ABSTRACT
To investigate the characteristics and sources of potentially toxic elemental contamination in soils around the coal-fired power plant, we selected the soil around the Jingyuan power plant as the object of investigation. Thirty-six and 27 soil samples collected from the urban and farmland areas were analyzed for PTEs (As, Cd, Cr, Cu, Hg, Ni, Pb, and Zn), respectively. We employed the geoaccumulation index, single-factor pollution index, and improved Nemerow integrated pollution index to evaluate the contamination characteristics of PTEs, and combined correlation analysis with absolute principal component scores-multiple linear regression (APCS-MLR) and positive matrix factorization (PMF) receptor models were used to quantitatively analyze the pollution sources of PTEs. The results revealed that all the average concentrations of other soil metals around Jingyuan power plant exceeded their corresponding background values of Gansu Province, except for As, in agricultural soil, and Hg exhibited significant spatial non-homogeneity, and thus it was visibly affected by anthropogenic activities. The values of the single-factor pollution and geoaccumulation indices indicated that the soils of both sites were mainly contaminated with Cd, Cr, Ni, and Pb, and Hg contamination was reflected in wide areas for both sites. Additionally, the results of the improved Nemerow index demonstrated that the investigated soil was between moderately contaminated and heavily contaminated. Further, the comprehensive pollution degree of urban soil was higher than that of agricultural soil. Moreover, source apportionment revealed that PTEs in urban soil were derived from mixed sources of traffic activities and coal combustion, mixed sources of traffic activities and industrial and mining activities, and atmospheric deposition from industrial activities, with contribution rates of APCS-MLR of 35.2%, 25.1%, and 23.4%, respectively. The PMF contribution rates were 40.2%, 12.4%, and 47.7%, respectively. PTEs in agricultural soil were from one mixture source of industrial, mining, agricultural, and traffic sources, and the other mixed source was of traffic activities and coal combustion, with a APCS-MLR contribution rate of 40.3% and 35.9% and a contribution rate of PMF of 36.2% and 18.0%, respectively. In addition, another mixed source of agricultural activities and coal combustion was obtained using the PMF model, with a contribution rate of 48.5%.
ABSTRACT
Muskmelon (Cucumis melo L.) is one of the most widely cultivated and economically important fruit crops in the world. In January 2023, muskmelon leaves of cultivar 'Sheng Gu' were observed with irregularly shaped spots in four nurseries in Wanxiang Village, Pudong District of Shanghai, China. Initial symptoms were irregular soaking on the leaves, which progressed to rotting and necrotic spots. The disease incidence of melon seedlings in different nurseries ranged from 10 to 25%. To isolate and identify the causal agent, the small pieces of lesion tissues (5×5 mm) from symptomatic leaves were sterilized in 75% ethanol for 30 s and rinsed three times with sterile water. Following that, tissues were crushed with sterile glass rod in a sterile 2.0 mL centrifuge tube containing 100 µl of sterile water. The suspension was serially diluted before being spread on Luria-Bertani (LB) medium. After 48 h of incubation at 28°C, the cream-colored bacterial colonies from the 10-4 dilution were tiny and purified by streaking on new LB plates. To confirm the species identity of the bacterial isolates, genomic DNA was extracted from four independent representative colonies from different diseased plants, and several conserved genes were amplified and sequenced, including the 16S rRNA gene with primers 27F/1492R, gyrB gene with primers gyrBFor2/gyrBRev2, and rpoD gene with primers rpoDFor2/rpoDRev2 (Lelliot et al. 1966; Murillo et al. 2011). The results showed that the four colonies were identical. Using BLAST analysis in GenBank, the 16S rDNA (accession no. OQ659765, 1,402 bp), the gyrB (accession no. OQ708618, 911 bp), and rpoD sequences (accession no. OQ708619, 798 bp) showed 99.86-100% homology with 99-100% coveage as the corresponding gene sequences in the P. syringae pv. syringae strain HS191 (accession no. CP006256.1). The bacterial isolate was designated as P. syringae pv. syringae strain PDTG. Phylogenetic tree analysis of 16S rDNA, gyrB and rpoD genes further verified that the bacteria isolate was in close proximity to P. syringae