Historical surveys reveal a long‐term decline in muskrat populations

Sadowski, Carrie; Bowman, Jeff

doi:10.1002/ece3.7588

Cited by 12 publications

(5 citation statements)

References 61 publications

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“…However, examination of historical Fur Trade records suggest that recent perceptions of overpopulation are a result of shifting baselines, as use of an 1850, rather than, 1970, baseline results in a reversal of trends from apparent increase to actual decline (Collins et al, 2020). Some harvest estimates within the last few decades similarly suggest muskrats are declining across their range in Canada (Sadowski and Bowman, 2021) and the northeastern United States (Roberts and Crimmins, 2010), potentially linked to disease.…”

Section: Historical Continuity Of Beaver and Muskrat Populationsmentioning

confidence: 99%

Zooarchaeological assemblages contextualize the historical ecology and harvest of fur-bearing mammals in Vermont

et al. 2023

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Shifting baselines can skew species harvest guidelines and lead to potentially inaccurate assessments of population status and range. The North American Fur Trade (~1600–1900 CE) profoundly impacted the continent’s socio-ecological systems, but its legacies are often not incorporated in management discussions. We apply a conservation paleobiology lens to address shifting baselines of nine species of fur-bearing mammals in Vermont, including seven mesocarnivores and two semi-aquatic rodents. Using a database maintained by the Vermont Division for Historic Preservation, we identified 25 existing radiocarbon dates of fur-bearer associated features from 16 archaeological localities spanning the Early-Late Holocene. We also generated 7 new radiocarbon dates on beaver and muskrat bones from the Ewing (VT-CH-005), Bohannon (VT-GI-026), and Chimney Point (VT-AD-329) localities. Our new radiocarbon dates cluster within the Late Holocene, immediately prior to and throughout the European contact period, and overlap with The Beaver Wars. We recover a ~8,000 year record of beaver harvest, affirming the millennial scale importance of beavers, a species that is often the focus of human-wildlife conflict research. Comparison of zooarchaeological occurrences with digitized natural history specimens and community science observations reveals geographic range continuity for most species except for the American marten, which was historically extirpated, and confirms the native status of the red fox. While taphonomic constraints make our dataset a conservative assessment, our case studies demonstrate how wildlife managers can employ zooarchaeological data to better understand long-term properties of coupled socio-ecological systems and highlight the cultural importance of these species to Indigenous trade networks prior to the Fur Trade in Vermont.

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Section: Historical Continuity Of Beaver and Muskrat Populationsmentioning

confidence: 99%

Zooarchaeological assemblages contextualize the historical ecology and harvest of fur-bearing mammals in Vermont

et al. 2023

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“…However, wetlands also support a large number of trophic levels, which makes higher organisms susceptible to toxicological effects resulting from biomagni cation (Ali & Khan, 2019). One such species that may be at risk is the muskrat (Ondatra zibethicus), a common, primarily herbivorous, semi-aquatic mammal that is declining across North America for undetermined reasons (Sadowski & Bowman, 2021). One potential contributing factor is contaminants including heavy metals and metalloids, which may be introduced to their diet through the ingestion of cattail roots (Erickson & Lindzey, 1983).…”

Section: Introductionmentioning

confidence: 99%

Assessment of heavy metal and metalloid concentrations at Horicon National Wildlife Refuge

Woody,

O’Dell,

Krapfl

et al. 2024

Wetlands Ecol Manage

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Anthropogenic inputs of heavy metals and metalloids pose a risk to wetland ecosystems due to their long retention time in sediment, high toxicity at low concentrations, and ability to biomagnify in the food chain. Our study involved an extensive monitoring effort for seven heavy metals (cadmium:Cd, chromium:Cr, copper:Cu, mercury:Hg, nickel:Ni, lead:Pb, zinc:Zn) and one metalloid (arsenic:As) in sediment, roots of the invasive hybrid cattail (Typha x glauca), and livers from muskrats (Ondatra zibethicus) at Horicon National Wildlife Refuge, a wetland of international importance in southeastern Wisconsin, United States. Overall, our comparison to literature values and thresholds led us to conclude that heavy metals and metalloids pose a low risk to the refuge. The highest concentrations were found in the sediment, followed by T. x glauca roots, and with negligible concentrations in muskrat liver tissue for all but the essential metals Cu, Ni and Zn, indicating low biomagni cation in this food chain. A spatial analysis using GIS revealed hotspots for Cd, Cr, Cu, Ni, and Zn in sediment in one particular subplot, which we hypothesize may be from runoff of agricultural amendments. However, since concentrations in sediment were similar to or lower than concentrations found in a prior survey from 1990, there may have been improvement over the last three decades. Overall, while anthropogenic in uences are present, we recommend that our relatively low concentrations be used as healthy points of comparison regarding risk to plants and mammals for others conducting metal and metalloid surveys on wetlands.

