DOI:
10.6073/pasta/ae6bcef08bc5e073d2d5111cb990fc53
Data set ID:
351
Salt marsh ecosystems serve as critical nutrient filters by removing reactive nitrogen (N) through denitrification. We examined the influence of long-term fertilization on N transformation and removal in a salt marsh tidal creek ecosystem fringing the Plum Island Sound estuary in northern Massachusetts, USA. Sediment oxygen demand was within the range of other marsh systems (1271.9 to 7855.0 μmol m−2 h−1) and was not significantly different between the fertilized and reference creek.
Publication Date:
Saturday, December 12, 2015
Date Range:
Friday, August 20, 2010 to Saturday, August 13, 2011