Photo 1: Adult annual bluegrass weevil.
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The annual bluegrass weevil (ABW), Listronotus maculicollis, is a serious and difficult-to-control pest of close-cut annual bluegrass (Poa annua) on greens, tees and fairways in the Northeast (Vittum et al. 1999). Over the last 20 years, the pest's area of impact has
expanded from mostly around the New York metropolitan area to throughout the Northeast, west into Ontario, north into Quebec
and south into Maryland (Vittum 2005, 2006, McGraw and Koppenhöfer 2007). Management practices, particularly lower mowing
heights and reduced fertility, might be creating a better habitat for ABW and reduce the turf's tolerance for ABW feeding.
ABW larvae can cause serious damage to annual bluegrass. ABW clearly prefers annual bluegrass over bentgrass, and the prior
also appears to be more susceptible to ABW (Rothwell 2003). Young larvae tunnel the stems, causing the central leaf blades
to yellow and die. The older larvae feed externally on the crowns, sometimes severing the stems from the roots. The most severe
damage usually is caused by the first generation older larvae around late May/early June in the New York metropolitan area.
Damage during this time starts from the fairway edges or the collars, where it also tends to be the most severe. Second-generation
larvae in early- to mid-July typically occur in lower densities, but damage can still occur because of the greater environmental
stress on the host plants during this time. There often is a third-generation in the metropolitan area, but other stresses
on the turf mask the weevil damage on annual bluegrass.
Photo 2: Annual bluegrass weevil larvæ can cause serious damage along the edge of fairways.
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Overwintering takes place in the adult stage in the rough or in the litter under trees (Diaz and Peck 2007). In April the
adults migrate into annual bluegrass areas and, after a brief feeding period, the females start laying eggs under the annual
bluegrass leaf sheaths. Development of the first generation in spring from eggs to adult takes about six weeks. The first-generation
adults become active around mid to late June. Their offspring emerges as the second-generation adults in late July to August.
Adults from the third generation migrate back to their overwintering sites from October into November.
Efficacy of synthetics We have summarized data from insecticide-efficacy tests published between 1993 and 2005 conducted by university researchers
in the Northeast (McGraw and Koppenhöfer 2007). The summary shows that pyrethroids were the most effective insecticides with
no significant difference among the different compounds. The average control rates were 93 percent for bifenthrin (Talstar),
87 percent for cyfluthrin (Tempo), 84 percent for deltamethrin (DeltaGard) and 97 percent for lambda-cyhalothrin (Scimitar).
It is presently recommended to apply pyrethroids against the overwintered adults between full bloom of forsythia and full
bloom of flowering dogwood. However, our summary revealed no difference between pyrethroid applications in late April (89
percent) and early May (93 percent).
Quick Tip
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The organophosphate chlorpyrifos (Dursban) was more effective when applied in early May (83 percent) or late May (83 percent)
than in late April (62 percent). While chlorpyrifos applications are now limited to 1 pound of active ingredient per acre
(lb ai/acre), the data suggest that this rate was as effective as 2 to 4 lbs ai/acre. The organophosphate trichlorfon (Dylox)
was ineffective when applied in late April and early May but provided 79 percent control in late May.
