Study Number: 

4035

Project Title:

Post-burn study of woody plants at Jacobs Branch West burn site, 1991-1992.

Investigator(s):

Barry Clinton  E-Mail | Tel. 828.524.2128 | Biographical Sketch
Affiliated Institution(s): USDA Forest Service
Coweeta Hydrologic Laboratory
Address: Coweeta Hydrologic Laboratory
3160 Coweeta Lab Road
Otto, North Carolina 28763   USA
Study Category: Regional
Project Type: Type 1
Study Period: 1991-1992.
Notes:

 
Funding Source(s):

Man and Biosphere Program, Southern Appalachian Forest Ecosystems Project, US Forest Service
Abstract: Recent declines in the yellow pine component of pine-hardwood stands in the southern Appalachian Mountains has prompted managers to increase the use of fire as a silviculture tool. The fell and burn treatment is designed to remove competing vegetation (hardwoods and mountain laurel [Kalmia latifolia]) to ensure successful establishment of planted eastern white pine (Pinus strobus). Two years after burning, mountain laurel had accumulated more biomass than any other species and accounted for 43% of total biomass in year 1 and 20% in year 2. By year 4, mountain laurel ranked fifth (8.9% of total) in total biomass among hardwood species behind Allegheny serviceberry (Amalanchier arborea, 14.3%), chestnut oak (Quercus prinus, 13.7%), red maple (Acer rubrum, 12.4%), and scarlet oak (Q. coccinea, 9.3%). Across sites, woody species richness ranged from 19-24 in year 1 and 14-22 in year 4. Species richness varied across sites and years, and there were substantial changes in the distribution of biomass among species. The introduction of fire allowed the once dominant pitch pine (P. rigida) to successfully reestablish. On sites, pine accounted for 25% of pretreatment stem density, but <1% and 2% in the first and fourth growing seasons after burning, respectively. However; in year 1, pines had increased in density 20-fold compared to pretreatment levels, and by year 4, had maintained a 17-fold increase compared to pretreatment. The use of fire in forest management has been the subject of considerable criticism. In light of current public concerns over the loss of critical or unique habitats, fire may gain public support for use as a restoration tool.
Location(s), Described: Jacobs Branch West.
Location(s), Download GPS: ArcView Shape Files (shp.):  Decimal Degrees  |  UTM, NAD83, Zone 17
Location(s), Online Map(s): Online Map
Methods/Experimental Design: Plots were 3 meters by 3 meters each.

Site code=2=Jacobs Branch West

Woody Plants Codes:
3 - Acer rubrum L., Red Maple
6 - Amelanchier arborea Michaux f., Serviceberry/Sarvis
10 - Carya glabra (Miller), Sweet Pignut Hickory
14 - Castanea pumila Miller, Allegheny Chinquapin
16 - Cornus Florida L., Flowering Dogwood
17 - Diospyros virginiana L., Persimmon
28 - Nyssa sylvatica Marshall var. sylvatica, Black Tupelo/Blackgum
30 - Oxydendron arboreum (L.) DC., Sourwood
32 - Pinus rigida Miller, Pitch Pine
33 - Pinus strobus L., Eastern White Pine
39 - Quercus coccinea Muenchh., Scarlet Oak
40 - Quercus falcata Michaux, Southern Red Oak
42 - Quercus prinus L., Chestnut Oak
45 - Quercus velutina Lam., Black Oak
48 - Sassafras albidum (Nutt.) Ness, Sassafras
53 - Kalmia latifolia L., Mountain Laurel
67 - Ilex ambigua (Michaux)Torrey var. montana, Mountain Holly (deciduous)
100 - Vitus aestivalis var.argentifolia (Munson) Fernald, Silver-leaf Grape
101 - Vitus labrusca L., Fox Grape
Sampling Frequency: Variable
Data Columns:

year - sampling year
site - coded variable for sampling site
plot - plot number
subplot - subplot number
species - coded variable for woody species name; codes described in Methods/Experimental Design
diameter - diameter of woody plants in centimeters
severgreen - number of evergreen stems of woody species in one meter square plot
aevergreen - area of evergreen stems in centimeters squared in one meter square plot
Missing Data Codes: -9999
Publications:

Elliott, K.J., J.M. Vose, B.D. Clinton. 2002. Growth of eastern white pine (Pinus strobes L.) related to forest floor consumption by prescribed fire in the southern Appalachians. Southern Journal of Applied Forestry. 26(1): 18-25.

Clinton, B.D., J.M. Vose, W.T. Swank. 1996. Shifts in aboveground and forest floor carbon and nitrogen pools after felling and burning in the southern Appalachians. Forest Science 42(4):431-441

Clinton, B.C., J.M. Vose. 2000. Plant succession and community restoration following felling and burning in the southern Appalachian Mountains. Pages 22-29 in W. Keith Moser and Cynthia F. Moser (eds.). Fire and Forest Ecology: innovative silviculture and vegetable management. Tall Timbers Fire Ecology Conference Proceedings, No.21. Tall Timbers Research Station, Talahassee, Florida, USA.

Vose. J.M., B.D. Clinton, W.T. Swank. 1993. Fire, drought, and forest management influences on pine/hardwood ecosystems in the southern Appalachians. 12th Conference on Fire and Forest Meteorology, Oct. 26-28, Jekyll Island, Georgia, USA.

Vose, J.M., B.D. Clinton, W.T. Swank. 1993. Site preparation burning to restore pine-hardwood stands: aboveground biomass, forest floor mass, nitrogen carbon pools. Canadian Journal of Forest Research 23:2255-2262.
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