Test Your Fields for Soybean Cyst Nematode Right After Harvest!

Nov 01, 2023

By Adriana Murillo-Williams and Paul D. Esker et.al

If you are a soybean grower, consider taking soil samples after harvest and have them tested for soybean cyst nematode (SCN, Heterodera glycines). Take advantage of the free SCN testing offered to farmers in PA by the Penn State Extension Agronomy Team and with support from the Pennsylvania Soybean Board.

Why do you have to test your fields?

Potential yield losses associated with SCN can reach 50%
The nematode can go unnoticed for many years while nematode populations continue to increase.
SCN completes its life cycle on soybean roots and the roots of over 100 hosts.
The life cycle of SCN can be completed in about 25 days and ends, meaning that many cycles can occur during the growing season. The life cycle ends with the production of cysts. A cyst is a dead SCN-female-body that contains 200-300 eggs. Cysts can remain in the soil for many years, even in the absence of a host.
Long-distance dispersal of SCN occurs through the movement of soil and infected roots carrying cysts and eggs by running water, ag implements, tractor tires, etc.
Currently, SCN can reproduce in most soybean varieties with purported resistance to SCN.

Where is SCN?

In Pennsylvania, SCN has been found in the counties with the largest area dedicated to soybean production (Lancaster and York) and seven additional counties.

How do you test the field for SCN?

Soil samples for SCN can be taken anytime during the growing season, however, fall sampling after soybean harvest is the most convenient time. Consider pulling additional samples at the same time you are doing so for nutrient testing to make it easy for yourself.

SCN Sampling Video

Samples for nematode testing can be obtained by collecting soil cores at a depth of 6-8 inches in a zig-zag pattern. We recommend collecting at least 20 cores for areas of 20 acres or smaller. Samples can also target areas of high risk of introduction, like field entryways, areas prone to flooding, along fence lines, low-yielding areas, near buildings where equipment is stored, and high pH areas. In a bucket, break, mix, and homogenize the soil cores and place at least two pints of soil in a sealable bag. Keep the samples away from heat and direct sunlight and put them in a refrigerator (not the freezer) until it is submitted to the lab. Before submission, ensure the samples are labeled with your name, phone number, email, address, field address or GPS coordinates, current crop, previous crop, and acreage. More details about sampling procedures can be found on The SCN Coalition website.

Source : psu.edu

Video: Independent Seed, National Impact | On The Brink: Episode 9

A survey of 200 independent seed businesses reveals what Canada's seed sector actually contributes — and what it stands to lose.

On the Brink, Justin Funk, a third-generation agri-marketer, shares the findings of a national survey conducted in early 2026. The numbers reframe the conversation: independent seed companies in Canada represent upwards of $1.7 billion in dedicated seed infrastructure, approximately 3,000 full-time equivalent jobs in rural communities, and an estimated $20 million in annual community contributions. And roughly 90% of Canada's cereals, pulses, and other small pollinated crops flow through them.

The survey also asked how dependent these businesses are on public plant breeding to survive. The answer was unambiguous. For policymakers evaluating the future of publicly funded breeding programs, Funk argues the economic case for this sector and the case for public plant breeding are the same argument.

On the Brink is a cross-country video series exploring the future of plant breeding in Canada. Each episode features voices from across the industry in an open, ongoing conversation about innovation and long-term investment in Canadian agriculture.