Aspen
Aspen

Author:

Publisher:

Published: 1985

Total Pages: 296

ISBN-13:

DOWNLOAD EBOOK

Information about the biology, ecology, and management of quaking aspen on the mountains and plateaus of the interior western United States, and to a lesser extent, Canada, is summarized and discussed. The biology of aspen as a tree species, community relationships in the aspen ecosystem, environments, and factors affecting aspen forests are reviewed. The resources available within and from the aspen forest type, and their past and potential uses are examined. Silvicultural methods and other approaches to managing aspen for various resources and uses are presented.

Regeneration of Aspen by Suckering on Burned Sites in Western Wyoming
Regeneration of Aspen by Suckering on Burned Sites in Western Wyoming

Author: Dale L. Bartos

Publisher:

Published: 1991

Total Pages: 16

ISBN-13:

DOWNLOAD EBOOK

Numbers of suckers produced following burning of aspen stands varied greatly between areas but followed similar trends over a 6-year period: a relative abundance the first year, followed by an abrupt decline by the third year and a gradual decline thereafter. First-year sucker numbers that ranged from 34,000 to 147,000/ha suffered mortality between 54 and 93 percent by the sixth year. Only 40 percent of the variability between sites in number of suckers the second postburn year, and only 44 percent of the variability the sixth year, could be accounted for by season of burn and preburn site and stand charaderistics. Of the variability between sites in the sixth-year sucker numbers, 96 percent is accounted for by season of burn and number of year-old suckers present the second year following burning.

Factors Influencing the Successful Regeneration of Aspen in Southern Utah, USA
Factors Influencing the Successful Regeneration of Aspen in Southern Utah, USA

Author: Justin M. Britton

Publisher:

Published: 2014

Total Pages:

ISBN-13:

DOWNLOAD EBOOK

There has been recent concern regarding the regeneration and recruitment of aspen (Populus tremuloides) in the western United States. Forest management techniques have been employed in order to promote the regeneration and recruitment of aspen. We quantified aspen regeneration treatments in southern Utah, USA to better understand the factors driving aspen recruitment. Driving factors were identified by addressing two major research themes: (1) identify the primary ecological controls on aspen regeneration success; (2) assess the relative importance and influence of these controls on successful regeneration. Our definition of successful aspen regeneration requires the satisfaction of two criteria relating to height and density, respectively: (1) regeneration that has attained heights above the ungulate browsing threshold (e.g. >2m); and (2) regeneration that is occurring at a density that represents desired conditions for future stocking (e.g. 9́Æ10,000 stems ha1́»℗£). The primary ecological controls on regeneration success were identified using nonmetric multidimensional scaling, and Random Forests analysis was used to assess the relative importance and influence of regeneration controls. These analyses identified three primary factors that are responsible for regeneration success. These factors were (1) contemporary herbivory pressure, (2) site preparation technique, and (3) advance reproduction. Herbivory is the leading predictor of regeneration success, and has integral impacts on other primary regeneration drivers. We suggest considerations that can be made regarding regeneration drivers in order to enhance the effectiveness of aspen management in the future.