Formation of optically pure N‐acyl‐N,N′‐dicyclohexylurea in N,N′‐dicyclohexylcarbodiimide‐mediated peptide synthesis

[1] Nitrogen export from small forested watersheds is known to be affected by N deposition but with high regional variability. We studied 10 headwater catchments in the northeastern United States across a gradient of N deposition (5.4 À 9.4 kg ha À1 yr À1 ) to determine if soil nitrification rates could explain differences in stream water NO 3 À export. Average annual export of two years (October 2002 À export was positively related to nitrification rates (r 2 = 0.34, p = 0.04) and the relative nitrification (r 2 = 0.37, p = 0.04). These relationships were much improved by restricting consideration to the 6 watersheds with a higher number of rate measurements (59-130) taken in transects parallel to the streams (r 2 of 0.84 and 0.70 for the nitrification rate and relative nitrification, respectively). Potential nitrification rates were also a better predictor of NO 3 À export when data were limited to either the 6 sampling points closest to the watershed outlet (r 2 = 0.75) or sampling points <250 m from the watershed outlet (r 2 = 0.68). The basal area of conifer species at the sampling plots was negatively related to NO 3 À export. These spatial relationships found here suggest a strong influence of near-stream and near-watershed-outlet soils on measured stream NO 3 À export.

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One-day rate measurements for estimating net nitrification potential in humid forest soils

Ross

Fredriksen

Jamison

et al. 2006

Forest Ecology and Management

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Austin E. Jamison

A Cross-Site Comparison of Factors Influencing Soil Nitrification Rates in Northeastern USA Forested Watersheds

Spatial patterns of soil nitrification and nitrate export from forested headwaters in the northeastern United States

One-day rate measurements for estimating net nitrification potential in humid forest soils

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