Your search keyword '"Beaver"' showing total 235 results

1. The Ecology and Evolution of Beavers: Ecosystem Engineers That Ameliorate Climate Change.

Author

Fairfax, Emily and Westbrook, Cherie

Abstract

Beavers, Castor canadensis in North America and Castor fiber in Eurasia, are widely referred to as nature's engineers due to their ability to rapidly transform diverse landscapes into dynamic wetland ecosystems. Few other organisms exhibit the same level of control over local geomorphic, hydrologic, and ecological conditions. Though freshwater ecosystems are particularly vulnerable to changing climate, beavers and their wetland homes have persisted throughout the Northern Hemisphere during numerous prior periods of climatic change. Some research suggests that the need to create stable, climate-buffered habitats at high latitudes during the Miocene directly led to the evolution of dam construction. As we follow an unprecedented trajectory of anthropogenic warming, we have the unique opportunity to describe how beaver ecosystem engineering ameliorates climate change today. Here, we review how beavers create and maintain local hydroclimatic stability and influence larger-scale biophysical ecosystem processes in the context of past, present, and future climate change. [ABSTRACT FROM AUTHOR]

Published

2024

2. Post‐fire sediment attenuation in beaver ponds, Rocky Mountains, CO and WY, USA.

Author

Dunn, Sarah B., Rathburn, Sara L., and Wohl, Ellen

Subjects

RIVER sediments, FLUVIAL geomorphology, ECOLOGICAL disturbances, WATER supply, PONDS

Abstract

We evaluated the post‐fire sediment dynamics in beaver ponds to examine these ponds' contributions to sediment storage following disturbance. Beaver dams and beaver mimicry structures impound water and sediment, a function that is of growing interest in wildfire‐prone landscapes. Wildfires typically lead to high sediment loading into rivers in the years following fire, constituting a disturbance to aquatic ecosystems and a challenge to water resource managers. Previous work establishes that beaver dams trap substantial volumes of sediment, but sedimentation appears spatially and temporally heterogeneous and it remains unclear the extent to which short‐term pulses of sediment are attenuated by these structures. We examine the conditions under which beaver dams and beaver mimicry structures store post‐fire sediment by quantifying the sediment volume of 40 ponds, about half of which were burned in large wildfires in the Colorado and Wyoming Rocky Mountains in 2020. The median relative volume of burned ponds is 85%, which is greater than the median for unburned ponds (58%), meaning that burned ponds store higher relative volumes of sediment when pond size is accounted for. Furthermore, sediment accumulated at a median rate of 3.0 cm/year over the entire history of the pond. Post‐fire sedimentation rates, with a median of 20.4 cm/year, were an order of magnitude higher than pre‐fire rates with a median of 1.8 cm/year. In addition, vegetation and geomorphic characteristics correlated with sediment storage in ponds. Sediment surveys confirmed that ponds with greater surface areas contain higher volumes of sediment. Additionally, older ponds and ponds abandoned by beavers stored higher volumes of sediment compared to recently constructed ponds, ponds actively maintained by beaver, and beaver mimicry structures. These findings demonstrate that beaver ponds and mimicry structures may function as sediment sinks capable of attenuating post‐fire sediment. The biogeomorphic context, defined across multiple scales from the pond to the catchment, provides additional explanation for the wide range of sediment storage observed and remains an important consideration for beaver‐based restoration, catchment sediment management, and resilience evaluation. [ABSTRACT FROM AUTHOR]

Published

2024

3. Improving the efficiency of aerial surveys for monitoring North American beaver population dynamics.

Author

Kenyon, Madeline, Dennison, Catherine C., and Popescu, Viorel D.

