First report of Meloidogyne javanica infecting Bletilla striata in Yunnan, China.

Bletilla striata (Thunb. ex Murray) Rchb. F. (Orchidaceae) is an endangered traditional Chinese medicinal plant and has been traditionally used for hemostasis and detumescence in China (Wang et al. 2022). In March of 2021, during a field survey in Xuanwei city, Yunnan province, China, some B. striata plants with symptoms of plant dwarfing and leaf yellowing were observed. Roots of diseased plants presented numerous galls, typical symptoms of root-knot nematodes (RKNs) infection. The diseased area was approximately 66667 m2, showing a patchy disease distribution pattern. To identify the species of RKNs, females and eggs were isolated from galled tissue, and second-stage juveniles (J2s) were collected from eggs hatched. Nematodes were identified through comprehensive morphological and molecular methods. The perineal pattern of females is round to ovoid with a flat or moderately high dorsal arch and has two conspicuous lateral line striae. Morphological measurements of females (n=20) included body length (L) = 702.9 ± 70.8 (556.2-780.2) µm, body width (BW) = 404.1 ± 48.5 (327.5-470.1) µm, stylet length = 15.5 ± 2.2 (12.3-18.6) µm, distance from base of stylet to dorsal esophageal gland opening (DGO) = 3.7 ± 0.8 (2.1-4.9) µm. The morphometrics of J2s (n=20), L = 438.4 ± 22.6 (354.1-464.8) µm, BW = 17.4 ± 2.0 (12.9-20.8) µm, stylet length = 13.5 ± 0.4 (13.0-14.2) µm, DGO = 3.2 ± 0.6 (2.6-4.7) µm, and hyaline tail terminus = 12.3 ± 1.9 (9.6-15.7) µm. These morphological characteristics were similar to the original descriptions of Meloidogyne javanica (Rammah and Hirschmann 1990). DNA extraction was done 60 times, each from a different single females following the method of Yang et al. (2020). Amplification of ITS1-5.8S-ITS2 region of rDNA and the coxI region of mtDNA was done by using primers 18S/26S (5'-TTGATTACGTCCCTGCCCTTT-3'/5'-TTTCACTCGCCGTTACTAAGG-3') (Vrain et al. 1992) and cox1F/cox1R (5'-TGGTCATCCTGAAGTTTATG-3'/5'-CTACAACATAATAAGTATCATG-3') (Trinh et al. 2019) respectively. The PCR amplification program followed the method described by Yang et al. (2021). The ITS1-5.8S-ITS2 gene sequence (768 bp, GenBank Accession No. OQ091922) showed 99.35-100% identical to the known sequences of M. javanica (GenBank Accession Nos. KX646187, MW672262, KJ739710, KP901063, MK390613). The coxI gene sequence (410 bp, OQ080070) showed 99.75%-100% identical to the known sequences of M. javanica (OP646645, MZ542457, KP202352, KU372169, KU372170). Furthermore, M. javanica species-specific primers Fjav/Rjav (5'-GGTGCGCGATTGAACTGAGC-3'/5'-CAGGCCCTTCAGTGGAACTATAC-3') were used for PCR amplification. An expected fragment of approximately 670 bp was obtained, which was identical to that previously reported for M. javanica (Zijlstra et al. 2000). To verify pathogenicity of this nematode on B. striata, six 1.6-year-old tissue culture seedings of B. striata were maintained in 10-cm-diameter × 9-cm-high plastic pots containing a sterilized mixed soil (humus soil: laterite soil: perlite=3:1:1), and each plant was inoculated with 1000 J2s hatched from eggs of M. javanica. Three non-inoculated B. striata were used as the negative controls. All plants were placed in a greenhouse at approximately 14～26 ℃. After 90 days, the inoculated plants presented symptoms of leaf yellowing, and the roots with root knots identical to those observed in the fields. The root gall rating was 2 according to the 0-5 RKNs rating scale (Anwar and McKenry, 2002) and the reproductive factor (RF= final population/initial population) was 1.6. No symptoms or nematodes were observed on control plants. The nematode was reisolated and identified as M. javanica by morphological and molecular methods as above. To our knowledge, this is the first report of infection of M. javanica on B. striata. The infection of this economically important medicinal plant with M. javanica could pose a great threat to B. striata production in China, and further research will be necessary to develop control strategies.

Association of Globodera rostochiensis (Nematoda) with Stunted and Chlorotic Potato Plants in Yunnan and Sichuan Provinces in China.

