Interrelationships of Nitrate Uptake, Nitrate Reductase, and Nitrogen Use Efficiency in Selected Kentucky Bluegrass Cultivars

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Interrelationships of Nitrate Uptake, Nitrate Reductase, and Nitrogen Use Efficiency in Selected Kentucky Bluegrass Cultivars

Zhongchun Jiang and Richard J. Hull^*

Dep. of Plant Sciences, Univ. Rhode Island, Kingston, RI 02881

^* Corresponding author (rjhull{at}uriacc.uri.edu).

The efficiency of nitrate use by turfgrasses is likely relatedto its efficiency of absorption by roots and its rate of metabolismin roots and shoots. This study was conducted to quantify therelationship between nitrate uptake rate and nitrate reductaseactivity with N use efficiency in a cool-season turfgrass. Sixcultivars of Kentucky bluegrass (Poa pratensis L.), which differmarkedly in field performance, were used to measure intraspecificvariation in nitrate uptake, in vivo nitrate reductase activityof roots and leaves, and N use efficiency expressed as clippingmass per unit N in clippings. Companion field studies comparedN use efficiency and metabolism among 14 Kentucky bluegrasscultivars established on an Enfield silt loam (Coarse loamyover sandy skeletal, mixed, mesic, Typic Dystrochrepts). Nitrateuptake rate was determined by an in situ nitrate depletion method.Nitrate reductase activity was assayed by an optimized in vivomethod. Significant differences among cultivars were observedfor nitrate absorption, nitrate reductase activity in rootsand leaves, and N use efficiency. Ambient nitrate concentrationsinfluenced these parameters and their intraspecific differences.Nitrate uptake and reduction were saturable at external nitrateconcentrations in excess of 1 mM. Regression analyses demonstratedthat nitrate reductase activity in roots and leaves was stronglyinfluenced by nitrate uptake rate. Nitrogen use efficiency wasnegatively related to ambient nitrate levels, nitrate uptakerate and nitrate reductase activity, with nitrate reductaseactivity in leaves having the strongest negative effect on useefficiency. These results suggest that the efficiency of N useby Kentucky bluegrass may be increased by genetically alteringnitrate reductase activity and its partitioning between rootsand shoots.

Journal Paper no. 3576 of the Rhode Island Agric. Exp. Stn.,Kingston, RI 02881.

Received for publication January 8, 1998.

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