Abstract

Context. The North American beaver (Castor canadensis) was extirpated from much of its range in the US in the 1800s due to fur trapping and change in land use. However, the species has recolonised much of its former range, including the US state of Ohio. Since 2013, the Ohio Division of Wildlife (ODOW) has monitored trends in beaver colony density via aerial surveys of 40 km × 40 km plots classified as low, medium, or high suitability based on the amount of wetland. Nonetheless, the current classification system may miss important correlates of beaver colony density. Aims. Our study aimed to (1) identify predictors of beaver colony density (number of colonies inferred from aerial counts of lodges) across Ohio, and (2) develop a model-based classification system to improve the efficacy of monitoring efforts. Methods. To predict beaver colony density in Ohio we used an aerial survey dataset of 54 plots (40 km × 40 km) collected by ODOW annually between 2013 and 2020, along with a suite of environmental, anthropogenic, and climate variables in a mixed effects modelling framework. Key results. Beaver colony density was positively associated with wetland and reclaimed surface mine areas and inversely associated with the proportion of agricultural lands. There was a negative interaction between wetland and surface mines; in general, beaver colony density increased with wetland and surface mine area. However, in plots with wetland area >1000 ha, beaver colony density was weakly negatively associated with surface mine area. Using median and interquartile ranges of model-averaged predicted beaver colony density, we developed a new classification of low, moderate and high suitability for both the survey plots and the entire state of Ohio. We found that eastern Ohio had high suitability, while the central and western parts of the state had lower suitability for C. canadensis. Conclusions. Our approach to identifying predictors for beaver colony density at broad spatial scales highlights the importance of reclaimed surface mines and wetlands for beaver populations, while the model-based habitat classification provides ODOW additional information for monitoring and beaver management decisions. Implications. Improved C. canadensis monitoring at the landscape scale using habitat classifications that consider local conditions can both improve annual survey cost-effectiveness and facilitate the sustainable management of this recovering species. [ABSTRACT FROM AUTHOR]

Published

2024

4. Current State, Environment-Forming Activity and Long-Term Forecast of Number Dynamics of Beavers (Castor fiber Linnaeus, 1758) (Rodentia: Castoridae) in the Eastern Part of the Polistovo-Lovatskaya Bog System (Novgorod Oblast).

Author

Zavyalov, N. A., Zueva, N. V., and Petrosyan, V. G.

Abstract

The results of a 20-year monitoring of beavers (Castor fiber) in the eastern part of the Polistovo-Lovatskaya bog system are presented. The animal's and settlements spatial distributions across different types of water bodies are discussed, and the population density and the impact of beavers on the vegetation of the bog system on the northern and eastern borders of the Rdeysky State Nature Reserve are presented. The forecast of long-term dynamics of the beaver population indicates the maximum possible capacity of the environment in the Rdeysky Nature Reserve. Model estimates indicate that beavers will remain a permanent component of ecosystems for at least the next 200 years; hence, their impact on different components of ecosystems will continue. [ABSTRACT FROM AUTHOR]

Published

2024

5. Eager about beavers? Understanding opposition to species reintroduction, and its implications for conservation.

Author

Holmes, George, Rowland, Gabriel, and Fox, Katherine

Subjects

KEYSTONE species, INTRODUCED species, TRUST, BEAVERS, LAND management

Abstract

The range of keystone species is increasing in some parts of the world, particularly Europe, through a combination of natural recolonization, government‐sanctioned and covert reintroductions. Reintroductions are an important conservation tool, particularly in the increasingly popular approach of rewilding.There is relatively little understanding of the politics, broadly conceived, of species reintroduction, particularly around how people who live alongside these newly introduced species might react, and what underpins this reaction, and how the method of reintroduction affects reactions.Here, we explore these issues through a case of beavers in central Scotland, which were covertly reintroduced. We explore opposition to reintroduction as manifest in beaver killing and dam destruction by land managers, quantifying these using the sensitive 'bean count' method.We also explore what underpins land managers' reactions, particularly their views and values around land and land management.We found considerable resistance. We found that beaver killing and dam destruction were widespread, both before and after beavers became a protected species. Nevertheless, beaver populations and ranges in Scotland continue to grow.We found attitudes were grounded in a strong set of relational values around land custodianship. We find a range of views towards beavers, including widespread opposition, particularly regarding the covert nature of beaver introduction, the challenge beavers and beaver protection provide to ideas of proper land management and custodianship, and a lack of trust in formal methods of beaver governance.We argue that species reintroductions policies and research should give careful consideration to potential opposition, its material impacts on reintroduction projects and how it is grounded in wider environmental values and politics. Read the free Plain Language Summary for this article on the Journal blog. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

