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Ecosystems

, Volume 6, Issue 2, pp 0154–0167 | Cite as

Hillslope Nutrient Dynamics Following Upland Riparian Vegetation Disturbance

  • J. Alan Yeakley
  • David C. Coleman
  • Bruce L. Haines
  • Brian D. Kloeppel
  • Judy L. Meyer
  • Wayne T. Swank
  • Barry W. Argo
  • James M. Deal
  • Sharon F. Taylor

Abstract

We investigated the effects of removing near-stream Rhododendron and of the natural blowdown of canopy trees on nutrient export to streams in the southern Appalachians. Transects were instrumented on adjacent hillslopes in a first-order watershed at the Coweeta Hydrologic Laboratory (35°03′N, 83°25′W). Dissolved organic carbon (DOC), K+, Na+, Ca2+, Mg2+, NO3-N, NH4+-N, PO43−-P, and SO42− were measured for 2 years prior to disturbance. In August 1995, riparian Rhododendron on one hillslope was cut, removing 30% of total woody biomass. In October 1995, Hurricane Opal uprooted nine canopy trees on the other hillslope, downing 81% of the total woody biomass. Over the 3 years following the disturbance, soilwater concentrations of NO3-N tripled on the cut hillslope. There were also small changes in soilwater DOC, SO42−, Ca2+, and Mg2+. However, no significant changes occurred in groundwater nutrient concentrations following Rhododendron removal. In contrast, soilwater NO3-N on the storm-affected hillslope showed persistent 500-fold increases, groundwater NO3-N increased four fold, and streamwater NO3-N doubled. Significant changes also occurred in soilwater pH, DOC, SO42−, Ca2+, and Mg2+. There were no significant changes in microbial immobilization of soil nutrients or water outflow on the storm-affected hillslope. Our results suggest that Rhododendron thickets play a relatively minor role in controlling nutrient export to headwater streams. They further suggest that nutrient uptake by canopy trees is a key control on NO3-N export in upland riparian zones, and that disruption of the root–soil connection in canopy trees via uprooting promotes significant nutrient loss to streams.

Key words: biogeochemistry; dissolved organic carbon; hillslope hydrology; nutrient uptake; soilwater chemistry; southern Appalachian mountains; streamwater quality; vegetation removal; watershed management; windthrow. 

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Copyright information

© Springer-Verlag New York Inc. 2003

Authors and Affiliations

  • J. Alan Yeakley
    • 1
  • David C. Coleman
    • 2
  • Bruce L. Haines
    • 3
  • Brian D. Kloeppel
    • 2
  • Judy L. Meyer
    • 2
  • Wayne T. Swank
    • 4
  • Barry W. Argo
    • 2
  • James M. Deal
    • 2
  • Sharon F. Taylor
    • 2
  1. 1.Environmental Sciences and Resources, Portland State University, Portland, Oregon 97207-0751, USAUS
  2. 2.Institute of Ecology, University of Georgia, Athens, Georgia 30602, USAUS
  3. 3.Department of Plant Biology, University of Georgia, Athens, Georgia 30602 USAUS
  4. 4.Coweeta Hydrologic Laboratory, USDA–Forest Service, Otto, North Carolina 28763, USAUS

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