A model-based estimate of winter distribution and abundance of white-tailed deer in the Adirondack Park

Hinton, Joseph W.; Hurst, Jeremy E.; Kramer, David W.; Stickles, James H.; Frair, Jacqueline L.

doi:10.1371/journal.pone.0273707

Cited by 6 publications

(5 citation statements)

References 71 publications

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“…This result matches prior work indicating winter severity during the current and preceding year can cause late‐winter survival bottlenecks and reduce survival (Mech et al 1987, Kautz et al 2020). This result also supports models indicating northern deer distributions will expand as winter severity decreases with climate change (Kennedy‐Slaney et al 2018, Hinton et al 2022), which may have negative effects on moose populations (Barber‐Meyer and Mech 2016, Carstensen et al 2018, Oliveira‐Santos et al 2021). We acknowledge, however, that the metric we used to assess winter severity (CWSI; DelGiudice et al 2002) may not sufficiently explain winter weather variability and its influence on moose and deer.…”

Section: Discussionsupporting

confidence: 81%

“…This result matches prior work indicating winter severity during the current and preceding year can cause late-winter survival bottlenecks and reduce survival(Mech et al 1987, Kautz et al 2020. This result also supports models indicating northern deer distributions will expand as winter severity decreases with climate change(Kennedy-Slaney et al 2018, Hinton et al 2022, which may have negative effects on moose populations (Barber-…”

supporting

confidence: 88%

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Moose and white‐tailed deer mortality peaks in fall and late winter

Wehr,

Moore,

Isaac

et al. 2024

J Wildl Manag

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The Grand Portage Band of Lake Superior Chippewa manages for sustainable subsistence harvests of moose (mooz; Alces alces) and white‐tailed deer (waawaashkeshi; Odocoileus virginianus). Moose populations in northern Minnesota, USA, are declining, which may necessitate alterations to Indigenous subsistence practices. Moose and deer exhibit seasonal behaviors such as altered space use and movement strategies, to which gray wolves (ma'iingan; Canis lupus) and humans may adapt, resulting in seasonal mortality patterns. Identifying periods of increased moose and deer vulnerability is important for achieving tribal conservation objectives. We assessed seasonal cause‐specific mortality of adult moose (2010–2021) and deer (2016–2022) fitted with global positioning system collars on and near the Grand Portage Indian Reservation (Gichi Onigaming; GPIR) in Minnesota and hypothesized mortality risk would be influenced by species‐specific space use patterns and weather. We estimated survival rates and mortality risk using time‐to‐event models. We recorded 42 moose mortalities (17 health issues, 8 predations, 4 subsistence harvests, 13 unknown causes) and 49 deer mortalities (26 predations, 13 harvests, 4 other causes, 6 unknown causes). Mean annual moose survival was 83.2%, and mortality risk peaked during late winter (~25 April) and fall (~8 October). Mean annual deer survival was 48.0%, and mortality risk peaked during late winter (~25 March) and during their fall migration period (~11 November). Mortality timing coincided with transitions between space use states (i.e., periods of spatial stability), suggesting ungulates are at greater risk during these transitional periods, though movement strategy (i.e., resident vs. migratory) did not influence mortality risk. Further, increased winter severity corresponded with increased deer mortality. We observed similar temporal peaks in mortality risk when harvest mortalities were censored, suggesting our observed seasonal mortality peaks occur naturally despite harvest comprising most fall deer mortality. Our results can inform population models and harvest regulations by identifying periods of mortality risk on GPIR under Anishinaabe principles of seventh‐generation conservation planning.

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Section: Discussionsupporting

confidence: 81%

supporting

confidence: 88%

Moose and white‐tailed deer mortality peaks in fall and late winter

Wehr,

Moore,

Isaac

et al. 2024

J Wildl Manag

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“…These differences in road tolerance can lead to altered patterns of spatial, temporal, and dietary segregation. For example, herbivores like the white‐tailed deer or the red deer ( Cervus elaphus ) gain a competitive advantage by occupying and exploiting resources closer to roads than their competitors moose and roe deer ( Capreolus capreolus ), respectively (Torres et al ., 2012; Hinton et al ., 2022). A similar pattern has been described for predators: black bear and pampas fox ( Pseudalopex gymnocercus ) tend to use habitat closer to paths or dirt roads, gaining an advantage in terms of the spatial partitioning arising from their competition with grizzly bears ( Ursus arctos horribilis ) and crab‐eating fox ( Cerdocyon thous ), respectively.…”