6. COMPARATIVE EVALUATION OF QUALITY PARAMETERS OF CANNED BEAVER AND NUTRIA.

Author

Jan, Slováček, Šárka, Nedomová, Miroslav, Jůzl, Andrea, Roztočilová, Adam, Kovál, and Ondřej, Mikulka

Subjects

BEAVERS, FOOD safety, MEAT, INTRODUCED species

Abstract

This study evaluated the chemical, physical and sensory properties of canned beaver and nutria. These animals are currently hunted not for their meat, but to reduce their numbers in the wild. The situation is complicated by the fact that both species are on the relevant lists. However, while the beaver is a protected animal, the nutria is an invasive species. This leads to complications in the application of the relevant legislation. Hunters are therefore limited in what they can do with the meat of these species. The chemical composition of the products did not differ (p > 0.05). Canned beaver was the darkest (p < 0.05) product and canned nutria the softest (p < 0.05). Both meat products were sensory acceptable and no off-odour or off-flavour was perceived. Canning meat is something that hunters can easily do at home, and the resulting product meets all the requirements for food safety. [ABSTRACT FROM AUTHOR]

Published

2024

7. Estimating Increased Transient Water Storage with Increases in Beaver Dam Activity.

Author

Hafen, Konrad C., Wheaton, Joseph M., Roper, Brett B., Bailey, Philip, Macfarlane, William W., Neilson, Bethany T., and Tennant, Christopher J.

Subjects

BEAVERS, WATER storage, DAMS, DAM design & construction, WATER table, WATERSHEDS

Abstract

Dam building by beaver (Castor spp.) slows water movement through montane valleys, increasing transient water storage and the diversity of residence times. In some cases, water storage created by beaver dam construction is correlated to changes in streamflow magnitude and timing. However, the total amount of additional surface and groundwater storage that beaver dams may create (and, thus, their maximum potential impact on streamflow) has not been contextualized in the water balance of larger river basins. We estimate the potential transient water storage increases that could be created at 5, 25, 50, and 100% of maximum modeled beaver dam capacity in the Bear River basin, USA, by adapting the height above nearest drainage (HAND) algorithm to spatially estimate surface water storage. Surface water storage estimates were combined with the MODFLOW groundwater model to estimate potential increases in groundwater storage throughout the basin. We tested four scenarios to estimate potential transient water storage increases resulting from the construction of 1179 to 34,897 beaver dams, and estimated surface water storage to range from 57.5 to 72.8 m3 per dam and groundwater storage to range from 182.2 to 313.3 m3 per dam. Overall, we estimate that beaver dam construction could increase transient water storage by up to 10.38 million m3 in the Bear River basin. We further contextualize beaver dam-related water storage increases with streamflow, reservoir, and snowpack volumes. [ABSTRACT FROM AUTHOR]

Published

2024

8. Is membrane androgen and estrogen receptor signaling imperative in the governing function of the adrenal cortex in the Eurasian beaver (Castor fiber L.)?

Author

Lonc, G., Hrabia, A., Krakowska, I., Korzekwa, A. J., Zarzycka, M., Wolak, D., Wajdzik, M., and Kotula‐Balak, M.

Subjects

ADRENAL cortex, ANDROGEN receptors, EUROPEAN beaver, ESTROGEN receptors, G protein coupled receptors

