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Abstract (from: http://link.springer.com/article/10.1007/s00442-014-2881-2): Forest biomass growth is almost universally assumed to peak early in stand development, near canopy closure, after which it will plateau or decline. The chronosequence and plot remeasurement approaches used to establish the decline pattern suffer from limitations and coarse temporal detail. We combined annual tree ring measurements and mortality models to address two questions: first, how do assumptions about tree growth and mortality influence reconstructions of biomass growth? Second, under what circumstances does biomass production follow the model that peaks early, then declines? We integrated three stochastic mortality models with...
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These data were compiled in order to represent long-term (multi-decadal) forest growth across eight different experimental forests in the United States, each with replicated levels of density treatments, as well as an important drought index correlated to growth. Forests around the world are experiencing severe droughts and elevated competitive intensity due to increased tree density. These data can be utilized to not only examine differences in within-stand competition, as well the trends and impact of drought in different forests across a broad climatic gradient, but also the influence of interactions between drought and competition on forest growth. Growth is measured as a treatment level, annual basal area increment...
Categories: Data;
Tags: Argonne Experimental Forest,
Arizona,
Bartlett Experimental Forest,
Birch Lake Experiment,
Black Hills Experimental Forest, All tags...
Black Hills National Forest,
Chequamegon National Forest,
Chippewa National Forest,
Climate,
Climatology,
Competition,
Cutfoot Experimental Forest,
Data Visualization & Tools,
Dendrochronology,
Drought,
Drought,
Drought, Fire and Extreme Weather,
Flagstaff,
Forest Density,
Forest Health,
Forestry,
Forests,
Fort Valley Experimental Forest,
Landscapes,
Maine,
Minnesota,
National CASC,
New Hampshire,
Nicolet National Forest,
Ohio,
Orono,
Penobscot Experimental Forest,
Resilience,
Resistance,
Science Tools For Managers,
Silviculture,
South Dakota,
Superior National Forest,
Taylor Woods,
USGS Science Data Catalog (SDC),
Vinton Furnace Experimental Forest,
White Mountain National Forest,
Wisconsin, Fewer tags
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Abstract (from ESAJournals): Following a disturbance, dispersal shapes community composition as well as ecosystem structure and function. For fungi, dispersal is often wind or mammal facilitated, but it is unclear whether these pathways are complementary or redundant in the taxa they disperse and the ecosystem functions they provide. Here, we compare the diversity and morphology of fungi dispersed by wind and three rodent species in recently harvested forests using a combination of microscopy and Illumina sequencing. We demonstrate that fungal communities dispersed by wind and small mammals differ in richness and composition. Most wind-dispersed fungi are wood saprotrophs, litter saprotrophs, and plant pathogens,...
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Abstract (from ESAJournals): Alterations in global climate via extreme precipitation will have broadscale implications on ecosystem functioning. The increased frequency of drought, coupled with heavy, episodic rainfall are likely to generate impacts on biotic and abiotic processes across aquatic and terrestrial ecosystems. Despite the demonstrated shifts in global precipitation, less is known how extreme precipitation interacts with biophysical factors to control future demographic processes, especially those sensitive to climate extremes such as organismal recruitment and survival. We utilized a field-based precipitation manipulation experiment in 0.1 ha forest canopy openings to test future climate scenarios characterized...
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Abstract (from http://onlinelibrary.wiley.com/doi/10.1111/gcb.13046/abstract): Ecotones are transition zones that form, in forests, where distinct forest types meet across a climatic gradient. In mountains, ecotones are compressed and act as potential harbingers of species shifts that accompany climate change. As the climate warms in New England, USA, high-elevation boreal forests are expected to recede upslope, with northern hardwood species moving up behind. Yet recent empirical studies present conflicting findings on this dynamic, reporting both rapid upward ecotonal shifts and concurrent increases in boreal species within the region. These discrepancies may result from the limited spatial extent of observations....
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