UC Davis doctoral candidate Alison Blundell with infested tomato plant infested with root-knot nematodes.
UC Davis doctoral candidate Alison Blundell with infested tomato plant infested with root-knot nematodes.

Alison Blundell Named Recipient of Outstanding Student Award from Society of Nematologists

A Member of the Shahid Siddique Lab, She'll Receive the Award at SON Meeting in British Columbia

UC Davis doctoral candidate Alison Blundell at 2023 SON conference.
UC Davis doctoral candidate Alison Blundell, shown here at the 2023 SON conference, is the recipient of the 2025 John M. Webster Outstanding Student Award.

Doctoral candidate Alison Blundell of the laboratory of associate professor Shahid Siddique, UC Davis Department of Entomology and Nematology, is the recipient of the 2025 John M. Webster Outstanding Student Award from the Society of Nematologists.

She is the first UC Davis student to win the award, launched in 2007 to recognize "a graduate student who has demonstrated outstanding accomplishments in his/her thesis research in nematology as well as other skills necessary to be a well-rounded scholar.”

As the recipient of the $1500 prize, Blundell will deliver a 30-minute oral presentation of her research at SON’s 64th annual meeting, to be held July 13-17 in Victoria, British Columbia.

“The evaluation committee was very impressed by your personal qualities and accomplishments,” the committee wrote, in praising her scientific accomplishments, leadership and commitment to the field of nematology.

 Blundell, who joined the UC Davis doctoral program in 2020, is completing her dissertation on “Trade-Offs Between Virulence and Evading Resistance in Root-Knot Nematodes.” She investigates how root-knot nematodes overcome Mi-1 in tomatoes and is testing for susceptibility associated with resistance breaking. Mi-1 is a crucial gene in tomato plants that confers resistance against root-knot nematodes, which are parasitic nematodes that can and do severely damage crops. 

Blundell has collected root-knot nematodes (RKN) isolates from affected fields across the state, developed single egg mass cultures, and is now applying whole-genome sequencing to identify genetic signatures associated with resistance and its breakdown. Simultaneously, she is investigating whether resistance-breaking RKNs suffer fitness costs when rotated with non-host crops—an approach that could directly inform nematode management strategies for growers.

Doctoral candidate Alison Blundell engaging the public at a UC Davis Biodiversity Museum Day. (Photo by Kathy Keatley Garvey)
Doctoral candidate Alison Blundell engaging the public at a UC Davis Biodiversity Museum Day. (Photo by Kathy Keatley Garvey)

In addition to her scientific contributions, Blundell is involved in professional services with SON, including oral and poster presentations and as vice chair of the SON Graduate Student Committee. She engages in teaching, mentoring, and public outreach on the UC Davis campus. She promotes science education and agricultural awareness by volunteering at the annual UC Davis Picnic Day and the UC Davis Biodiversity Museum Day.

Active in SON, Blundell won first place in the Three-Minute Thesis Competition at the 2022 SON meeting. At the 2024 SON meeting, judges awarded her second place in the 12-Minute Best Student Paper Award Competition.

Blundell, formerly Alison Coomer, holds a  bachelor of science degree in biology and a bachelor of arts in chemistry (2020) from Concordia University, Seward, Neb., where she received the Outstanding Graduate Student in Biology Award.

Tomato plant infested with root-knot nematodes. (Photo by Alison Blundell)
Tomato plant infested with root-knot nematodes. (Photo by Alison Blundell)

In the Webster Award application form, Blundell explained that "California’s processing tomato industry is responsible for one-third of all processing tomato production worldwide. The success of this industry depends on the growers’ abilities to implement management strategies such as integrated host resistance, effective pesticides, and non-host rotation crops to eliminate or control pathogens. Despite these efforts, root-knot nematodes (RKNs), Meloidogyne spp., cause an estimated 5% yield loss in processing tomatoes by suppressing the plant immune system, damaging root tissues, and creating entry points for secondary pathogens such as Fusarium species. These pathogen complexes result in a severe yield loss seen by growers each year."

"For decades, the resistance gene Mi-1 has retained its ability to detect and inhibit RKNs in tomatoes, but the underlying mechanisms by which it recognizes these pathogens remains largely unknown. However, resistance-breaking RKN populations have been increasingly found in both greenhouse and field settings, threatening the effectiveness of the Mi-1 gene and consequently the tomato industry." 

"With this research we aim to improve our understanding of how RKNs evade Mi-1 resistance, increase grower and public awareness about plant parasitic nematodes, and develop management strategies to combat resistance-breaking populations, ultimately supporting California’s tomato growers."

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