Efficient utilization of fertilizer-nitrogen (N) by turfgrasses is probably
related to N uptake efficiency of roots and metabolic efficiency of absorb
ed N in roots and shoots. This study evaluated Kentucky bluegrass (Ponprate
nsis L.) cultivars for potential differences in nitrate uptake rate (NUR),
temporal variation in NUR, and the relationship between NUR and N use effic
iency (NUE), defined as grams dry matter per gram N. Six cultivars were pro
pagated from tillers of seeded plants, grown in silica sand, mowed weekly,
and watered daily with a complete nutrient solution containing 1.0 mM nitra
te. A nutrient depletion method from an initial nitrate concentration of 0.
5 mM was used to determine NUR of 5-month-old plants. NUR (mu mol.h(-1) per
plant) of the six cultivars ranked as follows: 'Blacksburg' > 'Conni' > 'D
awn' > 'Eclipse' = 'Barzan' > 'Gnome', When NUR was based on root weight,'C
onni' ranked highest; when NUR was based on root length, surface, or volume
,'Eclipse' ranked highest. Averaged across cultivars, NUR on the second day
was greater than NUR for the first day of nitrate exposure. Temporal varia
tion was greatest in 'Blacksburg', while none was noted in 'Conni' or 'Ecli
pse'. Cultivar differences in NUE were significant in fibrous roots, rhizom
es, and leaf sheaths, but not in leaf blades and thatch, Total nitrate upta
ke was positively related to total N recovered and total plant dry matter,
but NUR based on root weight was negatively correlated with NUE of the whol
e plant.