On a global basis, potato cyst nematodes (Globodera spp. Skarbilovich 1959 [Behrens 1975]) are one of the most serious soilborne pathogens in potato (Solanum tuberosum L.) production. In 2019 to 2020, 188 soil samples were taken from rhizosphere soil associated with the roots of stunted and chlorotic potato plants in the main potato-growing areas of Yunnan and Sichuan Provinces of China. Globodera rostochiensis Wollenweber 1923 (Skarbilovich 1959) was recovered from 112 of the samples. Nematode identification was as confirmed by morphometric, light microscopy, electron microscopy, and molecular methodologies. Population densities of G. rostochiensis ranged from 47.0 to 69.0 eggs/g of soil. A BLASTn homology search program was used to compare the sequences of populations of G. rostrochienses from Yunnan and Sichuan Provinces with populations of other Heteroderinae spp. and populations of G. rostochiensis from other nations. Although potato has been grown in China for at least 400 years and the nation produces more potato than any other country, potato cyst nematodes were not reported in China until 2022.

First Report of Neopestalotiopsis piceana Causing Gray Blight in Camellia sinensis L. in China.

Tea plants (Camellia sinensis L.) are an important cash crop and are cultivated worldwide for their commercial value (Palanisamy et al. 2014). Tea gray blight is an important tea plant disease as it can cause a decline in tea quality and reduce yields by 20-30% (Sanjay et al. 2008). In August 2018, a disease survey was conducted on 400 ha of organic tea plantations in the Pu'er area of Yunnan Province (22.48° N, 100.58° E). The survey found that widespread disease was causing damage to 40% of the tea plantations and that the most seriously affected tea variety was Yunkang No. 10, which had an average disease incidence of 30-35%. The affected leaves grew small yellow-green spots on their tips or margins in the early stage that expanded into round or irregular brown spots with distinct concentric whorls and black conidial disks arranged in whorls when the humidity was high (Fig. 1A-B), which is consistent with tea gray blight disease (Zheng et al. 2021). Twenty-four diseased leaf samples were collected from four different tea plantations and transported to the Pu-Erh Tea Research Laboratory. Leaves with disease spots were cut into 4 mm ×4 mm square pieces, surface-sterilized with 75% alcohol for 1 min, disinfected with 1% sodium hypochlorite for 3 min, and washed thrice with sterile water. The tissue pieces were placed on potato dextrose agar (PDA) plates containing 100 µg ml-1 of chloramphenicol (Wang et al. 2021). After 3 d of culturing in the dark at 28 C, twenty pure cultures with similar morphology were obtained, and two representative isolates were selected and transferred into new PDA media. After 7 d, circular fungal colonies with dense aerial mycelium produced black, wet spore masses that grew on the PDA media (Fig. 1C-D). The conidia were spindle-shaped with four septa, measuring 25.0 (21.0-26.0) × 6.0 (4.5-7.0) µm (n=15). The conidia had three median cells, two of which were dark brown in color with unclear separations, with a single basal hyaline appendage 3.8 (3.5-4.5) µm (n=30) in length and 2-3 apical hyaline appendages 31 (27-35) µm in length (n=30) (Fig. 1E), similar to the conidial characteristics of Neopestalotiopsis piceana (Maharachchikumbura et al. 2014). Two isolates were selected for DNA extraction. The internal transcribed spacer (ITS) region, partial translation elongation factor 1-alpha (tef1-α) gene, and partial ß-tubulin (tub2) gene were amplified using the ITS1F-ITS4 primer set (White et al 1990), the EF-1α-F and EF-1α-R primer sets (Li et al. 2018), and the tub1 and tub2 primers, respectively (Chauhan et al. 2007). The ITS (OP535632 to OP535632), tef1-α (OP589285,OP589287), and tub2 (OP589286,OP589288) sequences were submitted to NCBI GenBank. Basic Local Alignment Search Tool analysis demonstrated that these sequences were 100% similar to those of N. piceana isolates available in GenBank. The sequences were compared using the Mafft software package, and sequences with the same ID were concatenated using scripts. A maximum likelihood phylogenetic tree was constructed using the MEGA (ver. 5.1) software package based on the concatenated sequences (ITS, tef1-α, and tub2). Phylogenetic analysis revealed that C-5 and B-3 showed 95% bootstrap support with N. piceana isolates in references (Fig. 2). According to the morphology and molecular characterization, C-5 and B-3 were identified as N. piceana. Pathogenicity tests on these two isolates were conducted using 36 healthy tea plants. The leaves were scratched slightly with sterile toothpick tips, after which pathogen cakes (6 mm diameter) were placed on the wounds with the mycelial side facing down and covered with sterile absorbent cotton to maintain a moist environment. Control leaves were wounded and covered with sterile PDA plugs (three replicates per treatment, three plants per replicate). Seven days later, the inoculated leaves exhibited similar symptoms observed under natural conditions, whereas the control leaves exhibited no symptoms. The same isolates as the introduced strains were isolated from the diseased tea leaves, completing Koch's postulates. To our knowledge, this is the first report of N. piceana causing gray blight on tea leaves in China. These results provide valuable information for the prevention and management of gray blight on tea leaves. References: Chauhan, J. B., et al. 2007. Indian J Biotechnol. 6: 404-406 Li, D. X., et al. 2018. J. Trop. Crops. 39:1827-1833. Maharachchikumbura, S. N., et al. 2014. Stud. Mycol. 79:121-186. Palanisamy, S., et al. 2014. Appl. Biochem. Biotechnol. 172:216-223. Sanjay, R., et al. 2008. Crop Protect. 27(3-5): 689-694. Wang, Q. M., et al. 2021. Front. Microbiol. 12:774438. White, T. J., et al. 1990. Academic, San Diego. 315-322 Zheng, S., et al. 2021. Plant Dis. 105:3723-3726.

