Publications

Accuracy and location success of an ultralite GPS unit Elfelt, Morgan; Moen, Ronald Technological advances in GPS tracking units for wildlife have led to smaller and lighter devices. Increased battery life allows for collection of more locations. Before a new device is used in the field, it is important to evaluate its performance in order to more accurately interpret the raw data collected. Our objective was to determine the accuracy and location success of the G10 Ultralite GPS logger for potential use in a study of wood turtles (Glyptemys insculpta). We conducted stationary and moving tests under a variety of device settings and field conditions. For stationary tests, accuracy was measured by calculating the 50% and 95% circular error probable (CEP) at each test location. The CEP is the radius of a circle centered at the true location which contains either 50% or 90% of locations. We also calculated angular dispersion of each dataset, a measure of the direction and concentration of locations. Moving tests were conducted at two sites where wood turtles occur in order to evaluate the GPS unit performance under expected field conditions. Location success was ≥ 95% for all tests, including moving tests, indicating strong potential for consistent performance in the field. Location accuracy was not affected by snapshot size, location interval, or canopy cover. The angular dispersion values calculated indicated little bias in any compass direction, although smaller datasets had greater bias. The 95% CEP for most tests was < 40 m, demonstrating feasibility for assessment of wood turtle movements and habitat use. Integrating use of a temperature sensor would allow for better determination of aquatic vs. terrestrial behavior. To increase accuracy of GPS datasets, data should be screened to identify and remove outliers, using prior knowledge of animal movement characteristics. The high accuracy and location success documented in our tests combined with low power consumption and high storage capacity demonstrates the potential of the G10 Ultralite as an effective animal tracking device.

21st Avenue West Remediation to Restoration Project: Biological Survey and Hydrodynamic Modeling Results Host, George E; Reschke, Carol; Brady, Valerie; Breneman, Dan; Dumke, Josh; Niemi, Gerald J; Austin, Jay; James, Matthew; Johnson, Lucinda B The lower 21 miles of the St. Louis River, the largest U.S. tributary to Lake Superior, form the 4856 ha St. Louis River estuary. Despite the effects of more than 100 years of industrialized and urban development as a major Great Lakes port, the estuary remains the most significant source of biological productivity for western Lake Superior, and provides important wetland, sand beach, forested, and aquatic habitat types for a wide variety of fish and wildlife communities. The lower St. Louis River and surrounding watershed were designated an “Area of Concern” (AOC) under the Great Lakes Water Quality Agreement in 1989 because of the presence of chemical contaminants, poor water quality, reduced fish and wildlife populations, and habitat loss. Nine Beneficial Use Impairments (BUIs) have been identified in the AOC, including: Loss of Fish and Wildlife Habitat, Degraded Fish and Wildlife Populations, Degradation of Benthos, and Fish Tumors and Deformities. The St. Louis River Citizens Action Committee, now the St. Louis River Alliance (SLRA), was formed in 1996 to facilitate meeting the needs of the AOC. Following the recommendations of the St. Louis River AOC Stage II Remedial Action Plan, the SLRA completed the Lower St. Louis River Habitat Plan (Habitat Plan) in 2002 as “an estuary-wide guide for resource management and conservation that would lead to adequate representation, function, and protection of ecological systems in the St. Louis River, so as to sustain biological productivity, native biodiversity, and ecological integrity.” The SLRA also facilitated development of “Delisting Targets” for each BUI in the St. Louis River AOC in December 2008. The Habitat Plan identified several sites within the AOC with significant habitat limitations. One of these sites, the “21st Avenue West Habitat Complex” (approximately 215 ha; Map 1), was identified by a focus group within the SLRA Habitat Workgroup as a priority for a “remediation-to-restoration” project. The focus group subsequently developed a general description of desired future ecological conditions at the 21st Avenue West Habitat Complex, hereafter referred to as the ‘Project Area’, including known present conditions and limiting factors of the area. In addition, the focus group recommended a process to develop specific plans and actions to achieve the desired outcomes at the site. As the next step toward the creation of an “Ecological Design” for the Project Area, Natural Resource Research Institute researchers, in cooperation with USFWS, USEPA, MPCA, MnDNR, and other partners, sampled the 21st Avenue West site in late summer of 2011 to establish baseline information on vegetation, sediment types, benthic macroinvertebrates, toxins and bird usage of the area. This work will inform development of an ecological design that will allow assessment of restoration scenarios in the Project Area. The project will build on the 40th Ave West Remediation to Restoration effort, which developed an aquatic vegetation model based on depth, energy environment (predicted from a fetch model), water clarity, and other environmental factors. The model allows the evaluation of restoration scenarios involving changes in bathymetry, remediation or enhancement of substrate, reduction in wave energy, and other strategies. In this report we also incorporate a hydrodynamic model of the estuary to inform the ecological design process. Relationships between vegetation and the macroinvertebrate and avian communities will provide information on the efficacy of these strategies in remediating and restoring overall habitat and biological productivity in the 21st Avenue West Habitat Complex. This project was funded under USFWS Cooperative Agreement Number F11AC00517; full details of the project can be found in Attachment 1 of that Agreement.

