Advanced regeneration, in the form of tree seedlings and saplings, is critical for ensuring the long-term viability and resilience of forest ecosystems in the eastern United States. Lack of regeneration and/or compositional mismatch between regeneration and canopy layers, called regeneration debt, can lead to shifts in forest composition, structure, and, in extreme cases, forest loss. In this study, we examined status and trends in regeneration across 39 national parks from Virginia to Maine, spanning 12 years to apply the regeneration debt concept.
View Article and Find Full Text PDFWhile invasive plant distributions are relatively well known in the eastern United States, temporal changes in species distributions and interactions among species have received little attention. Managers are therefore left to make management decisions without knowing which species pose the greatest threats based on their ability to spread, persist and outcompete other invasive species. To fill this gap, we used the U.
View Article and Find Full Text PDFA study was undertaken at the El Verde Field Station in Puerto Rico to determine the effect of energy available from newly dead trees on the species richness of macrofungal communities that inhabit them. It is hypothesized that there is a positive relationship between available energy and species richness. Energy was measured using the volume of the dead trees and the wood density of living trees of the same species.
View Article and Find Full Text PDFA laboratory experiment was performed which examined tradeoffs between production of mycelium and reproduction (using stipe dry weight as an estimator of spore production) in the coprophilous mushroom species Coprinus cinereus. Isolates of the fungus taken from a single dikaryotic mycelium were grown in Petri plates containing yeast extract agar. Plates varied in diameter and resource density, but the total volume of agar was kept constant.
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