Reviving the Potential of Vermiculite-Based Adsorbents: Exceptional Ibuprofen Removal on Novel Amide-Containing Gemini Surfactants.

In this study, we introduce a novel series of gemini surfactants with amide groups (HDAB, HDAHD, and HDAPX) and use these surfactants to decorate sodium vermiculite (Na-Vt) for the adsorption of Ibuprofen (IBP) from wastewater. Exceptional IBP uptake on organo-vermiculites (organo-Vts) is obtained, with maximum adsorption capacities reaching 249.87, 342.21, and 460.15 mg/g for HDAB-Vt, HDAHD-Vt, and HDAPX-Vt (C0 = 500 mg/L, modifier dosage = 0.2 CEC), respectively. The adsorption of IBP is well fitted by pseudo-second-order, intraparticle diffusion, and Freundlich isotherm models, verifying chemical adsorption processes with multilayer arrangement of IBP in organo-Vts. Thermodynamically, the removal of IBP on HDAHD-Vt is exothermic, while the endothermic nature aptly describes the adsorption process of HDAB-Vt and HDAPX-Vt. Moreover, organo-Vts can be stably regenerated in three cycles. Outstanding adsorption performance of organo-Vts is attributed to synergistic effects of the partition process and functional interaction, which are influenced by the steric hindrance and chain configuration of the modifier. A combined evaluation of adsorption tests and fitting calculations is employed to reveal the adsorption mechanism: (i) the incorporation of amides into the alkyl chain significantly enhances the utilization of the interlayer space in organo-Vts. (ii) Smaller steric hindrance and higher rigidity of the modifier spacer contribute to improved adsorption performance. The findings in this study rekindle interest in Vt-based adsorbents, which demonstrate comparable potential to other emerging adsorbents that are yet to be fully explored.

A new root-knot nematode, Meloidogyne vitis sp. nov. (Nematoda: Meloidogynidae), parasitizing grape in Yunnan.

An unknown root-knot nematode was found at high density on grape roots collected from Yunnan Province. Morphometric traits and measurements, isozyme phenotypes, and molecular analysis clearly differentiated this nematode from previously described root-knot nematodes. This new species is described, illustrated and named Meloidogyne vitis sp. nov. The new species can be distinguished from other Meloidogyne spp. by a unique combination of characters. Females display a prominent neck, an excretory pore is located on the ventral region between 23rd and 25th annule behind lips, an EP/ST ratio of approximately 2.5 (1.98-2.96), a perineal pattern with two large and prominent phasmids, and a labial disc fused with the medial lips to form a dumbbell-shaped structure. Males display an obvious head region, a labial disc fused with the medial lips to form a dumbbell-shaped structure, no lateral lips, a prominent slit-like opening between the labial disc and medial lips, a distinct sunken appearance of the middle of the medial lips, and four incisures in the lateral field. Second-stage juveniles are characterized by a head region with slightly wrinkled mark, a labial disc fused with the medial lips to form a dumbbell-shaped structure, a slightly sunken appearance of the middle of the medial lips, a slit-like amphidial openings between the labial disc and lateral lips, and four incisures in the lateral field. The new species has rare Mdh (N3d) and Est phenotypes (VF1). Phylogenetic analysis based on ITS1-5.8S-ITS2, D2D3 fragments of rDNA, and coxI and coxII fragments of mtDNA sequences clearly separated the new species from other root-knot nematodes, and the closest relative was Meloidogyne mali. Meloidogyne mali was collected for amplifying these sequences as mentioned above, which were compared with the corresponding sequences of new species, the result showed that all of these sequences with highly base divergence (48-210 base divergence). Moreover, sequence characterized amplified region (SCAR) primers for rapid identification of this new species were designed.

