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1. ASSESSING MOOSE HUNTER DISTRIBUTION TO EXPLORE HUNTER COMPETITION

   Hasbrouck, T.R. (August 2020, Alces)

   null (Ed.)

   Traditional values, motivations, and expectations of seclusion by moose (Alces alces) hunters, more specifically their distributional overlap and encounters in the field, may exacerbate perceptions of competition among hunters. However, few studies have quantitatively addressed overlap in hunting activity where hunters express concern about competition. To assess spatial and temporal characteristics of competition, our objectives were to: 1) quantify temporal harvest patterns in regions with low (roadless rural) and high (roaded urban) accessibility, and 2) quantify overlap in harvest patterns of two hunter groups (local, non-local) in rural regions. We used moose harvest data (2000–2016) in Alaska to quantify and compare hunting patterns across time and space between the two hunter groups in different moose management areas. We created a relative hunter overlap index that accounted for the extent of overlap between local and non-local harvest. The timing of peak harvest was different (P < 0.01) in urban and rural regions, occurring in the beginning and middle of the hunting season, respectively. In the rural region, hunter overlap scores revealed a concentration in 20% of the area on 16–20 September, with 50% of local harvest on 33% of the area and 54% of non-local harvest on 18% of the area. We recommend specific management strategies, such as lifting the air transportation ban into inaccessible areas, to redistribute hunters and reduce overlap and concerns of competition in high-use areas. We also encourage dissemination of information about known hotspots of hunter overlap to modify hunter expectations and subsequent behavior. Our hunter overlap index should prove useful in regions where similar concerns about hunter competition, hunter satisfaction, and related management dilemmas occur. 

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2. Sea Ice, Weather, and Subsistence Observations from Sivuqaq, Gambell, Alaska: 2023-2025

   https://doi.org/10.18739/a2nz80s21  

   Takata-Glushkoff, Kitrea_M Pacifica; Ungott, Eddie Qagughaaq; Kaningok, Pekennaq Travis; Mahoney, Andrew; BurnSilver, Shauna (January 2025, NSF Arctic Data Center)

   Arctic Indigenous coastal communities sustain rich environmental knowledge for subsistence activities, yet their knowledge and observations of changing conditions remain underrepresented in scientific datasets. This dataset documents local Sivuqaq Yupik Indigenous hunters’ observations of environmental conditions and associated subsistence activity based out of Sivuqaq (Gambell), St. Lawrence Island, Alaska. Two community research leads and experienced Sivuqaq Yupik Hunters (Ungott and Kaningok) compiled a series of regular observations over the course of three sea ice seasons from 2023 to 2025. These included quantitative measurements made with a handheld weather meter and visual assessments of specific categories of weather, ice and ocean conditions, and subsistence activities. Specifically, the quantitative observations include wind speed, direction and air temperature, while visually assessed weather conditions include cloud cover, precipitation, and visibility. Reported categories of ice and ocean conditions include current direction, state of waves, Akuzipik ice type terminology, the presence and state of shorefast ice, and the distribution of ice and open water both near the beach and further offshore. Categories related to subsistence activities noted whether any community members were participating in hunting, fishing, or crabbing, and the number of boats in the water. These observations were accompanied by narrative commentary and often photographs to add context to each record. Observations were focused between the months of December and June, in relation to local ice presence, and ice-associated subsistence hunting. The range of data for each observed day enables comparison with other large-scale datasets while remaining grounded in the applied local context of subsistence hunting. This dataset was developed as part of the NSF Arctic Robust Communities – Navigating Adaptation to Variability (ARC-NAV) project. For further information see arcnav.org 

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3. Density‐dependence produces spurious relationships among demographic parameters in a harvested species

   https://doi.org/10.1111/1365-2656.13807  

   Riecke, Thomas V; Lohman, Madeleine G; Sedinger, Benjamin S; Arnold, Todd W; Feldheim, Cliff L; Koons, David N; Rohwer, Frank C; Schaub, Michael; Williams, Perry J; Sedinger, James S (November 2022, Journal of Animal Ecology)

