This paper documents the existence and character of a little known fire-maintained anthropogenic ecosystem in the southeastern Olympic Peninsula of Washington State, U.S.A. Due to cessation of anthropogenic burning, there is no longer an intact example of this ecosystem. We present evidence from Skokomish oral tradition, historical documents, floral composition, tree-ring analysis, stand structure, and site potential to describe former savanna structure and function. We believe this system was a mosaic of prairies, savannas, and woodlands in a forest matrix maintained through repeated burning to provide culturally important plants and animals. The overstory was dominated by Douglas-fir (Pseudotsuga menziesii). Bear grass (Xerophyllum tenax) likely was a dominant understory component of the savannas, woodlands, and prairie edges. These lands grew forests in the absence of anthropogenic burning. Wide spacing of older trees or stumps in former stands and rapid invasion by younger trees in the late 1800s and early 1900s suggest a sudden change in stand structure. Shade-intolerant prairie species are still present where openings have been maintained but not in surrounding forests. Bark charcoal, fire scars, tree establishment patterns, and oral traditions point to use of fire to maintain this system. A common successional trajectory for all these lands leads to forested vegetation. These findings suggest that frequent application of prescribed burning would be necessary to restore this ecosystem.
The rising resistance of microbes toward the present-day antibiotics has led the researchers to increasinglyinvestigate medicinal plant-based antibiotics. The plant Aechmea magdalenae (Andre) Andre ex Baker (Bromeliaceae) is a terrestrial bromeliad native to Central America and Northwestern South America. Throughout much of its range, the juice from the leaves of A. magdalenae has been used by locals as caustic for wounds. Inthe lowland wet forests of Costa Rica, however, the local herbal healers do not rely on this species. In this study,antibacterial and biochemical analyses were conducted on A. magdalenae to document its potential use as amedicinal plant for both the local people in Costa Rica and to the scientific community. Gas chromatography-massspectrometry profiling studies also revealed, acetic acid to be one of the important chemical compound present inhigh probability in A. magdalenae. The antibacterial activity was confirmed by performing agar disc diffusion assayusing various concentrations of acetic acid against bacteria Escherichia coli. Acetic acid clearly demonstratedits antibacterial effect against E. coli. The antibacterial activity of the methanolic extracts of A. magdalenae wastested against Gram-negative (E. coli) and Gram-positive bacteria (Staphylococcus aureus). The methods usedto determine the antibacterial activity of the plant extracts were agar well diffusion assay and 96-well plateassay. In both the assays, gentamicin was used as a positive control and 20% dimethyl sulfoxide was used asa negative control. In 96 well plate assay, resazurin was used as an indicator to evaluate qualitatively whetherthe bacteria there was the growth of the bacteria or no growth. All the tests were performed in triplicates. Thezones of inhibition recorded were higher for S. aureus (10.5 mm) as compared to E. coli (9.5 mm). The minimuminhibitory concentration for E. coli was higher as compared to S. aureus.
The restoration potential of Sweetgrass (Anthoxanthum nitens (Weber) Y. Schouten & Veldkamp) was evaluated through a field experiment conducted on Kanatsiohareke, a Mohawk farm, and at the LaFayette Experiment Station near Syracuse, New York. The effects of competition reduction and two cover crops on Sweetgrass reestablishment success were examined. Sweetgrass was planted under four treatments: Sweetgrass alone; with existing, old-field vegetation; with a cover crop of Hairy vetch (Vicia villosa); and with a cover crop of Annual (Italian) ryegrass (Lolium multiflorum). The experiment consisted of five replicates of the four treatments at both LaFayette and Kanatsiohareke. Sweetgrass biomass, height, reproduction rate, and survivorship were greatest in plots that were weeded to eliminate competition and in plots with Hairy vetch as a cover crop. A cover crop of Annual ryegrass resulted in reduced Sweetgrass growth and reproduction. The results of this field experiment indicate that there is great restoration potential for Sweetgrass because it is easily transplanted and reproduces vigorously. For 2.25-m 2 plots, Hairy vetch is an effective cover crop for Sweetgrass. Planting the Sweetgrass with Hairy vetch generated properties of the grass that are desired by basketmakers, such as abundance and tall blades. This technique also allowed for a relatively non-labor intensive method of cultivation. Reestablishment of Sweetgrass offers the members and visitors of Kanatsiohareke the means to continue to use the plant, strengthen traditional practices associated with Sweetgrass, and benefit economically by selling baskets and medicine made with Sweetgrass.
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