Impacts of Hemlock Loss on Nitrogen Retention Vary with Soil Nitrogen Availability in the Southern Appalachian Mountains

Corinne E. Block, Jennifer D. Knoepp, Katherine J. Elliott, Jennifer M. Fraterrigo

Research output: Contribution to journalArticlepeer-review


The impacts of exotic insects and pathogens on forest ecosystems are increasingly recognized, yet the factors influencing the magnitude of effects remain poorly understood. Eastern hemlock (Tsuga canadensis) exerts strong control on nitrogen (N) dynamics, and its loss due to infestation by the hemlock woolly adelgid (Adelges tsugae) is expected to decrease N retention in impacted stands. We evaluated the potential for site variation in N availability to influence the magnitude of effects of hemlock decline on N dynamics in mixed hardwood stands. We measured N pools and fluxes at three elevations (low, mid, high) subjected to increasing atmospheric N deposition where hemlock was declining or absent (as reference), in western North Carolina. Nitrogen pools and fluxes varied substantially with elevation and increasing N availability. Total forest floor and mineral soil N increased (P < 0. 0001, P = 0. 0017, resp.) and forest floor and soil carbon (C) to N ratio decreased with elevation (P < 0. 0001, P = 0. 0123, resp.), suggesting that these high elevation pools are accumulating available N. Contrary to expectations, subsurface leaching of inorganic N was minimal overall (<1 kg ha -1 9 months -1), and was not higher in stands with hemlock mortality. Mean subsurface flux was 0. 16 ± 0. 04 (SE) (kg N ha -1 100 days -1) in reference and 0. 17 ± 0. 05 (kg N ha -1 100 days -1) in declining hemlock stands. Moreover, although subsurface N flux increased with N availability in reference stands, there was no relationship between N availability and flux in stands experiencing hemlock decline. Higher foliar N and observed increases in the growth of hardwood species in high elevation stands suggest that hemlock decline has stimulated N uptake and growth by healthy vegetation within this mixed forest, and may contribute to decoupling the relationship between N deposition and ecosystem N flux.

Original languageEnglish (US)
Pages (from-to)1108-1120
Number of pages13
Issue number7
StatePublished - Nov 2012


  • atmospheric nitrogen deposition
  • biotic sinks
  • exotic species impacts
  • hemlock woolly adelgid
  • nitrogen flux
  • pest outbreaks

ASJC Scopus subject areas

  • Ecology, Evolution, Behavior and Systematics
  • Environmental Chemistry
  • Ecology


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