40th Avenue West Remediation to Restoration Project: Biological Survey Results Brady, Valerie; Reschke, Carol; Breneman, Dan; Host, George E; Johnson, Lucinda B The lower 21 miles of the St. Louis River, the largest U.S. tributary to Lake Superior, form the 4856 ha St. Louis River estuary. Despite the effects of more than 100 years of industrialized and urban development as a major Great Lakes port, the estuary remains the most significant source of biological productivity for western Lake Superior, and provides important wetland, sand beach, forested, and aquatic habitat types for a wide variety of fish and wildlife communities. The lower St. Louis River and surrounding watershed were designated an “Area of Concern” (AOC) under the Great Lakes Water Quality Agreement in 1989 because of the presence of chemical contaminants, poor water quality, reduced fish and wildlife populations, and habitat loss. Nine Beneficial Use Impairments (BUIs) have been identified in the AOC, including: Loss of Fish and Wildlife Habitat, Degraded Fish and Wildlife Populations, Degradation of Benthos, and Fish Tumors and Deformities. The St. Louis River Citizens Action Committee, now the St. Louis River Alliance (SLRA), was formed in 1996 to facilitate meeting the needs of the AOC. Following the recommendations of the St. Louis River AOC Stage II Remedial Action Plan, the SLRA completed the Lower St. Louis River Habitat Plan (Habitat Plan) in 2002 as “an estuarywide guide for resource management and conservation that would lead to adequate representation, function, and protection of ecological systems in the St. Louis River, so as to sustain biological productivity, native biodiversity, and ecological integrity.” The SLRA also facilitated development of “Delisting Targets” for each BUI in the St. Louis River AOC in December 2008. The Habitat Plan identified several sites within the AOC with significant habitat limitations. One of these sites, the “40th Avenue West Habitat Complex”（approximately 130 ha; Figure 1), was identified by a focus group within the SLRA Habitat Workgroup as a priority for a “remediation- to-restoration” project. The focus group subsequently developed a general description of desired future ecological conditions at the 40th Avenue West Habitat Complex, hereafter referred to as the ‘Project Area’，including known present conditions and limiting factors of the area. In addition, the focus group recommended a process to develop specific plans and actions to achieve the desired outcomes at the site. As the next step toward the creation of an “Ecological Design” for the Project Area, Natural Resource Research Institute researchers, in cooperation with USFWS, USEPA, MPCA, MnDNR, and other partners, sampled the 40th Avenue West site during the late summer and fall of 2010 to establish baseline information on vegetation, sediment types, benthic macroinvertebrates, and bird usage of the area. Vegetation, macroinvertebrates, and sediment characterization were also completed for five Reference Areas selected by project cooperators. These Reference Areas represent less disturbed locations having high or low wind and wave exposure that can serve to demonstrate restoration potential for the Project Area. This project was funded under USFWS Cooperative Agreement Number 30181AJ68; full details of the project can be found in Attachment 1 of that Agreement. United States Fish and Wildlife Service Cooperative Agreement 30181AJ68; University of Minnesota, Duluth, Natural Resources Research Institute

A 15 and 20-Year Summary of Breeding Bird Trends in National Forests of Northern Minnesota and Wisconsin Niemi, Gerald J; Howe, Robert; Danz, Nicholas P; Etterson, Matthew The breeding bird communities of the western Great Lakes region have among the richest diversity of breeding bird species in North America (Robbins et al. 1987; Green 1995, Rich et al. 2004). The importance of this diversity and concerns with potential declines of some species has led to a strong interest in monitoring forest bird populations in the region. The relatively heavily forested landscapes of northern Minnesota and Wisconsin are considered to be population 'sources' for many forest bird species and may be supplementing population 'sinks' in the agricultural landscapes of the lower Midwest (Robinson et al. 1995, Temple and Flaspohler 1998). Analysis of population trends is used as an 'early-warning system' of potential problems in a species population and serves as a measure of the ecological condition of the environment (Niemi and McDonald 2004). Large-scale population monitoring programs such as the U.S. Geological Survey’s Breeding Bird Survey (BBS) provide important information on trends at a continental scale. However, limited coverage in some areas can make it difficult to use BBS data to characterize population trends at smaller geographic scales (Peterjohn et al. 1995). Continental trends also have the potential to mask regional population trends (Holmes and Sherry 1988), thus there is a need for regional monitoring programs that can provide more localized information (Howe et al. 1997). In response to the need for regional population data, a long-term forest breeding bird monitoring program was established in 1991 in the Chippewa and Superior NFs, and in 1992 in the Chequamegon NF. The Forest Service is mandated to monitor certain management indicator species (Manley 1993), and our monitoring program expands beyond indicator species to include all forest songbird species that we can adequately sample. Currently, approximately 420 stands (1,271 points) within the three national forests are surveyed during the breeding season (June 1 to July 10). The primary objective of this report is to update U.S. Forest Service personnel on results of the forest bird monitoring program. Here we focus on relative abundance trends of individual species. Because we slightly changed our point count methodology in 1995 by including unlimited point counts, here we focus on a comparison of the results from three different distance radii x time categories: 1) 100 m radius distance for 1991-2009, 2) 100 m radius distance for 1995-2009, and 3) unlimited distance for 1995-2009. Our intent here is to summarize the most important results and to provide detailed information in appendix form for those who need more specific results.