Add to ORKGIncreasing rates of atmospheric deposition of nitrogen (N) present a novel threat to the biodiversity of terrestrial ecosystems. Many forests are particularly susceptible to excess N given their proximity to sources of anthropogenic N emissions. This study summarizes results of a 25-yr treatment of an entire central Appalachian hardwood forest watershed via aerial applications of N with a focus on effects of added N on the cover, species richness, and composition of the herbaceous layer. Research was carried out on two watersheds of the Fernow Experimental Forest (FEF), West Virginia. The long-term reference watershed at FEF (WS4) was used as a reference; WS3 was experimentally treated, receiving three aerial applications of N per year as (...
Little is known about the forest herbaceous layer’s contributions to nitrogen (N) cycling under vary...
This thesis contributes to on-going research at Marshall University on effects of excess nitrogen (N...
Many forested systems of the eastern US are becoming significantly nitrogen (N) saturated due to chr...
Increasing rates of atmospheric deposition of nitrogen (N) present a novel threat to the biodiversit...
Increasing rates of atmospheric deposition of nitrogen (N) present a novel threat to the biodiversit...
Additions of nitrogen (N) have been shown to alter species diversity of plant communities, with most...
The effects of nitrogen (N) deposition have been studied in many ecosystems, and one general pattern...
Research Highlights: Excess N from atmospheric deposition has been shown to decrease plant biodivers...
Research Highlights: Excess N from atmospheric deposition has been shown to decrease plant biodivers...
1 This review brings into focus what is known about the response of the herbaceous layer of forest e...
Although the herb layer represents less than 1% of the biomass of temperate forests, this layer may ...
Excess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atmospheric...
AbstractExcess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atm...
Research Highlights: Herb-layer community composition, abundance, species richness, and Shannon–Wien...
Little is known about the forest herbaceous layer’s contributions to nitrogen (N) cycling under vary...
This thesis contributes to on-going research at Marshall University on effects of excess nitrogen (N...
Many forested systems of the eastern US are becoming significantly nitrogen (N) saturated due to chr...
Increasing rates of atmospheric deposition of nitrogen (N) present a novel threat to the biodiversit...
Increasing rates of atmospheric deposition of nitrogen (N) present a novel threat to the biodiversit...
Additions of nitrogen (N) have been shown to alter species diversity of plant communities, with most...
The effects of nitrogen (N) deposition have been studied in many ecosystems, and one general pattern...
Research Highlights: Excess N from atmospheric deposition has been shown to decrease plant biodivers...
Research Highlights: Excess N from atmospheric deposition has been shown to decrease plant biodivers...
1 This review brings into focus what is known about the response of the herbaceous layer of forest e...
Although the herb layer represents less than 1% of the biomass of temperate forests, this layer may ...
Excess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atmospheric...
AbstractExcess nitrogen (N) in terrestrial ecosystems can arise from anthropogenically-increased atm...
Research Highlights: Herb-layer community composition, abundance, species richness, and Shannon–Wien...
Little is known about the forest herbaceous layer’s contributions to nitrogen (N) cycling under vary...
This thesis contributes to on-going research at Marshall University on effects of excess nitrogen (N...
Many forested systems of the eastern US are becoming significantly nitrogen (N) saturated due to chr...