@article{bonyak_vann_ye_lewis_gorny_2024, title={A 2-year, multi-county survey of plant-parasitic nematodes in North Carolina flue-cured tobacco}, volume={3}, ISSN={["1435-0645"]}, url={https://doi.org/10.1002/agj2.21565}, DOI={10.1002/agj2.21565}, abstractNote={Abstract}, journal={AGRONOMY JOURNAL}, author={Bonyak, Hannah C. and Vann, Matthew C. and Ye, Weimin and Lewis, Ramsey S. and Gorny, Adrienne M.}, year={2024}, month={Mar} }
 @article{mahecha-garnica_ye_schumacher_gorny_2022, title={Soybean Cyst Nematode of Soybean: A Diagnostic Guide}, ISSN={["1535-1025"]}, DOI={10.1094/PHP-11-21-0138-DG}, abstractNote={ The soybean cyst nematode (SCN; Heterodera glycines Ichinohe 1952) is one of the most economically important pathogens of soybean. The species impacts soybean production worldwide and causes significant yield loss even in the absence of visible aboveground symptoms. This diagnostic guide describes the host range, signs, symptoms, and geographic distribution of SCN, and includes information regarding pathogen identification, storage, and pathogenicity tests for this nematode. }, journal={PLANT HEALTH PROGRESS}, author={Mahecha-Garnica, Sofia and Ye, Weimin and Schumacher, Lesley A. and Gorny, Adrienne M.}, year={2022}, month={Jul} }
 @article{ye_koenning_zeng_zhuo_liao_2021, title={Molecular Characterization of an Emerging Root-Knot Nematode Meloidogyne enterolobii in North Carolina, USA}, volume={105}, ISSN={["1943-7692"]}, DOI={10.1094/PDIS-04-20-0816-RE}, abstractNote={ An emerging threat to agriculture, Meloidogyne enterolobii Yang & Eisenback, 1983, is a tropical species and considered to be the most damaging root-knot nematode (RKN) in the world because of its wide host range, aggressiveness, and ability to overcome resistance to RKN in many crops. It was first detected in the United States on ornamental plants in Florida in 2001 but has since been identified in North Carolina, South Carolina, and Louisiana. Several thousand RKN populations were collected from North Carolina field crops, ornamental plants, and turfgrasses for species identification in the Nematode Assay Laboratory in the North Carolina Department of Agriculture & Consumer Services. From 2006 to 2019, root systems showing galling symptoms were dissected under the microscope, and females were obtained for DNA analysis. When only soil samples were submitted, the second-stage juveniles or males were used instead. Molecular characterization was performed via polymerase chain reaction with species-specific primers and DNA sequencing on the ribosomal DNA 18S-ITS1-5.8S and 28S D2/D3 and mitochondrial DNA CoxII-16S. One hundred thirty-five representative RKN populations from North Carolina were characterized and identified as M. enterolobii. Six populations from China where the species was originally described were included in this study for identity confirmation and comparison. As of December 2019, M. enterolobii has been confirmed from a limited number of fields in 11 North Carolina counties: Columbus, Craven, Greene, Harnett, Johnston, Lenoir, Nash, Pitt, Sampson, Wayne, and Wilson. Currently, M. enterolobii is the most important emerging RKN species in the United States and causes severe damage to agronomic and horticultural crops, especially sweetpotato in North Carolina. }, number={4}, journal={PLANT DISEASE}, author={Ye, Weimin and Koenning, Steve R. and Zeng, Yongsan and Zhuo, Kan and Liao, Jinling}, year={2021}, month={Apr}, pages={819–831} }
 @article{gorny_ye_cude_thiessen_2021, title={Soybean Root-Knot Nematode: A Diagnostic Guide}, volume={22}, ISSN={["1535-1025"]}, DOI={10.1094/PHP-01-21-0005-DG}, abstractNote={Root-knot nematodes (Meloidogyne spp.) are one of the most economically important plant parasites in the world, and significantly impacts soybean production in places where they are endemic. Several species of root-knot nematode are capable of causing significant damages to soybean and have broad host ranges that include common rotational crops and weeds. Symptoms of root-knot nematode infections may be confused with other diseases, nutritional disorders, or common root features associated with legumes. The purpose of this diagnostic guide is to provide information regarding identification, isolation, storage, and other relevant aspects of this pathosystem.}, number={2}, journal={PLANT HEALTH PROGRESS}, author={Gorny, Adrienne M. and Ye, Weimin and Cude, Sam and Thiessen, Lindsey}, year={2021}, pages={164–175} }