pv. syringae. Additionally, all four isolates were detected in PCR with P. syringae pv. syringae specific primers, PsyF/ PsyR (Borschinger et al. 2016; Guilbaud et al. 2016). Ten two weeks old healthy 'Sheng Gu' muskmelon seedlings were inoculated by spraying with a bacterial suspension of 108 CFU/ml, and ten additional healthy plants treated with sterilized water served as the control. The inoculated plants were maintained at 25°C and 75% relative humidity for 7 days in artificial climate room. Water-soaked rot, similar as those seen in the nurseries, appeared on leaves 7 days after inoculation (dai), while the leaves of control plants remained healthy. The bacteria were re-isolated from rot of inoculated leaves and confirmed as the original pathogen by PCR with the PsyF/ PsyR primers and the 16S rRNA gene sequences. To our knowledge, this is the first report of P. syringae pv. syringae causing bacterial leaf spot on muskmelon in China, and this report expands the host range of P. syringae pv. syringae.
ABSTRACT
In August 2022, melon (Cucumis melo), cucumber (Cucumis sativus) and luffa (Luffa aegyptiaca) plants showed virus-like symptoms characteristic of geminiviruses (yellowish green, mosaic patterns and severe curling of leaves, short internodes, and stunting) in 10 greenhouses in Fengxian district and 20 greenhoues in Jiading district of Shanghai, China. Fifty symptomatic leaf samples were randomly collected: 28 from melon, 17 from cucumber, and 5 from luffa. To investigate the etiology of the observed disease, total DNA and RNA was extracted via a DNA extraction kit (Tiangen, Not: DP350) and TRIzol reagent (Sigma-Aldrich, Not: T9424), respectively. Healthy melon plants grown in a growth chamber served as negative control. The DNA and RNA samples were screened for the presence of geminiviruses, Cucurbit chlorotic yellow virus (CCYV), Melon yellow spot virus (MYSV), Cucumber mosaic virus (CMV), Zucchini yellow mosaic virus (ZYMV) and Cucumber green mottle mosaic virus (CGMMV) through PCR or RTâPCR with geminiviruses (Deng et al. 1994), CCYV, MYSV, CMV, ZYMV and CGMMV (Zeng et al. 2011, 2019) primers. The PCR results showed that 28 melon leaves and 17 cucumber leaves were positive for geminivirus and CCYV, respectively, 5 luffa samples were infected with only geminivirus, and virus was not detected from the healthy plants. These results indicate that these two viruses are widely distributed throughout cucurbit crops in Shanghai, China. All the geminiviruses sequences (approximately 510 bp) were quite similar to each other and were most similar (99.4%) to the Tomato leaf curl New Delhi virus (ToLCNDV) sequence (GenBank Accession No. OP356207) (Li et al. 2022). To confirm the presence of geminiviruses, the segments of DNA-A and DNA-B were amplified by PCR with 4 ToLCNDV-specific primer sets (Mizutani et al. 2011) and sequenced from 10 samples (4 melon, 4 cucumber and 2 luffa). Both DNA-A and DNA-B of the ToLCNDV sequences and features were deposited in GenBank under the accession numbers OQ190939-OQ190948 (DNA-A, 2739 nt) and OQ190949-OQ190958 (DNA-B, 2693 nt). BLASTn analysis of Shanghai isolates of ToLCNDV (DNA-A and DNA-B) showed that the sequences shared nucleotide identities ranged from 99.3% to 100% among them and with values of more than 99.4% nucleotide identity with ToLCNDV isolates from tomato in China (OP356207 and OP356208) (Li et al. 2022). To confirm the virus infection, we have successfully constructed an infectious clone for 0823-1 isolate in the binary plasmid and inoculated melon with and without an infectious clone. The melon plants inoculated with ToLCNDV 15 dpi showed the high accumulation of the virus and displayed symptoms similar to viruses in greenhouse. Based on the complete sequences, results of the molecular phylogenetic analysis (Fig. 2) and infectious clone, these geminiviruses were identified as ToLCNDV. ToLCNDV has been reported to occur and spread by the whitefly (Bemisia tabaci) in many Asian countries (Sohrab et al. 2003; Sohrab et al. 2011; Aamir et al. 2020) and Europe (Juárez et al. 2014; Ruiz et al. 2015; Luigi et al. 2019). Large populations of whiteflies were also present in all our surveyed areas. However, to our knowledge, this is the first report of the occurrence of ToLCNDV in cucurbit plants in China. The presence of ToLCNDV and CCYV can cause severe losses in crop yields or even crop failure. In addition to TYLCV, ToLCNDV is another major geminivirus-induced disease threatening cucurbit and other vegetable production in China.
