We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem growth in three important tree species in a mixed-deciduous forest. Stem diameter growth, foliar N concentrations, nitrogen–phosphorus (N/P) ratios, and nutrient resorption were determined for Acer rubrum L. (ACRU), Liriodendron tulipifera L. (LITU), and Prunus serotina Ehrh. (PRSE) on two 30-year-old watersheds at the Fernow Experimental Forest, West Virginia, USA: WS3, fertilized annually with 35 kg ammonium sulfate·ha-1 since 1989, and WS7, an untreated control watershed. In an earlier (1992) study, foliar N concentrations of all three species averaged 11% higher in WS3 than in WS7. By 2000, that was no longer the case for any species; ind...
Excess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atmospheric...
Many factors govern the flow of deposited nitrogen (N) through forest ecosystems and into stream wat...
Excess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atmospheric...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
Many forested systems of the eastern US are becoming significantly nitrogen (N) saturated due to chr...
Understanding how trees respond to nutrient availability and allocate nutrients is important in addr...
Changes in the concentration of soil nitrogen (N) or its components may directly affect ecosystem fu...
Effects of chronic nitrogen (N) additions on foliar chemistry, gas exchange and forest growth of tre...
Nitrogen (N) deposition and changing climate patterns in the northeastern USA can influence forest p...
Nitrogen (N) deposition and changing climate patterns in the northeastern USA can influence forest p...
Excess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atmospheric...
Many factors govern the flow of deposited nitrogen (N) through forest ecosystems and into stream wat...
Excess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atmospheric...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
We studied the effects of excessive nitrogen (N) fertilization on foliar nutrient dynamics and stem ...
Many forested systems of the eastern US are becoming significantly nitrogen (N) saturated due to chr...
Understanding how trees respond to nutrient availability and allocate nutrients is important in addr...
Changes in the concentration of soil nitrogen (N) or its components may directly affect ecosystem fu...
Effects of chronic nitrogen (N) additions on foliar chemistry, gas exchange and forest growth of tre...
Nitrogen (N) deposition and changing climate patterns in the northeastern USA can influence forest p...
Nitrogen (N) deposition and changing climate patterns in the northeastern USA can influence forest p...
Excess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atmospheric...
Many factors govern the flow of deposited nitrogen (N) through forest ecosystems and into stream wat...
Excess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atmospheric...