Aluminum (Al) toxicity is a growth-limiting factor in acid soils for m
any turfgrasses. The genetic diversity among turfgrass cultivars for A
l tolerance is not well known. One hundred-fifty Kentucky bluegrass (P
ea pratensis L.) genotypes (cultivars, selections, and breeding lines)
belonging to seven ecotypes were selected to screen for Al tolerance
under greenhouse conditions using solution culture, sand culture, and
an acid Tatum subsoil (Clayey, mixed, thermic, typic, Hapludult). This
soil had 69% exchangeable Al and a pH of 4.4. An Al concentration of
320 mu M and a pH of 4.0 in a modified 1/4 strength Hoagland nutrient
solution was used in solution screening and sand screening. The grasse
s were seeded and grown four to five weeks before harvesting. Differen
ces were identified among cultivars and the seven ecotypes by measurin
g relative growth. 'Battan', 'Viva', and 'Nassau' were the most Al-tol
erant cultivars based on the rank average of the three screening metho
ds. Among the seven ecotypes, BVMG, which refers to cultivars such as
'Baron', 'Victa', 'Merit', and 'Gnome', were most Al tolerant while Mi
dwest ecotypes, which are frequently referred to as common Kentucky bl
uegrasses, consistently exhibited the least Al tolerance. The results
indicate that the Kentucky bluegrass cultivars vary genetically in Al
tolerance and that there is potential to improve such tolerance with b
reeding and to refine cultivar-specific management recommendations reg
arding soil pH.