Abstract

There is a need to fully know the physiology of Eurasian beaver due to its essential role in environmental homeostasis. However, a "human factor" impacts this, including stress conditions and environmental pollution. Adrenal glands protect these all. The regulation of endocrine processes by nonclassical androgen and estrogen signaling, the first and fastest control, is still a matter of research. The specific analyses performed here in mature female and male beaver adrenals contained: anatomical and histological examinations, expression and localization of membrane androgen receptor (zinc transporter, Zinc‐ and Iron‐like protein 9; ZIP9) and membrane estrogen receptor coupled with G protein (GPER), and measurement of zinc (Zn2+) and copper (Ca2+) ion levels and corticosterone levels. We revealed normal anatomical localization, size, and tissue histology in female and male beavers, respectively. Equally, ZIP9 and GPER were localized in the membrane of all adrenal cortex cells. The protein expression of these receptors was higher (p < 0.001) in male than female adrenal cortex cells. Similarly, Zn2+ and Ca2+ ion levels were higher (p < 0.05, p < 0.01) in male than female adrenal cortex. The increased corticosterone levels (p < 0.001) were detected in the adrenal cortex of females when compared to males. The present study is the first to report the presence of nonclassical androgen and estrogen signaling and its possible regulatory function in the adrenal cortex of Eurasian beavers. We assume that this first‐activated and fast‐transmitted regulation can be important in the context of the effect of environmental physical and chemical stressors especially on adrenal cortex cells. The beaver adrenals may constitute an additional supplementary model for searching for universal mechanisms of adrenal cortex physiology and diseases. Highlights: There are no sex‐specific changes in the anatomy and histology of Eurasian beavers.Expression of ZIP9 and GPER is higher in males.Zn2+ and Ca2+ levels were higher in males.The corticosterone levels are higher in females. [ABSTRACT FROM AUTHOR]

Published

2024

9. The Impact of Beaver Dams on the Dynamic of Groundwater Levels at Łąki Soleckie.

Author

Bajkowski, Sławomir, Oleszczuk, Ryszard, Urbański, Janusz, Jadczyszyn, Jan, and Kiraga, Marta

Abstract

Areas excluded from agricultural production are susceptible to the presence of beaver families. The most significant changes occur during the initial period, when agricultural utilization is abandoned and beavers establish their presence on the land. During this period, some parcels remain uncultivated, while agricultural activities persist in neighboring areas. This situation is accompanied by the destruction of beaver dams, especially during periods of abundant water resources, and notably during intensive fieldwork. The article presents field studies aimed at determining the extent to which constructed and operational beaver dams contribute to changes in groundwater levels in drained peatland areas. In order to protect and sustainably use peat soils, it is necessary to maintain their high moisture content by ensuring a high groundwater level elevation. This can be achieved through the use of existing damming structures in the area (levees, weirs). Beaver dams can also serve a similar function, blocking the outflow of water from peat lands by raising the water level and consequently retaining it naturally. The specific objective was to develop principles for verifying factors influencing the effects of beaver dam construction on groundwater levels in fields within their range of influence. The water table levels within the study area during rainless periods were influenced by water levels in ditches, dependent on beaver activity in the nearby river. Beaver activities, manifested through dam construction, were influenced by periodic water resources in the river, defined by the cumulative monthly precipitation. Factors affecting groundwater levels in rainless periods on the plots also included the distance from the river cross-section and the permeability of soils expressed by the filtration coefficient of the active layer. Beaver dams had the greatest impact on stabilizing the water table in the soil profile closest to the river. [ABSTRACT FROM AUTHOR]

Published

2024

10. Beaver dam analogs did not improve beaver translocation outcomes in a desert river.

Author

Sandbach, Christine, Young, Julie K., Conner, Mary, Hansen, Emma, and Budy, Phaedra

Subjects

BEAVERS, STREAM restoration, NATURAL numbers, WATERSHEDS, DAMS, DESERTS

Abstract

Stream restoration programs employ beaver‐related restoration techniques, including beaver translocations and installation of beaver dam analogs (BDA), to create complex in‐stream habitat. We investigated whether BDA installations improved the probability of translocated beavers surviving and colonizing a section of a degraded desert river. We translocated beavers fitted with tracking devices to the Price River, Utah, United States, for 2 years before and after BDAs were installed. We monitored survival and site fidelity of beavers to estimate apparent survival (φ), using model selection to evaluate models with BDA, flow, and other factors hypothesized to relate to apparent survival. We found similar apparent survival 8 weeks post‐release of pre‐BDA (φ = 0.50 ± 0.08 SE) and post‐BDA beavers (φ = 0.41 ± 0.06 SE). There were 15 predator‐caused mortalities and 39 beavers emigrated out of the study site. Top models indicated apparent survival was negatively related to mean flow. Of the 70 BDAs constructed, beaver activity was detected on only two structures and the number of intact natural dams decreased due to monsoon floods. Our results suggest BDAs may not improve survival and site fidelity of translocated beavers in desert river systems. Instead, the dynamic flow of desert rivers and negative relationship between flow and apparent survival suggest the timing of release may be an important consideration for successful beaver translocation. Additional research is needed to understand how habitat, food availability, individual behavior, and resident conspecifics influence beaver translocation success. [ABSTRACT FROM AUTHOR]

