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    Author(s): Frank S. Gilliam; Nicole Turrill Welch; Anne Hockenberry Phillips; Jake H. Billmyer; William T. Peterjohn; Zachariah K. Fowler; Christopher A. Walter; Mark B. Burnham; Jeffrey D. May; Mary Beth Adams; D. P. C. Peters
    Date: 2016
    Source: Ecosphere. 7(4): e01250. 16 p.
    Publication Series: Scientific Journal (JRNL)
    Station: Northern Research Station
    PDF: Download Publication  (528.0 KB)

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    Increasing 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 (NH4)2SO4 totaling 35 kg N ha−1 yr−1, beginning in 1989. Cover of the herbaceous layer (vascular plants ≤1 m in height) was estimated visually in five circular 1-m2 subplots within each of seven circular 400-m2 sample plots spanning all aspects and elevations of each watershed. Sampling was carried out in early July of each of the following years: 1991, 1992, 1994, 2003, and 2009—2014, yielding 10 yr of data collected over a 23-yr period. It was anticipated that the N treatment on WS3 would decrease species richness and alter herb layer composition by enhancing cover of a few nitrophilic species at the expense of numerous N-efficient species. Following a period of minimal response from 1991 to 1994, cover of the herb layer increased substantially on N-treated WS3, and remained high thereafter. There was also a coincidental decrease in herb layer diversity during this period, along with a sharp divergence in community composition between WS4 and WS3. Most changes appear to have arisen from unprecedented, N-mediated increases of Rubus spp., which are normally associated with the high-light environment of openings, rather than beneath intact forest canopies. These findings support the prediction that N-mediated changes in the herbaceous layer of impacted forests are driven primarily by increases in nitrophilic species.

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    Gilliam, Frank S.; Welch, Nicole Turrill; Phillips, Anne Hockenberry; Billmyer, Jake H.; Peterjohn, William T.; Fowler, Zachariah K.; Walter, Christopher A.; Burnham, Mark B.; May, Jeffrey D.; Adams, Mary Beth; Peters, D.P.C. 2016. Twenty-five-year response of the herbaceous layer of a temperate hardwood forest to elevated nitrogen deposition. Ecosphere. 7(4): e01250. 16 p.


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    eastern deciduous forest, forest ecosystems, forest strata, herbaceous layer, nitrogen saturation

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