Tea Plants With Gray Blight Have Altered Root Exudates That Recruit a Beneficial Rhizosphere Microbiome to Prime Immunity Against Aboveground Pathogen Infection.

Tea gray blight disease and its existing control measures have had a negative impact on the sustainable development of tea gardens. However, our knowledge of safe and effective biological control measures is limited. It is critical to explore beneficial microbial communities in the tea rhizosphere for the control of tea gray blight. In this study, we prepared conditioned soil by inoculating Pseudopestalotiopsis camelliae-sinensis on tea seedling leaves. Thereafter, we examined the growth performance and disease resistance of fresh tea seedlings grown in conditioned and control soils. Next, the rhizosphere microbial community and root exudates of tea seedlings infected by the pathogen were analyzed. In addition, we also evaluated the effects of the rhizosphere microbial community and root exudates induced by pathogens on the performance of tea seedlings. The results showed that tea seedlings grown in conditioned soil had lower disease index values and higher growth vigor. Soil microbiome analysis revealed that the fungal and bacterial communities of the rhizosphere were altered upon infection with Ps. camelliae-sinensis. Genus-level analysis showed that the abundance of the fungi Trichoderma, Penicillium, and Gliocladiopsis and the bacteria Pseudomonas, Streptomyces, Bacillus, and Burkholderia were significantly (p < 0.05) increased in the conditioned soil. Through isolation, culture, and inoculation tests, we found that most isolates from the induced microbial genera could inhibit the infection of tea gray blight pathogen and promote tea seedling growth. The results of root exudate analysis showed that infected tea seedlings exhibited significantly higher exudate levels of phenolic acids and flavonoids and lower exudate levels of amino acids and organic acids. Exogenously applied phenolic acids and flavonoids suppressed gray blight disease by regulating the rhizosphere microbial community. In summary, our findings suggest that tea plants with gray blight can recruit beneficial rhizosphere microorganisms by altering their root exudates, thereby improving the disease resistance of tea plants growing in the same soil.

Identification and expression analysis of the GDSL esterase/lipase family genes, and the characterization of SaGLIP8 in Sedum alfredii Hance under cadmium stress.

BACKGROUND: The herb Sedum alfredii (S. alfredii) Hance is a hyperaccumulator of heavy metals (cadmium (Cd), zinc (Zn) and lead (Pb)); therefore, it could be a candidate plant for efficient phytoremediation. The GDSL esterase/lipase protein (GELP) family plays important roles in plant defense and growth. Although the GELP family members in a variety of plants have been cloned and analyzed, there are limited studies on the family's responses to heavy metal-stress conditions. METHODS: Multiple sequence alignments and phylogenetic analyses were performed according to the criteria described. A WGCNA was used to construct co-expression regulatory networks. The roots of S. alfredii seedlings were treated with 100 µM CdCl2 for qRT-PCR to analyze expression levels in different tissues. SaGLIP8 was transformed into the Cd sensitive mutant strain yeast Δycf1 to investigate its role in resistance and accumulation to Cd. RESULTS: We analyzed GELP family members from genomic data of S. alfredii. A phylogenetic tree divided the 80 identified family members into three clades. The promoters of the 80 genes contained certain elements related to abiotic stress, such as TC-rich repeats (defense and stress responsiveness), heat shock elements (heat stress) and MYB-binding sites (drought-inducibility). In addition, 66 members had tissue-specific expression patterns and significant responses to Cd stress. In total, 13 hub genes were obtained, based on an existing S. alfredii transcriptome database, that control 459 edge genes, which were classified into five classes of functions in a co-expression subnetwork: cell wall and defense function, lipid and esterase, stress and tolerance, transport and transcription factor activity. Among the hub genes, Sa13F.102 (SaGLIP8), with a high expression level in all tissues, could increase Cd tolerance and accumulation in yeast when overexpressed. CONCLUSION: Based on genomic data of S. alfredii, we conducted phylogenetic analyses, as well as conserved domain, motif and expression profiling of the GELP family under Cd-stress conditions. SaGLIP8 could increase Cd tolerance and accumulation in yeast. These results indicated the roles of GELPs in plant responses to heavy metal exposure and provides a theoretical basis for further studies of the SaGELP family's functions.

