If you have no idea what a nematode is, then you are not alone. Nematodes are thread-like roundworms that are found all over the world, even in the Arctic. Most nematodes are microscopic, so many people aren’t aware that we are surrounded by them!
E.O. Wilson, a famous nematologist, once said “...if all solid materials except nematode worms were to be eliminated, you could still see the ghostly outline of most of it in nematode worms.”
Don’t worry though, the vast majority of nematodes don’t harm humans. In the AgBiome nematology lab, our scientists are concerned with protecting crops from plant-parasitic nematodes. These small worms cause billions of dollars in yield losses annually. Damage can be extensive because all plant-parasitic nematodes have a hollow, straw-like probe called a stylet that’s used to take nutrients from plant cells.
Currently, we are working on control of root knot nematode (RKN) and the soybean cyst nematode (SCN). RKN cause galls, or knots, in infected plants. This can lead to yellowing of plant tissue, decreased yields, and premature plant death. RKN has a wide host range with the ability to parasitize over 5,000 plant species. A lemon-shaped female soybean cyst nematode, surrounded by released eggs.
Nematologist, Tim Ave-Lallemant, checks plant roots for RKN damage.
SCN is more specific in what plants it feeds on, with soybean being the most important crop economically. Once a field is infested with SCN, it can be near impossible to manage with crop rotation alone because eggs can live in the soil for up to 10 years.
Juvenile nematode hatching from its egg. Galling of plant roots infected with RKN. Egg masses clinging to roots have been dyed red.
Nematologists Tim Ave-Lallemant, Jared Jensen, and Christy Wiggins start each workweek with a meeting to discuss what experiments they will be running and how many nematodes they need for each test. Daily tasks include, extracting RKN eggs from infested tomato roots, hatching juvenile worms from eggs, treating plants with biological control candidates, and inoculating plants with the hatched RKN. Eventually they determine if the tested bacterial strains have any effect on inhibiting the RKN infection.
The nematology group also researches SCN control traits to incorporate into new soybean varieties with the goal of developing SCN resistant plants. It can take over 4 months to make a single transformed plant with a gene of interest, so the newest nematology team member, Jared, is trying new ways to pre-select genes that can be used to control SCN.
Jared Jenson with his two dogs.