Published

2024

11. Pike Mercury Concentration in Small Boreal Headwater Lakes During Four Decades of Regional and Local Changes.

Author

Rask, Martti, Malinen, Tommi, Nyberg, Kari, Olin, Mikko, Kurkilahti, Mika, Blauberg, Tarja-Riitta, Salonen, Maiju, Vesala, Sami, Ruuhijärvi, Jukka, Tiainen, Joni, Vuorenmaa, Jussi, Lodenius, Martin, Arzel, Celine, Nummi, Petri, Kahilainen, Kimmo K., Verta, Matti, and Arvola, Lauri

Subjects

ACID deposition, LAKES, MERCURY, IRON, GREENHOUSE gas mitigation, BEAVERS

Abstract

We measured the total mercury (THg) concentration in the muscle of northern pike (Esox lucius L.) from 12 boreal headwater lakes once per decade during the 1980s to 2010s. Relations of pike THg to regional environmental changes, such as reduction of acid deposition and increase in water colour (i.e. browning), were examined as well as the effects of local lake-specific changes caused by introduced beavers (Castor canadensis) and intensive fishing of pike. No consistent decrease in pike THg took place during 1983–2013 despite the reductions in mercury emissions from European sources since the 1990s and the associated decreased mercury deposition in Finland. In most of the lakes, individual pike exceeded the recommended limit for human consumption (1 mg kg−1, wet weight). The highest THg levels were recorded in 2002 following intensive browning of the lakes in the 1990s in connection with decreased sulphate deposition. The effects of acid deposition were only seen as the highest pike THg in the two most acidic lakes in the early 1980s. After taking length effects into account, pike THg had a negative relationship with growth (i.e. growth dilution), but a positive relationship with water colour, iron, nutrients and maximum lake depth. Females grew faster and had lower THg than males. Pike THg was elevated in beaver-impacted lakes. Experimental removal of pike from three study lakes during 2005–2013 resulted in a decrease of pike THg. These findings emphasize the significance of local abiotic and biotic drivers when interpreting the regional long-term trends in pike THg. [ABSTRACT FROM AUTHOR]

Published

2024

12. Population dynamics of the threatened Oregon spotted frog before and after drought mitigation.

Author

Rowe, Jennifer C., Pearl, Christopher A., Duarte, Adam, McCreary, Brome, and Adams, Michael J.

Subjects

POPULATION dynamics, DROUGHTS, WATER springs, FROG populations, FROGS, WATERLOGGING (Soils)

Abstract

Amphibians are among the most sensitive taxa to climate change, and species inhabiting arid and semiarid landscapes at the extremes of their range are especially vulnerable to drought. The Jack Creek, Oregon, USA, population of Oregon spotted frogs (Rana pretiosa) faces unique challenges because it occupies the highest elevation site in the species' extant range and one that has been transformed by loss of American beavers (Castor canadensis), which historically maintained open water. We evaluated the effects of drought mitigation (addition of excavated ponds) on relationships between local and regional water availability, inactive legacy beaver dams, and Oregon spotted frog population dynamics in the Jack Creek system. We conducted egg mass surveys and capture‐mark‐recapture sampling at a treatment reach with excavated ponds and 3 reference reaches over 13 years; surveys spanned a period before and after pond excavation at the treatment and 1 primary comparison reference reach. We analyzed data using a combination of robust design capture‐mark‐recapture estimators and generalized linear mixed models to characterize population dynamics. Adult Oregon spotted frog survival was approximately 19.5% higher at the treatment reach than the primary reference reach during the study period. Annual survival was most strongly associated with late summer vegetation greenness, a proxy for water availability, and males had higher survival than females. Among the 4 study reaches, the treatment reach consistently had higher late summer vegetation greenness, and the hydrology functioned more independently of regional precipitation patterns relative to the reference reaches; however, these dynamics were not linked to pond excavation. Breeding was concentrated in 2 legacy beaver ponds that were deepened by excavation during the study compared to an unexcavated beaver pond, 2 excavated ponds without legacy beaver dams, and 9 reference ponds. These results point to the benefit of enhancing existing beaver structures and indicate that management actions aimed at maintaining surface water for breeding in spring and saturated soils and ponded water for adults in late summer would benefit this unique population of Oregon spotted frogs in the face of drought. [ABSTRACT FROM AUTHOR]

