The development of host plant resistant cereals has been used to limit the
damage by greenbugs, Schizaphis graminum Rondani. The success of this strat
egy has been challenged by the occurrence of resistance-breaking biotypes.
The dominant theory suggests that biotype development in this aphid may be
driven by the planting of resistant cultivars of cereal grains. However, th
ere are only a few reports examining the interaction of greenbug with nativ
e grasses despite the potentially important role they may have in driving t
he development, and in the harboring of as yet unknown biotypes of greenbug
s. Therefore, we investigated the host suitability of eight species of rang
e grasses to determine if any of them may have played a role in the develop
ment of greenbug biotypes. These species of grasses are grown on rangeland,
pasture, roadsides, and some of them are used in reclamation projects in t
he Plains states. All entries supported populations of greenbug biotypes an
d sustained plant damage after a 7 d confinement period. Although wheat, Tr
iticum aestivum L., supported higher greenbug numbers compared with the gra
sses for most biotypes, some of the grasses suffered equal or more plant da
mage than wheat. One of the most significant differences among the biotypes
occurred with Canada bluegrass, Poa compressa L. Greenbug biotype F adults
cultured on Canada bluegrass produced significantly more nymphs than the o
ther biotypes and inflicted a significantly higher damage rating. This dama
ge, which was ultimately lethal, was also observed in all of the species of
wheatgrass and mountain brome when challenged with any greenbug biotype. T
hese results suggest that the development of greenbug biotype F is driven b
y native grasses. While this study did not reveal other grass species that
were diagnostic for the other biotypes, these results suggest that a more d
etailed survey of other cool and warm season grass species would reveal sim
ilar results.