Poster Number 252
See more from this Division: C05 Turfgrass ScienceSee more from this Session: Turfgrass Fertilization, Cultivation, Topdressing and Thatch Management
Tuesday, November 2, 2010
Long Beach Convention Center, Exhibit Hall BC, Lower Level
Nitrogen fate research was initially conducted at Michigan State University in 1991. The initial research conducted from 1991 through 1993 indicated that there was minimal risk of nitrate-nitrogen leaching from turfgrass. Subsequent years of research on the same lysimeters indicate the risk of nitrogen leaching changes as the turf ages. Since the summer of 1998 percolate samples have been collected from the same monolith lysimeters and analyzed for nitrate-nitrogen. As of 2010, the turfgrass area has now been under continual fertilization practices for 20 years with percolate collection for the last twelve years consecutively. From 1998 through 2003 two nitrogen rates were analyzed: 245 kg N ha-1 and 98 kg N ha-1. Since 1998, NO3-N concentrations in leachate for the low N rate have typically been below 5 mg L-1. The mean NO3-N concentration in leachate for the low N rate for the twelve years of data collection is 3.6 mg L-1. From 2000-2002, for the high N rate, NO3-N concentrations in leachate were often greater than 20 mg L-1. In 2003 the high N rate was reduced to 198 kg N ha-1 but the concentration of NO3-N leaching from the high N rate treatment did not decline from the previous years. In 2004, the concentration of NO3-N leaching from the high N rate treatment declined drastically from previous years. The average concentration of NO3-N in leachate for the high N rate from 2004 through 2009 was 8 mg L-1, which was a significant decline from the average concentrations observed for the high N rate from 2000 through 2003. In 2009 the mean NO3-N concentration in leachate for the high N rate was 3.5 mg L-1. This was the lowest mean NO3-N concentration in leachate for the high N rate since data collection began in 1998. This research indicates that leaching potential from continually fertilized turfgrass sites changes due to the age of turfgrass and nitrogen rate.
See more from this Division: C05 Turfgrass ScienceSee more from this Session: Turfgrass Fertilization, Cultivation, Topdressing and Thatch Management