Published

2024

13. OBSERVATION OF EURASIAN BEAVER (CASTOR FIBER L.) IN THE JOPIĆEVA CAVE (CROATIA).

Author

Baković, Najla, Bosner, Nela, and Baković, Robert

Subjects

EUROPEAN beaver, KARST, BEAVERS, NATIONAL parks & reserves, LAKES

Abstract

Copyright of Natura Croatica is the property of Natura Croatica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

14. The Cornwall Beaver Project: navigating the social-ecological complexity of rewilding as a nature-based solution.

Author

Jones, Mike and Jones, Chris

Subjects

FLOOD risk, BEAVERS, LARGE scale systems, LITERATURE reviews, RESTORATION ecology, DAM design & construction, EXPERIENTIAL learning

Abstract

The story of the Cornwall Beaver Project is presented as the foundation of a review of the literature to consider the effects of beavers on geomorphological and hydrological processes, habitats, biodiversity, and people in agricultural landscapes in the UK. The review includes a comparison of the principles for rewilding as an approach to ecological restoration with IUCNs principles for Nature-based Solutions together with a summary of beaver reintroduction in Europe, and the impacts of beavers on hydrological and geomorphological processes, biodiversity and the human-wildlife conflict that arises from reintroduction. We note that rewilding principles require a paradigm shift in the relationship between humans and the rest of nature and a corresponding application of systems thinking to research, practice and policy. The combination of experiential and formal knowledge is assessed using a social-ecological systems framework to consider the potential of beavers to mitigate climate change impacts on agricultural landscapes in the UK and how rewilders might navigate the social complexity of beaver reintroduction to achieve large scale system transformation. We discuss the different lines of evidence about the impacts of beavers on landscapes as viewed through a system lens and conclude that: (1) beaver dams have considerable potential to store water but their ability to reduce flood risk is difficult to assess because of the complex interactions between the material available for dam construction, geomorphology, and the duration, extent and intensity of rainfall events; (2) beaver dams, especially when combined with buffer zones along water courses have considerable potential to enhance the resilience of agricultural landscapes and support a shift from intensive to agroecological farming; (3) scaling beaver reintroduction will evolve with the application of policies and practices that enhance the ability of land users to adapt and learn how to coexist with beavers. Our review proposes a low conflict strategy for rewilding with beavers that includes changes from a policy of conflict avoidance to a proactive policy to support practices that apply the tools of social-ecological systems science to the body of knowledge about the interactions between beavers and their environment. [ABSTRACT FROM AUTHOR]

Published

2023

15. Morphological and molecular identification of adult Stichorchis subtriquetrus in beaver in Slovakia.

Author

Lazár, Jozef, Šmigová, Júlia, Šmiga, Ľubomír, Lazár, Peter, Čurlík, Ján, and Papajová, Ingrid

Abstract

The European beaver (Castor fiber) was a fully eradicated species in Slovakia. Thanks to year-round protection and several different reintroduction programs the population is now increasing. However, there are limited reports about their health status. A 2-year-old female European beaver, was found dead by road near town Hanušovce nad Topľou in eastern Slovakia in 2021. Necropsy was carried out at the Department of Breeding and Diseases of the Game, Fish and Bees, Ecology and Cynology, University of Veterinary Medicine and Pharmacy in Košice. Necropsy revealed a total of 13 trematodes, collected from the caecum and colon. Based on morphological and molecular analysis digenean trematode Stichorchis subtriquetrus (Rudolphi, 1814) was identified. This is the first record of adult helminth Stichorchis subtriquetrus in beaver in Slovakia. [ABSTRACT FROM AUTHOR]

