scholarly journals Long-term demographic trends in a fire-suppressed mixed-conifer forest

2016 ◽  
Vol 46 (5) ◽  
pp. 745-752 ◽  
Author(s):  
Carrie R. Levine ◽  
Flora Krivak-Tetley ◽  
Natalie S. van Doorn ◽  
Jolie-Anne S. Ansley ◽  
John J. Battles
Keyword(s):  
Sierra Nevada ◽  
Fire Regime ◽  
Fire Suppression ◽  
Basal Area ◽  
Stand Density ◽  
Community Level ◽  
Homogeneous State ◽  
Conifer Forest ◽  
Mixed Conifer ◽  
Mixed Conifer Forest

In the western United States, forests are experiencing novel environmental conditions related to a changing climate and a suppression of the historical fire regime. Mixed-conifer forests, considered resilient to disturbance due to their heterogeneity in structure and composition, appear to be shifting to a more homogeneous state, but the timescale of these shifts is not well understood. Our objective was to assess the effects of climate and fire suppression on stand dynamics and demographic rates of an old-growth mixed-conifer forest in the Sierra Nevada. We used a Bayesian hierarchical analysis to quantify species and community rates of recruitment, growth, and mortality. Despite a warming climate, we found that stand density, basal area, and carbon have increased over 56 years. Fir recruitment and growth significantly exceeded the community-level median rates, whereas pine recruitment and growth was significantly lower than the community-level median rates. Shifts in species composition from a well-mixed stand to a more dense fir-dominated stand appear to be driven by low growth and recruitment rates of pines relative to firs. In forests such as these with consistent and relatively low mortality rates, we recommend that restoration and management activities be focused on promoting pine recruitment and growth.

Post-fire epicormic branching in Sierra Nevada Abies concolor (white fir)

2006 ◽  
Vol 15 (1) ◽  
pp. 31 ◽  
Author(s):  
Chad T. Hanson ◽  
Malcolm P. North
Keyword(s):  
Sierra Nevada ◽  
Fire Suppression ◽  
Large Diameter ◽  
Abies Concolor ◽  
Conifer Forest ◽  
Mixed Conifer ◽  
Diameter Class ◽  
Mixed Conifer Forest ◽  
White Fir ◽  
Epicormic Branching

In California’s mixed-conifer forest, which historically had a regime of frequent fires, two conifers, Sequoiadendron giganteum and Pseudotsuga menziesii, were previously known to produce epicormic sprouts from branches. We found epicormic branching in a third mixed-conifer species, Abies concolor, 3 and 4 years after a wildfire in the central Sierra Nevada Mountains of California. Sprouting occurred only from the boles. We investigated (1) whether the degree of crown loss and the extent of epicormic branching were independent; and (2) whether epicormic branching differed by tree size. The vertical extent of epicormic foliage increased with increasing severity of crown loss. There was a significantly greater proportion of large diameter-class (>50 cm diameter at breast height [dbh]) trees with epicormic branching than small/medium diameter-class (25–50 cm dbh) trees. These results suggest large diameter Abies concolor may survive high levels of crown loss, aided by crown replacement through epicormic branching, but that reiterative green foliage may not appear for up to 3 years after fire damage. If this response is widespread, it would suggest some ‘dying’ trees logged under current salvage guidelines could survive, and that higher-intensity fire may substantially reduce the density of small post-fire suppression white fir, while retaining many larger overstory trees.

Anthropogenic and natural disturbance and patterns of mortality in a mixed conifer forest in California

1994 ◽  
Vol 24 (6) ◽  
pp. 1149-1159 ◽  
Author(s):  
Melissa Savage
Keyword(s):  
Forest Ecosystems ◽  
Stand Structure ◽  
Fire Suppression ◽  
Stand Density ◽  
Natural Disturbance ◽  
Anthropogenic Influences ◽  
Conifer Forest ◽  
Mixed Conifer ◽  
Mixed Conifer Forest

Anthropogenic and natural disturbances have been implicated in recent mortality episodes in montane forests. While the role of natural disturbance in patterning forest ecosystems has been widely explored in recent decades, the agency of human influence is less well understood. In this paper, stand structure analysis is used to characterize patterns of mortality in a montane mixed conifer forest in southern California subject to multiple influences, both anthropogenic and natural, including fire suppression, air pollution, drought, competition, and insect infestation. While it is difficult to separate the contribution of any one of these factors to tree death, because there have been cumulative and synchronous disturbances, successional trends can be identified. Anthropogenic influences appear to abet the effects of natural disturbance in enhancing the shift from early successional pines to species that tolerate stresses such as drought, fire suppression, or competition that result from increased stand density, or a combination of such stresses.

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