EARLY HEARING DETECTION AND INTERVENTION VIRTUAL CONFERENCE
MARCH 2-5, 2021

(Virtually the same conference, without elevators, airplane tickets, or hotel room keys)

<< BACK TO AGENDA

5/22/2018  |   11:45 AM - 12:00 PM   |  STREAM BASAL RESOURCES EXHIBIT SHORT-TERM RESILIENCE FOLLOWING REACH-SCALE REMOVAL OF A DOMINANT RIPARIAN SHRUB   |  320

STREAM BASAL RESOURCES EXHIBIT SHORT-TERM RESILIENCE FOLLOWING REACH-SCALE REMOVAL OF A DOMINANT RIPARIAN SHRUB

Detrital and algal resources in headwater streams are strongly influenced by associated riparian vegetation. Understanding stream ecosystem resilience to alteration in riparian species composition is increasingly important, as dominant riparian species continue to be functionally extirpated by insects and disease globally. In the southern Appalachians, riparian eastern hemlock trees have undergone significant mortality, leading to increased growth of the evergreen shrub, Rhododendron maximum. Rhododendron removal is a potential management strategy to restore hardwood forests since it inhibits tree recruitment and growth. Here we assess the resilience of stream basal food resources in headwater streams to a reach-scale (300m) removal of rhododendron along four streams (2 reference, 2 treatments: cut, cut+burn). Treatments increased benthic sediment by 2-7 fold and reduced canopy cover 33-43% (deciduous leaf-off) . However, algal quantity (chlorophyll a), algal quality (C:N ratio), and benthic leaf litter quantity were unaffected. Higher litter quality was observed in late summer and early fall of both years, but not year-round. Short-term, stream basal resources in these headwater streams appear to be resilient to rhododendron removal at the reach-scale despite large changes in abiotic conditions.

  • Algae
  • Aquatic-terrestrial Linkage
  • Ecosystem

Presentation:
This presentation has not yet been uploaded.

Handouts:
Handout is not Available

Transcripts:
CART transcripts are NOT YET available, but will be posted shortly after the conference


Presenters/Authors

Maura Dudley (), Oglethorpe University, maurapdudley@gmail.com;


ASHA DISCLOSURE:

Financial -

Nonfinancial -

Seth Wenger (), Odum School of Ecology, University of Georgia, swenger@uga.edu;


ASHA DISCLOSURE:

Financial -

Nonfinancial -

C. Rhett Jackson (), Warnell School of Forestry and Natural Resources, University of Georgia, RJACKSON@warnell.uga.edu;


ASHA DISCLOSURE:

Financial -

Nonfinancial -

Katherine Elliott (), USDA Forest Service, Southern Research Station, Center for Forest Watershed Research, Coweeta Hydrologic Laboratory, kelliott@fs.fed.us;


ASHA DISCLOSURE:

Financial -

Nonfinancial -

Chelcy Miniat (), USDA Forest Service, Southern Research Station, Center for Forest Watershed Research, Coweeta Hydrologic Laboratory, cfminiat@fs.fed.us;


ASHA DISCLOSURE:

Financial -

Nonfinancial -

Catherine Pringle (), University of Georgia, cpringle@uga.edu;


ASHA DISCLOSURE:

Financial -

Nonfinancial -