Published

2023

16. Factors affecting site selection by beavers colonizing streams in the upper Midwest region of the United States.

Author

Rugg, David J., Ribic, Christine A., Donner, Deahn M., Beck, Albert J., Wolcott, Daniel M., Reinecke, Sue, and Eklund, Dan

Subjects

BEAVERS, COLONIZATION (Ecology), HABITAT selection, FOREST reserves, GEOMORPHOLOGY

Abstract

Beaver management requires understanding beaver habitat preferences. Despite the American beaver (Castor canadensis Kuhl, 1820) being relatively common in the upper Midwest region of the United States, there are no beaver habitat relationship models based on this area. We used 1735 colonization events from long-term monitoring data generated by the Chequamegon-Nicolet National Forest in northern Wisconsin, USA, to determine what geomorphological and biological factors were selected by beavers colonizing new sites. We developed and evaluated prediction performance for three colonization models: geomorphology factors only, geomorphology and vegetation factors, and a full colonization model based on geomorphology, vegetation, and availability of dispersing beavers. Overall, the geomorphology–vegetation–colonizer model was the best model, predicting actual colony locations better than the other two models. Spatially, the landscape open to beaver colonization was a mosaic of streams with suitable and unsuitable habitat. These models improve our understanding of how beaver site selection factors in the upper Midwest region differ from factors identified in the literature for the western and eastern United States. This information may be useful for land managers in this region seeking to spatially target resources for restoring northern forest landscapes such as the Chequamegon-Nicolet National Forest. [ABSTRACT FROM AUTHOR]

Published

2023

17. Should individual animals be given names in wildlife reintroductions?

Author

Auster, Roger Edward, Puttock, Alan, Bradbury, Gareth, and Brazier, Richard

Subjects

WILDLIFE reintroduction, ANIMAL species, EUROPEAN beaver, DISTRACTION, DOMESTIC animals, ZOOLOGICAL nomenclature, PERIODICAL articles

Abstract

Individual animals are often given names by humans. For example, names are attributed to domestic animals to acknowledge their closeness to people, some research studies use names to identify differences between individuals in a study group, or zoos often use names to tell stories that attract public or media attention.Publicly naming individual animals can provide opportunities in conservation, but there are also risks. In this perspective we exemplify such opportunities and risks in the context of wildlife reintroductions. We draw on examples and observations from our experience researching Eurasian beaver Castor fiber reintroduction in England, to encourage careful thinking before publicly attributing a name to an individual in reintroduction projects.Naming individuals in reintroduction can: be a low‐cost engagement tool; help people relate to unfamiliar reintroduced species; encourage local ownership of reintroduction projects; enable an effective tool for communicating information about the species and ways to coexist; or support creative or cultural expression.Yet naming individuals in reintroduction could: risk misrepresentation of natural species characteristics; make it challenging to normalise the sense that the reintroduced species is a wild animal; unintentionally imply that humans have ownership or power over the animal; cause distraction from establishing viable populations due to focus on the individual; or result in human investment in individual animals, which may have influence on reintroduction outcomes if that animal later comes to harm or dies (naturally or otherwise).Synthesis and Applications. We argue there is more to the act of naming individuals than may first appear. If considering doing so, we call for careful thought about whether it is appropriate and how to go about it. While we intentionally refrain from concluding whether 'to name or not to name', we call for careful, informative, message framing that takes advantage of the opportunities and is prepared for future circumstances, when naming of individuals does take place. Read the free Plain Language Summary for this article on the Journal blog. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2023

18. Comparing translocated beavers used as passive restoration tools to resident beavers in degraded desert rivers.

Author

Doden, E., Budy, P., Conner, M., and Young, J. K.