Rapid, simple and direct detection of Meloidogyne hapla from infected root galls using loop-mediated isothermal amplification combined with FTA technology.

The northern root-knot nematode (Meloidogyne hapla) is a damaging nematode that has caused serious economic losses worldwide. In the present study, a sensitive, simple and rapid method was developed for detection of M. hapla in infested plant roots by combining a Flinders Technology Associates (FTA) card with loop-mediated isothermal amplification (LAMP). The specific primers of LAMP were designed based on the distinction of internal transcribed spacer (ITS) sequences between M. hapla and other Meloidogyne spp. The LAMP assay can detect nematode genomic DNA at concentrations low to 1/200 000, which is 100 times more sensitive than conventional PCR. The LAMP was able to highly specifically distinguish M. hapla from other closely related nematode species. Furthermore, the advantages of the FTA-LAMP assay to detect M. hapla were demonstrated by assaying infected root galls that were artificially inoculated. In addition, M. hapla was successfully detected from six of forty-two field samples using FTA-LAMP technology. This study was the first to provide a simple diagnostic assay for M. hapla using the LAMP assay combined with FTA technology. In conclusion, the new FTA-LAMP assay has the potential for diagnosing infestation in the field and managing the pathogen M. hapla.

Novel Pectate Lyase Genes of Heterodera glycines Play Key Roles in the Early Stage of Parasitism.

Pectate lyases are known to play a key role in pectin degradation by catalyzing the random cleavage of internal polymer linkages (endo-pectinases). In this paper, four novel cDNAs, designated Hg-pel-3, Hg-pel-4, Hg-pel-6 and Hg-pel-7, that encode pectate lyases were cloned and characterized from the soybean cyst nematode, Heterodera glycines. The predicted protein sequences of HG-PEL-3, HG-PEL-4 and HG-PEL-6 differed significantly in both their amino acid sequences and their genomic structures from other pectate lyases of H. glycines (HG-PEL-1, HG-PEL-2 and HG-PEL-7). A phylogenetic study revealed that the pectate lyase proteins of H. glycines are clustered into distinct clades and have distinct numbers and positioning of introns, which suggests that the pectate lyase genes of H. glycines may have evolved from at least two ancestral genes. A Southern blot analysis revealed that multiple Hg-pel-6-like genes were present in the H. glycines genome. In situ hybridization showed that four novel pectate lyases (Hg-pel-3, Hg-pel-4, Hg-pel-6 and Hg-pel-7) were actively transcribed in the subventral esophageal gland cells. A semi-quantitative RT-PCR assay supported the finding that the expression of these genes was strong in the egg, pre-parasitic second-stage juvenile (J2) and early parasitic J2 stages and that it declined in further developmental stages of the nematode. This expression pattern suggests that these proteins play a role in the migratory phase of the nematode life cycle. Knocking down Hg-pel-6 using in vitro RNA interference resulted in a 46.9% reduction of the number of nematodes that invaded the plants and a 61.5% suppression of the development of H. glycines females within roots compared to the GFP-dsRNA control. Plant host-derived RNAi induced the silencing of the Hg-pel-6gene, which significantly reduced the nematode infection levels at 7 Days post inoculation (dpi). Similarly, this procedure reduced the number of female adults at 40 dpi, which suggests the important roles of this gene in the early stages of parasitism. Our combined data suggest that two types of pectate lyases are present in the H. glycines genome and may have different roles during infection.

Integrated honeycomb technology motivated by the structure of beetle forewings.

The authors' previously presented architecture of beetle forewings has become the source of motivation for developing an integrated honeycomb structure. In this paper, we briefly review this architecture, describe the characteristics of this proposed novel structure, and, show that the beetle forewing contains a fully integrated honeycomb plate rather than a traditional "honeycomb" structure. Herein, a basic geometrical model of the fiber orientation is also provided, and how to develop an integrated honeycomb technology is discussed. By assuming that each hexagonal space of the honeycomb is filled with a male tool and a continuous plate is built, we consider disassembling the plate into a limited number of basic male tools and a honeycomb plate. The male tools were made with paraffin wax, and basalt fiber meshes were laid inside the female tool. We injected a mixture of shredded basalt fiber and epoxy resin into the mold for making a prototype structure. After solidification at a low temperature followed by the removal of the male tools via heating, an integrated honeycomb plate with trabeculae inside the honeycomb was manufactured. We consider that the proposed manufacturing process, which does not need bonding, is a breakthrough and it is envisioned that it will introduce an alternative to the traditional assembly method of manufacturing honeycomb plates.