PERFORMANCE OF COLORADO POTATO BEETLE LARVAE (LEPTINOTARSA DECEMLINEATA (SAY) REARED ON SYNTHETIC DIETS SUPPLEMENTED WITH SOLANUM GLYCOALKALOIDS

Authors: KOWALSKI, STANLEY - FORMERLY OF VEGETABLE LAB; Domek, John; Deahl, Kenneth; Sanford, Lind

Submitted to: American Journal of Potato Research
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 8/11/1999
Publication Date: N/A
Citation: N/A

Interpretive Summary: The Colorado potato beetle is a major insect pest of potatoes
in nearly all production areas of the U.S. Controlling this
pest with insecticides is expensive and can be environmentally
damaging. Development of resistant potato varieties would help
alleviate these problems. Chemicals called leptine
glycoalkaloids are found in the leaves of the wild potato
species S. chacoense. From whole plant studies the leptines
have been shown to deter feeding by the beetle. However, other
glycoalkaloid compounds are also present and may have
affected the results. Experiments were performed that tested
the leptine glycoalkaloids for their effects on beetle feeding
when added to an artificial diet that contained no plant
constituent compounds. Leptine adversely affected beetle
feeding with the effect increasing as the leptine
concentration in the diet was increased. The results indicate
that leptine glycoalkaloids alone do deter beetle feeding and
that they can be used in the development of resistant potato
varieties. Potato producers will benefit from using such
varieties in reduced production costs, and consumers will
benefit from lower food costs and lower environmental impacts
of insecticides.

Technical Abstract: Glycoalkaloids (GAs) are a class of secondary compounds,
ubiquitously distributed throughout the Solanaceae. Numerous
studies have shown that certain GAs, e.g., a-tomatine,
solanocardenine, and leptine, have a negative impact on
performance of the Colorado potato beetle (CPB). The presence of
other secondary compounds, as well as the nutritional status of
the plants used, are additional variables in such experiments.
By rearing CPB, from egg to prepupal stage, on a synthetic diet
supplemented with the GAs a-tomatine, a-chaconine, a-solanine,
leptine I and the steroidal aglycone solanidine, we have been
able to further establish the effects of these compounds on the
CPB. Leptine I displayed a dose-dependent negative activity
against the CPB when assayed at 0.31, 0.62 and 1.23 mM
concentrations; however, by the fourth stadium no effect was
found. When CPB were fed a higher concentration of leptine I
(2.4 mM), there was a sustained effect in all stadia. At 2.4 mM,
leptine I displayed a greater negative impact on CPB growth and
development than did a-tomatine. The steroidal aglycone
solanidine (2.4 mM) had a significant negative impact on CPB
performance. Results are discussed in the context of host plant
resistance and insect-plant interactions.