   Abstract Harvest of wild organisms is an important component of human culture, economy, and recreation, but can also put species at risk of extinction. Decisions that guide successful management actions therefore rely on the ability of researchers to link changes in demographic processes to the anthropogenic actions or environmental changes that underlie variation in demographic parameters.Ecologists often use population models or maximum sustained yield curves to estimate the impacts of harvest on wildlife and fish populations. Applications of these models usually focus exclusively on the impact of harvest and often fail to consider adequately other potential, often collinear, mechanistic drivers of the observed relationships between harvest and demographic rates. In this study, we used an integrated population model and long‐term data (1973–2016) to examine the relationships among hunting and natural mortality, the number of hunters, habitat conditions, and population size of blue‐winged tealSpatula discors, an abundant North American dabbling duck with a relatively fast‐paced life history strategy.Over the last two and a half decades of the study, teal abundance tripled, hunting mortality probability increased slightly (), and natural mortality probability increased substantially () at greater population densities. We demonstrate strong density‐dependent effects on natural mortality and fecundity as population density increased, indicative of compensatory harvest mortality and compensatory natality. Critically, an analysis that only assessed the relationship between survival and hunting mortality would spuriously indicate depensatory mortality due to multicollinearity between abundance, natural mortality and hunting mortality.Our findings demonstrate that models that only consider the direct effect of hunting on survival or natural mortality can fail to accurately assess the mechanistic impact of hunting on population dynamics due to multicollinearity among demographic drivers. This multicollinearity limits inference and may have strong impacts on applied management actions globally. 

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4. Climate services in a rapidly changing environment: an evaluation of the Sea Ice for Walrus Outlook (SIWO)

   https://doi.org/10.1080/1088937X.2023.2286383  

   Kettle, Nathan P; Hendricks, Amy; Sheffield_Guy, Lisa; Lee, Olivia; Metcalf, Vera; Holen, Davin (October 2023, Polar Geography)

   Understanding how to design climate services across a range of contexts remains a key priority. This research evaluates the Sea Ice for Walrus Outlook (SIWO), a resource designed to provide information about sea ice, weather, and walruses in Alaska, a region experiencing rapid social and environmental change. The evaluation was based on a set of 22 indicators developed from literature on evaluation, weather and climate services, science communication, and decision support. Two datasets were assessed to evaluate the SIWO: semi-structured interviews (n = 13) and a web-based questionnaire (n = 35). Interpretation of the outcome indicators suggests that the SIWO supported several community needs, including providing information to support travel, documenting historical impacts for disaster relief, and sharing Indigenous Knowledge among villages. The evaluation revealed insights into the kinds of information useful for rural and Indigenous communities, such as the importance of local observations from within and from nearby villages. Recommendations for other emergent organizations providing climate services in rural communities include attention to specific budget considerations to support equitable engagement and compensation, including both local and scientific observations, using multiple channels to disseminate information, and including evaluations in the design of climate services that are aligned with funding cycles. 

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5. Changes in Sharing and Participation are Important Predictors of the Health of Traditional Harvest Practices in Indigenous Communities in Alaska

   https://doi.org/10.1007/s10745-022-00342-4  

   Brinkman, Todd; Charles, Billy; Stevens, Benjamin; Wright, Brooke; John, Simeon; Ervin, Bruce; Joe, Jorene; Ninguelook, Georgianna; Heeringa, Krista; Nu, Jennifer; et al (August 2022, Human Ecology)

   Abstract The well-being of Indigenous communities in Alaska is inextricably linked to traditional harvest practices (THPs) such as hunting, fishing, and gathering local wild foods. Regional trends in the health of THPs have not been quantitatively evaluated in Alaska. Therefore, we surveyed Indigenous residents in the Western Coastal (n = 623) and Interior (n = 437) Regions of Alaska to estimate perceptions of the extent and cause of change in the health of THPs over the last ten years. We found that THPs improved in Western Coastal and declined in Interior Alaska. The best predictors of improvement or decline in the health of THPs were 1) change in the ability to share the harvest, 2) change in participation in hunting and fishing activities, and 3) extent of challenges caused by climate change. The odds of a decline in the health of THPs were 8 to 13 times higher for households that reported a decrease in sharing of traditional foods. 

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