Growing Stock Levels in Even-aged Ponderosa Pine

Growing Stock Levels in Even-aged Ponderosa Pine
Author: Clifford A. Myers
Publisher:
Total Pages: 16
Release: 1967
Genre: Ponderosa pine
ISBN:

Growth of the most widely distributed pine in North America is under joint study by the western Forest and Range Experiment Stations of the U.S. Forest Service. Young, even-aged ponderosa pine (Pinus ponderosa Laws.) stands are being examined over a wide range of tree sizes, stand densities, and site index. The single plan that co-ordinates activities of the four Stations is an example of how the growing stock problem can be handled for a widely distributed species. The wide range in treatments should provide data needed to answer the questions that arise in evaluation and application of multiple use management of ponderosa pine forests.

Management of Ponderosa Pine in Even-aged Stands in the Southwest

Management of Ponderosa Pine in Even-aged Stands in the Southwest
Author: Robert R. Alexander
Publisher:
Total Pages: 20
Release: 1980
Genre: Forest management
ISBN:

Abstract: Potential production of ponderosa pine in the Southwest is simulated for various combinations of stand density, site index, age, and thinningschedule. Such estimates are needed to project future development of stands managed in different ways.

Growth of Planted Ponderosa Pine Thinned to Different Stocking Levels in Northern California

Growth of Planted Ponderosa Pine Thinned to Different Stocking Levels in Northern California
Author: William W. Oliver
Publisher:
Total Pages: 20
Release: 1979
Genre: Forest management
ISBN:

Growth was strongly related to growing stock level (GSL) for 5 years after thinning 20-year-old poles on Site Index50 115 land at the Elliot Ranch Plantation in northern California. Five GSL's- basal areas anticipated when trees average 10 inches d. b. h. or more - ranging from 40 to 160 square feet per acre were tested. Periodic annual increment (PAI) in diameter decreased curvilinearly from 0.51 to 0.21 inch, with increasing GSL's from 40 to 160. But only trees in plots heavily thinned to GSL 40 (and briefly in GSL 70) grew faster in diameter after thinning than these same trees grew before thinning. PAI in basal area and net volume rose steadily with increasing GSL9s, reaching 9.0 square feet and 255 cubic feet per acre, respectively, at GSL 160. Apparently, even light thinning reduced volume production, but thinning still is recommended to shorten time until first commercial entry and to promote stand health.