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-- Ecology
Enclosed ecosystem experiments have gained in popularity as research tools in ecological science, particularly in the study of coastal aquatic environments. These systems provide scientists with a degree of experimental control that is not achievable through field experiments. Yet to date, techniques for systematically extrapolating results from small-scale experimental ecosystems to larger, deeper, more open, more biologically diverse, and more heterogeneous ecosystems in nature have not been well developed. Likewise, researchers have lacked methods for comparing and extrapolating information among natural ecosystems that differ in scale. Enclosed Experimental Ecosystems and Scale: Tools for Understanding and Managing Coastal Ecosystems provides scientists, managers, and policy makers with an introduction to what has been termed the "problem of scale", and presents information that will allow for improved design and interpretation of enclosed experimental aquatic ecosystems. The book integrates the results of a 10-year research project involving a multi-disciplinary team of scientists and students to explore scale-related questions in a variety of coastal habitats. Anticipating use as a reference, the book has been designed so that individual sections and individual pages can function as stand alone units.
This book discusses the impact of recent advances in the theory of "scaling relationships" and identifies critical issues that must be considered if experimental results are used to understand the temporal and spatial scales of actual ecosystems. The complexity of ecosystems complicates experimental design. How, for example, does a scientist draw boundaries when studying species effects and interactions? Once these boundaries are drawn, how does one treat factors external to that study? Will the failure to consider external factors affect one's ability to extrapolate information across temporal and spatial scales? This volume provides a compilation from a broad range of ecologists with extensive experimental research experience that addresses these and other questions of scaling relations.
This is the first book of its kind – explicitly considering uncertainty and error analysis as an integral part of scaling. The book draws together a series of important case studies to provide a comprehensive review and synthesis of the most recent concepts, theories and methods in scaling and uncertainty analysis. It includes case studies illustrating how scaling and uncertainty analysis are being conducted in ecology and environmental science.
Although previous research has investigated competition between native and nonnative trout, few studies have examined effects of introduced trout on other species in coldwater stream communities. I designed a field experiment to examine interactions between native brook trout versus nonnative brown trout with native slimy sculpin to investigate whether introductions of nonnative trout affect food web relationships in small streams. I hypothesized that brown trout would compete with sculpin and reduce sculpin growth, whereas competition would not occur between brook trout and sculpin, based on the premise that brook tout and slimy sculpin have coevolved in Minnesota streams. Enclosures (1m2) were stocked with fish according to six treatments: combined-species treatments (juvenile brown trout with sculpin, juvenile brook trout with sculpin), single-species controls, and no fish. Fish were stocked at three densities to examine intraspecific versus interspecific competition. Replicates of each treatment were placed in riffles in Valley Creek, Minnesota, and six 38-day experiment trials were conducted over three summers (2002-2004). Enclosures did not reduce abundance of drifting invertebrate prey. Interactions between brown trout and sculpin led to reduced growth of both large sculpin and large brown trout in enclosures, whereas presence of brook trout was not associated with changes to sculpin growth. Presence of brown trout also led to indirect effects on food web dynamics that may have resulted in these observed changes in growth. Brown trout was the only species associated with a decrease in abundance of a benthic invertebrate taxon, suggesting that brown trout may feed in the benthos to a greater extent than brook trout. Brown trout were also associated with shifts in sculpin diets, indicating a change in sculpin feeding behavior when sculpin were with brown trout that was not evident when sculpin were alone or with brook trout. Feeding behavior and intraspecific interactions among brown trout, along with shifts in feeding behavior of sculpin when brown trout were present, likely was a mechanism underlying reduced growth of both species. My research shows that introduced brown trout have effects on the stream community in Valley Creek that are different than native brook trout.
"We compared northern goshawk (Accipiter gentilis atricapillus) nesting habitat within 1 ha of nest sites and at landscape scales of 10, 30, 60, 83, 120, 150, and 170 ha in 4 studies areas east of the Cascade Mountains in Oregon and Washington. Our objective was to describe goshawk nesting habitat at biologically relevant scales and to develop models capable of assessing the effects of forest management alternatives on habitat suitability"--Page 1.