Oxygen-alkali degradation of loblolly pine dioxane lignin: changes in chemical structure as a function of time of oxidation

Crozier, Thomas E.

01 January 1978

No description available.

Pinus taeda

Loblolly pine

Lignins

Degradation

Oxidation

Rate phenomena in the neutral sulfite delignification of loblolly pine (Pinus taeda L.)

Elton, Edward F.

01 January 1962

No description available.

Lignins

Neutral sulfite pulping

Sulphonation

Loblolly pine

The physical properties of slash pine semi-chemical kraft pulp and of its fully chlorited component

Keeney, Frederick Critchfield

01 January 1952

No description available.

Pulps

Physical properties

Slash pine

Semichemical pulping

The effect of hemicelluloses on the mechanical properties of individual pulp fibers.

Spiegelberg, Harry L.

01 January 1966

No description available.

Hemicellulose

Testing

Fibers

Longleaf pine

Pinus palustris

A study of tall oil from green and seasoned slash pine wood

Max, Keith W. (Keith William)

01 January 1943

No description available.

Tall oil

Slash pine

Green wood

Seasoning

Linkages between glucose and mannose in slash pine alpha-cellulose

Anthis, Austin F. (Austin Forrest)

01 January 1956

No description available.

Slash pine

Alpha cellulose

Glucose

Mannose

A study of the coloring matter in pine kraft pulps

Holzer, Walter Frank

06 1900

No description available.

Kraft pulps

Kraft papers

Pine

Tannins

Color

Deriving a Framework for Estimating Individual Tree Measurements with Lidar for Use in the TAMBEETLE Southern Pine Beetle Infestation Growth Model

Stukey, Jared D.

2009 December 1900

The overall goal of this study was to develop a framework for using airborne lidar to derive inputs for the SPB infestation growth model TAMBEETLE. The specific objectives were (1) to estimate individual tree characteristics of XY location, individual bole height (IBH), diameter at breast height (DBH), length of crown (CrHT), and age for use in TAMBEETLE; (2) to estimate individual tree age using lidar-estimated height and site index provided by the United States Department of Agriculture (USDA) Natural Resources Conservation Service (NRCS) Soil Survey Geographic Database (SSURGO); and (3) to compare TAMBEETLE simulation results using field measurements and lidarderived measurements as inputs. Diameter at breast height, individual bole height, and crown length were estimated using lidar with an error for mean measurements at plot level of 0.16cm, 0.19m, and 1.07m, respectively. These errors were within root mean square error (RMSE) for other studies at the study site. Age was estimated using the site index provided by SSURGO and the site index curves created for the study area with an RMSE of 4.8 years for mean plot age. Underestimation of tree height by lidar and error in the site index curve explained 91% of the error in mean plot age. TAMBEETLE was used to compare spot growth between a lidar-derived forest map and a forest map generated by TAMBEETLE, based on sample plot characteristics. The lidar-derived forest performed comparably to the TAMBEETLE generated forest. Using lidar to map forests can provide the large spatial extents of the TAMBEETLE generated forest while maintaining the spatially explicit forest characteristics, which were previously only available through field measurements.

lidar

tree age

TAMBEETLE

southern pine beetle

Surviving the reservation

Dale, Rochelle Lynn,

January 2009

Thesis (M.S.)--Northern Michigan University, 2009. / Bibliography: leaf 79.

Trapped in the forest: The longhorn beetle Tragosoma depsarium L. in south-east Sweden

Nilsson, Alexander

January 2015

The rare and elusive wood-living beetle Tragosoma depsarium, once widespread all over Sweden, is associated with large, sun-exposed pine logs required for breeding. Due to modern forestry and fire suppression, this type of substrate has become so rare in the landscape that the beetles’ existence in Sweden is threatened. Recently, the female sex pheromone of this species was synthesised, providing a new method to monitor beetle populations using pheromone traps. Such a method was used in the current study to relate the presence-absence of T. depsarium with different landscape variables at different scales; 100, 500, 1000 and 2000 meters, respectively. The occurrence of T. depsarium in Östergötland County was associated with the amount of protected areas and clear-cuts at 500 and 1000 meters, respectively. Additionally, the amount of pine forest within 2000 m from the trap showed a weak, positive effect on the number of beetles. In the whole south-east boreo-nemoral zone of Sweden, a positive correlation between beetle occurrence and protected areas were found at 2000 m together with a negative correlation for volume pine wood within 100 m. Also, emergence holes on pine logs around each trap were strongly associated with beetle occurrences. To conclude, using pheromone traps were an easy way of detecting beetles. Although the number of caught T. depsarium varied greatly over time, the sampling period matched the flight period well. For long-term survival of this beetle, the forests must contain breeding substrates and be opened up through prescribed burning, selective cutting and active forestry.

Tragosoma depsarium

scale

pine

pheromone

landscape variables