by reverse-transcription-polymerase chain reaction (RT-PCR) assay using specific primers targeting RNA-dependent-RNA polymerase (RdRp) and movement protein (MP) genes of both viruses (Hernandez et al., 2021). The expected amplicon sizes for RdRp (~900 nt) and MP (~500 nt) genes of WCLaV-1 located on RNA 1 and RNA 2 segements, respectively, were observed in 39 of 40 (97.5%) samples from Tift and seven of 20 (35%) samples from Wilcox. However, WCLaV-2 was not detected in any of the tested samples. All 60 samples also tested negative for the whitefly-transmitted viruses prevalent in the region, including cucurbit chlorotic yellows virus, cucurbit yellow stunting disorder virus, and cucurbit leaf crumple virus using virus-specific primers (Kavalappara et al., 2021). A subset of the samples analyzed by RT-PCR were also tested by SYBR green-based real-time RT-PCR assay targeting MP gene of WCLaV-1 using primers WCLaV-1FP (5'TCCACAAGCTTGATGGA- GGG3') and WCLaV-1RP (5'TCCCGAGTGAGGAAGCTAGT3'). The virus was detected in samples from both counties and the results matched with those obtained by the conventional RT-PCR assays (Suppl. Table 1). The presence of WCLaV-1 was further confirmed by sequencing (Genewiz, South Plainfield, NJ, USA) coupled with BLASTn analysis of amplicons resulted from the conventional RT-PCR from three randomly selected samples . The partial RdRp sequences (OL469153 to OL469155) were 99.3% and 99.9% identical to the corresponding sequences of WCLaV-1 isolates from China (KY781184) and Texas (MW559074) respectively. The partial MP sequences (OL469150 to OL469152) were 100% identical to those from China (KY781185) and Texas (MW559077). WCLaV-1 and WCLaV-2 were first discovered in Asia (Xin et al., 2017). Both viruses were subsequently reported from North and South Americas (Hendrick et al., 2021; Hernandez et al., 2021; Maeda et al., 2021), indicating their geographical expansion. Biological information, including vector relations, is unknown for both viruses and other members of the genus Coguvirus (family Phenuiviridae), to which they are provisionally assigned (Zhang et al., 2021). Further studies are also required to understand the biology and impact of both viruses on watermelon production and other crops, if any.
RESUMEN
Cucurbits in Southeastern USA have experienced a drastic decline in production over the years due to the effect of economically important viruses, mainly those transmitted by the sweet potato whitefly (Bemisia tabaci Gennadius). In cucurbits, these viruses can be found as a single or mixed infection, thereby causing significant yield loss. During the spring of 2021, surveys were conducted to evaluate the incidence and distribution of viruses infecting cantaloupe (n = 80) and watermelon (n = 245) in Georgia. Symptomatic foliar tissues were collected from six counties and sRNA libraries were constructed from seven symptomatic samples. High throughput sequencing (HTS) analysis revealed the presence of three different new RNA viruses in Georgia: cucumis melo endornavirus (CmEV), cucumis melo amalgavirus (CmAV1), and cucumis melo cryptic virus (CmCV). Reverse transcription-polymerase chain reaction (RT-PCR) analysis revealed the presence of CmEV and CmAV1 in 25% and 43% of the total samples tested, respectively. CmCV was not detected using RT-PCR. Watermelon crinkle leaf-associated virus 1 (WCLaV-1), recently reported in GA, was detected in 28% of the samples tested. Furthermore, RT-PCR and PCR analysis of 43 symptomatic leaf tissues collected from the fall-grown watermelon in 2019 revealed the presence of cucurbit chlorotic yellows virus (CCYV), cucurbit yellow stunting disorder virus (CYSDV), and cucurbit leaf crumple virus (CuLCrV) at 73%, 2%, and 81%, respectively. This finding broadens our knowledge of the prevalence of viruses in melons in the fall and spring, as well as the geographical expansion of the WCLaV-1 in GA, USA.