ABSTRACT
Crown daisy (Glebionis coronaria L.), also known as chrysanthemum greens, is a popular vegetable in Asia, especially in China. The leaves have been used in folk medicine as a tonic for the liver, blood, intestines and to control anemia and high blood pressure. In November 2020, severe leaf spot and blight was observed with 80% to 95% incidence on crown daisy growing in greenhouses in Fengxian, Shanghai, China (121°22'E, 30°53'N). Irregular rounded spots appeared with a light gray center and water-soaked margins. Round lesions enlarged and merged with age, followed by the development of a necrotic area resulting in the typical "frog-eye" and causing a continuous deterioration of crown daisy. Diseased leaves were washed in running water for 30 min. Small fragments (5 × 5 mm) taken from the margin of lesions were disinfected with 1% NaClO for 3 min, rinsed three times with sterile water, cultured on potato sucrose agar (PSA) augmented with 50 mg streptomycin/liter at 26 oC,and incubated in the dark. Colonies had identical morphology, and TH11290202 was selected and deposited in the plant pathology lab of Shanghai Academy of Agricultural Sciences. Mycelium was initially cottony and white and became appressed to the medium and dark brown with time. Conidia did not form on any media, including PSA, PDA, V8 agar (V8A), maize leaf carbonate agar (MLPCA), pepper leaf carbonate agar (PLPCA), etc. To confirm the identity of the pathogen, genomic DNA was extracted from TH11290202 with the cetyltrimethylammonium ammonium bromide (CTAB) method from the mycelia. Five loci were PCR amplified, namely, the internal transcribed spacer (ITS), translation elongation factor (TEF), calmodulin (cmdA), histone (H3) and actin (ACT), using primers ITS1/ITS4 (White et al. 1990), EF1-728F/EF1-986R (Jaklitsch et al. 2005), CAL-F/CAL-R (O'Donnell et al. 2000), cylh3f/cylh3r (Glass and Donaldson 1995), and ACT-512F/ACT-783R (Carbone and Kohn 1999), respectively. The resulting sequences were deposited in GenBank (MW819910, MW981277, MW981278, ON798723, and MW981279). Analysis of the ITS, TEF, cmdA, H3 and ACT gene sequences of isolate TH11290202 revealed that it was a member of the genus Cercospora, sharing 99.79%, 99.66%, 98.10% 99.74% and 100% sequence similarity with type strain of Cercospora apii CBS 116455. A multilocus phylogenetic analysis was performed using sequences from other closely related taxa obtained from GenBank. Based on morphological and molecular characteristics, TH11290202 was identified as C. apii (Crous and Braun 2003; Groenewald et al. 2006; Milosavljevic et al. 2014). To confirm pathogenicity, Koch's postulates were fulfilled on 30 mature plants, which were maintained in a growth chamber (at 26 °C, relative humidity 90%, 12/12 h light/dark). Surface-sterilized leaves were sprayed with a mycelial suspension. Brown lesions were formed 7 days after inoculation on 15 plants, whereas the noninoculated controls remained asymptomatic on the other 15 plants. To our knowledge, this is the first report of C. apii causing leaf spot and blight on G. coronaria in China and will provide useful information for developing effective control strategies.
