“The term I would probably use is proactive. In most research programs, certainly in agriculture, we always have to do reactive work. When you have an emergency problem, you’ve got to deal with it,” Reagan said. “But if you know you’re going to have a problem in a few years, why not start making plans on how you’re going to manage and how you’re going to deal with it?”

But to complicate the matter, a similar insect, the sugarcane borer, invades the same areas and crops, yet has unique traits and lifestyle that must be controlled differently from the Mexican rice borer. So the team had to factor both pests while exploring ways for farmers to manage for the least damage to crops.

“The losses can be significant, so that’s why the farmers and the whole scientific community is involved in developing solutions,” Way said, describing how the caterpillar hides inside a stalk where typical chemicals cannot reach and eats the tissue with an appetite that grows as the insect gets bigger.“Once they are inside the stem, they are very difficult to control because they are protected from natural control agents,” he said, “so that is one of the reasons they can be a serious pest.”

But over the years, Way and Reagan said, a “myriad number of solutions” have been proven effective for farmers. Their research, funded in large part by the U.S. Department of Agriculture, has found which varieties of each crop are least susceptible to the borers, and the best time for farmers to plant to avoid the insects’ life cycle.

“The later the planting date in rice, usually the more damage,” Way said. The researchers also discovered the cutting height on the season’s first crop of rice can affect borer populations in the second, or ratoon, crop that year. “Basically, the lower the cutting height, the less damage from the stalk borers on the next crop,” Way said. “And that also reduces populations on an area-wide basis beyond the individual farm.”

Certain chemicals may work at specific times in the insect’s life cycle, which the researchers have determined to help farmers know whether to go to the expense of applying insecticide. Way said research determined the timing as well as the rates for chemicals in both rice and sugarcane. Other methods that have come from the field tests include treatment of the volunteer plants along the field edges to destroy weed hosts. “This research fits the concept of long-term management of an insect,” Reagan said. “If you’ve got an insect that feeds on a whole bunch of different plants -- crops and non-crops -- then you need to take into consideration all the different aspects of the biology. If you can find some vulnerable part on the biology of the insect – maybe on some crop or some weed that is necessary for it to complete its life cycle -- then that might be a great opportunity for management of the insect.

“It’s going to be a continuing effort. We certainly know a lot of things we can do now.  But there are always going to be other types of continuing management needs. Though we’ve conducted a lot of work so far, there still is a lot to do to manage these insects.”