Section: Resultsmentioning

confidence: 99%

Interspecific interactions disrupted by roads

Quiles,

Barrientos

2024

Biological Reviews

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Roads have pervasive impacts on wildlife, including habitat loss and fragmentation, road mortality, habitat pollution and increased human use of habitats surrounding them. However, the effects of roads on interspecific interactions are less understood. Here we provide a synthesis of the existing literature on how species interactions may be disrupted by roads, identify knowledge gaps, and suggest avenues for future research and conservation management. We conducted a systematic search using the Web of Science database for each species interaction (predation, competition, mutualism, parasitism, commensalism and amensalism). These searches yielded 2144 articles, of which 195 were relevant to our topic. Most of these studies focused on predation (50%) or competition (24%), and less frequently on mutualism (17%) or, parasitism (9%). We found no studies on commensalism or amensalism. Studies were biased towards mammals from high‐income countries, with most conducted in the USA (34%) or Canada (18%). Our literature review identified several patterns. First, roads disrupt predator–prey relationships, usually with negative impacts on prey populations. Second, new disturbed habitats created in road corridors often benefit more competitive species, such as invasive species, although some native or endangered species can also thrive there. Third, roads degrade mutualistic interactions like seed dispersal and pollination. Fourth, roads can increase parasitism rates, although the intensity of the alteration is species specific. To reduce the negative impacts of roads on interspecific interactions, we suggest the following management actions: (i) verges should be as wide and heterogenous as possible, as this increases microhabitat diversity, thus enhancing ecosystem services like pollination and seed dispersal; (ii) combining different mowing regimes can increase the complexity of the habitat corridor, enabling it to act as a habitat for more species; (iii) the use of de‐icing salts should be gradually reduced and replaced with less harmful products or maintenance practices; (iv) wildlife passes should be implemented in groups to reduce animal concentrations inside them; (v) periodic removal of carcasses from the road to reduce the use of this resource by wildlife; and (vi) implementation of traffic‐calming schemes could enhance interspecific interactions like pollination and avoid disruption of predator–prey relationships.

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“…Bowen's concern in the article was spreading the consequences of the pathogenetic parasites and fungus to the other two mountains, Gothic and Marcy, just like what happened in Adirondack with trees and deterioration of the needles (Bowen, 2020). Additionally, Hinton in "A model-based estimate of winter distribution and abundance of white-tailed deer in the Adirondack Park" stated the latest consequences in the Adirondack Park, where a rare and vulnerable small population of deer, along with moose (Alces alces) and elk (Cervus canadensis), have been affected by fossil fuels that mitigate from the acid rain (Hinton, 2022). Haradhan's research findings reveal acid rain emissions causing acidification, with pH levels as low as 4.34 in the Adirondack Mountains region in New York and affecting lakes in New England and Connecticut.…”

Section: Chartmentioning

confidence: 99%

How long will it take for the planet to transition from fossil fuels to solar energy: Is the media effectively covering this topic in New York State?

Chonevski,

Chonevski

2024

Int. J. Res. Publ. Rev.

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This research was about transition and understanding replacing fossil fuels with solar energy that mitigate acid rain in Adirondack Mountain in New York, The main goal was to explore media core to which extent solar energy can replace fossil fuels, was a complex answer that requires consideration of the global economies, human policies and implementation, scientific approach, and educative research perspective. In the summary of my project, I explored this question to understand that a) impact of the causes of human and economic disasters in Adirondack acid rainfalls; b) the spillover process of acid rain that has locally and globally affected abiotic and biotic environments; c) prevention and awareness of concerns about fossil fuels that cause issues in the Adirondack Mountains as a pilot study for the planet, and d) conclusion of substituting fossil fuel with solar energy in school households and industry for next-generation wellness.

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A model-based estimate of winter distribution and abundance of white-tailed deer in the Adirondack Park

Cited by 6 publications

References 71 publications

Moose and white‐tailed deer mortality peaks in fall and late winter

Moose and white‐tailed deer mortality peaks in fall and late winter

Interspecific interactions disrupted by roads

How long will it take for the planet to transition from fossil fuels to solar energy: Is the media effectively covering this topic in New York State?

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