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“…Harvest declined in the southeastern United States by >90% between 1970 and 2012 (Ahlers and Heske 2017), and harvest in the northeastern United States and eastern Canada declined 75% between 1986and 2006(Roberts and Crimmins 2010. In 2 coastal wetlands in Ontario, Canada, the number of muskrat houses has declined >90% in recent decades, and muskrat harvest throughout the province has declined by 90% since the 1980s (Sadowski and Bowman 2021). In Prince Edward Island, where declines have been observed by trappers, one wetland experienced a 6-fold decrease in density since the 1960s (Gregory et al 2019).…”

mentioning

confidence: 99%

“…The use of muskrat sign can be unreliable and provide limited information compared to other methods (Boutin and Birkenholz 1999). House counts are the most popular survey method for muskrats and can be completed during the winter by snowmobile, ski, or walking transects on the frozen wetland, or in the spring or summer by canoe or walking transects (Dozier 1948, Proulx and Gilbert 1984, Thurber et al 1991, Greenhorn et al 2017, Sadowski and Bowman 2021). However, house counts can also be labor intensive, time consuming, and logistically challenging when conducted from the ground due to potential challenges in accessing the wetland of interest (e.g., remote location, lack of landowner permission) and the physical obstacles that may be encountered within the wetland (e.g., deep snow, thin ice, dense vegetation).…”

mentioning

confidence: 99%

The use of orthoimagery and stereoscopic aerial imagery to identify muskrat (Ondatra zibethicus) houses

Greenhorn,

Sadowski,

Rodgers

et al. 2024

Wildlife Society Bulletin

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The muskrat (Ondatra zibethicus) is considered a ubiquitous inhabitant of wetlands across Canada and the United States, but recent studies indicate that muskrat populations in many parts of North America have experienced substantial declines over the last 40–60 years. Monitoring of muskrat abundance is therefore an important task for wildlife managers, but traditional methods such as house counts conducted during ground‐based surveys can be labor‐intensive and time‐consuming. Poor conditions or a lack of access may limit how much of a wetland can be surveyed. Aerial imagery has previously been used to census a diverse array of wildlife populations but is not yet a common tool for muskrat surveys. To investigate the accuracy of this alternative survey method, we collected aerial imagery from coastal wetlands along the north shore of Lake Ontario during the winter of 2014 for examination in both 2D orthorectified and 3D stereoscopic formats. We compared muskrat house counts obtained from imagery to counts recorded by ground survey crews in the same wetlands during the same winter. We found no significant difference between mean muskrat house counts obtained by ground survey crews and orthoimagery observers. In contrast, stereoscopic imagery observers overestimated mean house counts compared to ground survey crews, which we interpret was due to an increase in false positives. Our results indicate that orthoimagery is a promising tool for assessing muskrat occupancy, provides comparable broad‐scale results to traditional ground survey methods, and may be preferable to wildlife managers for a variety of reasons.

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Historical surveys reveal a long‐term decline in muskrat populations

Cited by 12 publications

References 61 publications

Zooarchaeological assemblages contextualize the historical ecology and harvest of fur-bearing mammals in Vermont

Zooarchaeological assemblages contextualize the historical ecology and harvest of fur-bearing mammals in Vermont

Assessment of heavy metal and metalloid concentrations at Horicon National Wildlife Refuge

The use of orthoimagery and stereoscopic aerial imagery to identify muskrat (Ondatra zibethicus) houses

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