 @article{schwarz_li_ye_davis_2020, title={Distribution of Meloidogyne enterolobii in Eastern North Carolina and Comparison of Four Isolates}, volume={21}, ISSN={["1535-1025"]}, DOI={10.1094/PHP-12-19-0093-RS}, abstractNote={ The guava root-knot nematode (RKN), Meloidogyne enterolobii, is a particularly aggressive pathogen with limited known distribution in the United States. In 2011, M. enterolobii was identified on field crops in North Carolina for the first time. In collaboration with the North Carolina Department of Agriculture and Consumer Services Nematode Assay Laboratory, RKN-positive samples from the eastern half of North Carolina submitted to the laboratory were analyzed for Meloidogyne species identification using polymerase chain reaction (PCR) of individual nematodes. PCR primers specific for Meloidogyne incognita, M. javanica, M. arenaria, M. hapla, and M. enterolobii were used to analyze DNA from 203 RKN-positive samples representing a variety of field and vegetable crops grown in counties in the eastern half of North Carolina. M. incognita was the predominant species identified (32% of samples), and M. enterolobii was identified in 6% of samples including ones from sweetpotato, tobacco, and soybean crops. New detections of M. enterolobii were found in Nash, Greene, Sampson, and Harnett counties in addition to the previously identified locations in Johnston, Wayne, Columbus, and Wilson counties. Four isolates of M. enterolobii populations were collected from soybean and sweetpotato crops in Johnston, Greene, and Wilson counties and reared on ‘Rutgers’ tomato plants in the greenhouse. Potential differences in virulence among the four M. enterolobii populations were not detected in greenhouse infection assays on six selected resistant and susceptible sweetpotato genotypes in two independent tests. }, number={2}, journal={PLANT HEALTH PROGRESS}, author={Schwarz, Tanner and Li, Chunying and Ye, Weimin and Davis, Eric}, year={2020}, pages={91–96} }
 @article{ye_koenning_zhuo_liao_2013, title={First Report of Meloidogyne enterolobii on Cotton and Soybean in North Carolina, United States.}, volume={97}, ISSN={["1943-7692"]}, DOI={10.1094/pdis-03-13-0228-pdn}, abstractNote={ Stunted cotton plants (Gossypium hirsutum L. cvs. PHY 375 WR and PHY 565 WR) from two separate fields near Goldsboro in Wayne County, North Carolina were collected by the NCDA&CS Agronomic Division nematode lab for nematode assay and identification in December 2011. The galls on cotton plants were very large in comparison with those commonly associated with Meloidogyne incognita Kofoid and White (Chitwood) infected cotton. In August 2012, the lab also received heavily galled roots of soybean (Glycine max (L.) Merr. cv. 7732) from Wayne and Johnston counties. Population densities of the 2nd-stage juveniles ranged from 150 to 3,800 per 500 cc soil. Female perineal patterns were similar to M. incognita, but PCR and DNA sequencing matched that of M. enterolobii Yang and Eisenback (4). DNA sequences of ribosomal DNA small subunit, internal transcribed spacer, large subunit domain 2 and 3, intergeneric spacer, RNA polymerase II large subunit, and histone gene H3, were found to be 100% homologous when comparing populations of M. enterolobii from North Carolina and China. Species identification was also confirmed using PCR by a species-specific SCAR primer set MK7-F/MK7-R (2). M. enterolobii Yang & Eisenback was described in 1983 from a population causing severe damage to pacara earpod tree (Enterolobium contortisiliquum (Vell.) Morong) in China (4). In 2004, M. mayaguensis Rammah & Hirschmann, a species described from Puerto Rico, was synonymized with M. enterolobii based on esterase phenotype and mitochondrial DNA sequence (3). M. enterolobii is considered to be a highly pathogenic species and has been reported from vegetables, ornamental plants, guava, and weeds in China, Africa, Central and South America, the Caribbean, and Florida in the United States (1,3,4). Of particular concern is its ability to develop on crop genotypes carrying root-knot-nematode resistance genes (Mi-1, Mh, Mir1, N, Tabasco, and Rk) in tobacco, tomato, soybean, potato, cowpea, sweet potato, and cotton. Consequently, this species was added to the European and Mediterranean Plant Protection Organization A2 Alert list in 2010. Two populations of M. enterolobii one from soybean and one from cotton were reared on tomato (Solanum lycopersicum L. var. lycopersicum) in a greenhouse setting. Eggs were extracted using NaOCl and inoculated, at a rate of 7,000 per 15-cm-diameter clay pot, into a sandy soil mixture (1:1 washed river sand and loamy sand). Tomato, peanut (Arachis hypogaea L.), cotton, watermelon (Citrullus lanatus (Thunb.) Matsum. & Nakai), pepper (Capsicum annuum L.), and root-knot-susceptible and -resistant tobacco (Nicotiana tabacum L. cvs. K326 and NC 70, respectively) were transplanted immediately into the infested soil with four replications. Root galls on the host differentials were evaluated after 90 days. Reproduction occurred on all hosts except for peanut, which is consistent with reports for M. enterolobii and M. incognita race 4 (4). Adult females from pepper plants used in the host differential test were sequenced on partial 18S and ITS1 region and confirmed to be M. enterlobii. To our knowledge, this is the first report of a natural infection of North Carolina field crops with M. enterolobii. }, number={9}, journal={PLANT DISEASE}, author={Ye, W. M. and Koenning, S. R. and Zhuo, K. and Liao, J. L.}, year={2013}, month={Sep}, pages={1262–1262} }
 @article{zeng_ye_tredway_martin_martin_2012, title={Taxonomy and morphology of plant-parasitic nematodes associated with turfgrasses in North and South Carolina, USA}, number={3452}, journal={Zootaxa}, author={Zeng, Y. S. and Ye, W. M. and Tredway, L. and Martin, S. and Martin, M.}, year={2012}, pages={1–46} }