Changes in stay-green and nitrogen use efficiency traits in historical set of winter barley cultivars

•The genetic gain in grain yield was higher under high nitrogen fertilization than under low nitrogen fertilization rate.•The selection for increased yield in the Pannonian Plain has indirectly increased canopy greenness and stay-green.•NDVI values were more related with nitrogen uptake efficiency.•Timing of certain senescence stages was in close relationship with nitrogen utilization efficiency.•Further changes in senescence pattern must be followed with improvement of nitrogen uptake and grain remobilization. The objective of this study was to compare grain yield, nitrogen use efficiency (NUE) and stay-green traits in winter barley under low and high nitrogen (N) fertilization treatments. Field trials were conducted during two growing seasons in a southern Pannonian location (Novi Sad, Serbia) with fifteen six-rowed barley cultivars released between 1972 and 2013. The rate of genetic gain in grain yield was higher under high N level, indicating that modern barley cultivars use the applied N fertilizer more efficiently than older cultivars. The improvement in NUE and N uptake efficiency were positively related with year of cultivar release under both fertilization levels, while association between N utilization efficiency and year of cultivar release was significant at high N fertilization. Modern cultivars had higher normalized difference vegetation index (NDVI) values at the anthesis, start and mid senescence. Moreover, time to mid senescence was prolonged in modern cultivars, indicating slower N remobilization during early grain filling period. Values of NDVI at different senescence stages were more related to N uptake efficiency, while timing of senescence stages were in association with N utilization. Close association between NDVI values at different senescence stages and N uptake indicate that application of NDVI sensors could be used for identification of cultivars with improved N productivity.