ABSTRACT
Strawberry (Fragaria × ananassa Duch.) is a kind of fruit with great economic importance and widely cultivated in the world. From 2019 to 2020, a serious crown rot disease was sporadically observed in several strawberry cultivars including 'Zhang Ji', 'Hong Yan' and 'Yue Xiu' in Shanghai, China. Initially, water-soaked rot appeared in inner tissue of strawberry crown, then progressed into browning and hollowing symptoms accompanied with yellow discolorations of young leaves. To isolate and identify the causal agent, small pieces of tissue taken from ten diseased crowns were sterilized by 70% alcohol. The cut-up pieces were macerated and serially diluted. The dilutions were placed on nutrient agar (NA) medium. After incubation at 25°C for 4-5 days, the yellow bacterial colonies were tiny and were streaked on NA plate for purification. The colonies were yellow, mucoid, smooth-margined, and five independent representative colonies were used for further confirmation. To confirm the species identity of the bacterial, genomic DNA was extracted from the five representative isolates, and 16S rRNA gene was amplified and sequenced using universal primers 27F/1492R. The 16S rRNA sequence was deposited in GenBank (MW725235) and showed 99% nucleotide similarity with Xanthomonas fragariae strain LMG 708 (NR_026318). The isolate's identity was further confirmed by X. fragariae-specific primers XF9/XF12 (Roberts et al. 1996). All five isolates could be detected by XF9/XF12 primer. To confirm Koch's postulates, five healthy strawberry plants were placed in 1000 ml glass beakers by submerging the cutting wound in 50 ml the bacterial suspension of 108 CFU/ml. Five additional strawberry plants treated with sterilized water served as a control. The beakers containing inoculated plants were sealed with plastic film at 25°C. Water-soaked rot appeared on internal tissue of crown similar to those observed in the field within 10-12 days after inoculation, while the control samples remained healthy. The bacteria were re-isolated from rot of inoculated crowns, and confirmed by X. fragariae-specific primers XF9/XF12. X. fragariae has been reported to cause angular leaf spot on strawberry in China (Wang et al. 2017; Wu et al., 2020). It's also found that X. fragariae could systematically infect crown tissue (Milholland et al. 1996; Mahuku and Goodwin, 1997). To our knowledge, this is the first report of X. fragariae causing strawberry crown rot in China. This report increased our understanding of X. fragariae, and showed that the spread of this disease might seriously threaten the development of strawberry industry in the future.
ABSTRACT
Mitogen-activated protein kinase (MAPK) cascades are highly conserved signal transduction pathways, which play a wide variety of important roles in extracellular signal transduction. The first MAPK gene of the maize pathogen Curvularia lunata, Clk1, was isolated via a PCR-based approach with a primer pair designed on the basis of conserved regions of known MAPKs. Southern blot analysis showed that the gene existed in the genome as a single copy. The predicted amino acid sequence (352 amino acids) was highly homologous with MAP kinases of other phytopathogenic fungi. Flanking regions of Clk1 were obtained through RACE and genomic walking technology. To understand the role of Clk1 in C. lunata, targeted gene disruption was adopted to construct Clk1 mutants. It was found that mutants lacking functional domain of Clk1 were not able to produce conidia but tended to form a few special chlamydospore-shaped structures. Clk1 mutants grew slower in adverse environments (at 24°C), produced less cell degrading enzymes (CWDEs) than the wild type, and they were almost unable to infect maize leaves via artificial wounds.
