Louise M. Tritton scite author profile

Dead bole mass and nutrients were measured in a northern hardwood forest watershed at the Hubbard Brook Experimental Forest, New Hampshire, 23 years after all of the trees were felled and left in place. The experimental treatment of this watershed provided a unique opportunity to study large woody decay in a northern hardwood forest ecosystem with a well-documented disturbance history. We classified dead boles along line transects into four decay classes based on objective criteria, including bole shape and degree of fragmentation. Subsamples were returned to the laboratory for measurements of wood density and root ingrowth, species identification, and nutrient analysis. In 23 years, mass of dead boles (not including stumps) declined by approximately 90%, from 116.5 to 12.7 Mg•ha−1, and had an exponential decay rate constant, k, of 0.096 year-1. Significant differences in deadwood density were found among decay classes. The density of hardwood species declined approximately 50% by decay class 1, and softwood density declined 17% by decay class 1. Rates of decay appeared to be different among species, with maple and beech decomposing more quickly than birch and ash. Differences in concentrations of some nutrients were highly significant among decay classes (P and Ca) and among species (K, P, and Mg). Net release of nutrients ranged from 31% (N) to 93% (K). Root proliferation was highly correlated with decay class of dead boles. Highly decayed boles had much higher root biomass, but the total fine-root mass associated with deadwood was very low (2.1 g•m−2) compared with fine-root mass measured in forest floor (314 g•m−2). Our study demonstrates that decay of boles in this northern hardwood forest was rapid relative to conifer forests, and that decaying boles were not a site of significant nutrient accumulation or an important medium for tree roots.

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Effects of intensive harvesting on nutrient capitals of three forest types in New England

Hornbeck

Smith

Martin

et al. 1990

Forest Ecology and Management

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Biomass and nutrient removals from commercial thinning and whole-tree clearcutting of central hardwoods

Tritton

Martin

Hornbeck

et al. 1987

Environmental Management

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The objective of this research was to evaluate the impacts of increasing product removal on biomass and nutrient content of a central hardwood forest ecosystem. Commercial thinning, currently the most common harvesting practice in southern New England, was compared with whole-tree clearcutting or maximum aboveground utilization. Using a paired-watershed approach, we studied three adjacent, first-order streams in Connecticut. During the winter of 1981-82, one was whole-tree clearcut, one was commercially thinned, and one was designated as the untreated reference. Before treatment, living and dead biomass and soil on the whole-tree clearcut site contained 578 Mg ha -1 organic matter, 5 Mg ha -1 nitrogen, 1 Mg ha -1 phosphorus, 5 Mg ha -1 potassium, 4 Mg ha -1 calcium, and 13 Mg ha -1 magnesium. An estimated 158 Mg ha -1 (27% of total organic matter) were removed during the whole-tree harvest. Calcium appeared to be the nutrient most susceptible to depletion with 13% of total site Ca removed in whole-tree clearcut products. In contrast, only 4% (16 Mg ha -1) of the total organic matter and ~<2% of the total nutrients were removed from the thinned site. Partial cuts appear to be a reliable management option, in general, for minimizing nutrient depletion and maximizing long-term productivity of central hardwood sites. Additional data are needed to evaluate the long-term impacts of more intensive harvests.

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Physiologically based dendroclimate models for effects of weather on red spruce basal-area growth

Federer

Tritton

Hornbeck

1989

Agricultural and Forest Meteorology

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Louise M. Tritton

Long-term depletion of calcium and other nutrients in eastern US forests

Dead bole mass and nutrients remaining 23 years after clear-felling of a northern hardwood forest

Effects of intensive harvesting on nutrient capitals of three forest types in New England

Biomass and nutrient removals from commercial thinning and whole-tree clearcutting of central hardwoods

Physiologically based dendroclimate models for effects of weather on red spruce basal-area growth

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