Subjects

BEAVERS, STREAM restoration, RESTORATION ecology, DESERTS, SURVIVAL rate, DAMS

Abstract

Wildlife translocation facilitates conservation efforts, including recovering imperiled species, reducing human–wildlife conflict, and restoring degraded ecosystems. Beaver (American, Castor canadensis; Eurasian, C. fiber) translocation may mitigate human–wildlife conflict and facilitate ecosystem restoration. However, few projects measure outcomes of translocations by monitoring beaver postrelease, and translocation to desert streams is relatively rare. We captured, tagged, and monitored 47 American beavers (hereafter, beavers) which we then translocated to two desert rivers in Utah, USA, to assist in passive river restoration. We compared translocated beaver site fidelity, survival, and dam‐building behavior to 24 resident beavers. We observed high apparent survival (i.e., survived and stayed in the study site) for eight weeks postrelease of resident adult beavers (0.88 ± 0.08; standard error) and lower but similar apparent survival rates between resident subadult (0.15 ± 0.15), translocated adult (0.26 ± 0.12), and translocated subadult beavers (0.09 ± 0.08). Neither the pre‐ nor the post‐translocation count of river reaches with beaver dams were predicted well by the Beaver Restoration Assessment Tool, which estimates maximum beaver dam capacity by river reach, suggesting beaver‐related restoration is not maximized in these rivers. Translocated beavers exhibited similar characteristics as resident subadult beavers during dispersal; they were more vulnerable to predation and many emigrated from the study sites. High mortality and low site fidelity should be anticipated when translocating beavers, but even so, translocation may have contributed to additional beaver dams in the restoration sites, which is the common goal of beaver‐assisted river restoration. Multiple releases at targeted restoration sites may eventually result in establishment and meet conservation objectives for desert rivers. [ABSTRACT FROM AUTHOR]

Published

2023

19. EEAGER: A Neural Network Model for Finding Beaver Complexes in Satellite and Aerial Imagery.

Author

Fairfax, Emily, Zhu, Eric, Clinton, Nicholas, Maiman, Stefania, Shaikh, Aman, Macfarlane, William W., Wheaton, Joseph M., Ackerstein, Dan, and Corwin, Eddie

Subjects

MACHINE learning, REMOTE-sensing images, BEAVERS, LANDSCAPE assessment, STREAM restoration, IMAGE recognition (Computer vision), RIPARIAN areas

Abstract

Beavers are ecosystem engineers that create and maintain riparian wetland ecosystems in a variety of ecologic, climatic, and physical settings. Despite the large‐scale implications of ongoing beaver conservation and range expansion, relatively few landscape‐scale studies have been conducted, due in part to the significant time required to manually locate beaver dams at scale. To address this need, we developed EEAGER—an image recognition machine learning model that detects beaver complexes in aerial and satellite imagery. We developed the model in the western United States using 13,344 known beaver dam locations and 56,728 nearby locations without beaver dams. Performance assessment was performed in twelve held out evaluation polygons of known beaver occupancy but previously unmapped dam locations. These polygons represented regions similar to the training data as well as more novel landscape settings. Our model performed well overall (accuracy = 98.5%, recall = 63.03%, precision = 25.83%) in these areas, with stronger performance in regions similar to where the model had been trained. We favored recall over precision, which results in a more complete catalog of beaver dams found but also a higher incidence of false positives to be manually removed during quality control. These results have far‐reaching implications for monitoring of beaver‐based river restoration, as well as potential applications detecting other complex landforms. Plain Language Summary: Beavers are ecosystem engineers that can dramatically change the shape of the landscape and how water moves through it. They create and maintain wetland environments across North America in a wide variety of places, including mountains, deserts, coasts, forests, grasslands, shrublands, etc. Despite their large influence on the landscape, there are very few programs that monitor them at the landscape scale. This is partially due to how much time it takes to find and identify beaver dams in satellite and aerial images. To make it easier for us to find and understand the influence of beavers at larger scales, we built a model that can automatically find beaver dams in satellite and aerial imagery. While our model is trained to find beaver dams, this type of model has promise for finding other landscape features too. Key Points: Tracking the distribution and range of ecosystem engineers like beavers is increasingly important under a changing climateA neural network machine learning model can be trained to find and identify beaver dams in aerial and satellite imagery automaticallyThis type of machine learning model may have applications for finding other landforms where geospatial context is an important input [ABSTRACT FROM AUTHOR]

Published

2023

20. Temporal variation in translocated Isle Royale wolf diet.

Author

Sovie, Adia R., Romanski, Mark C., Orning, Elizabeth K., Marneweck, David G., Nichols, Rachel, Moore, Seth, and Belant, Jerrold L.

Subjects

WOLVES, BIOTIC communities, ANIMAL sexual behavior, MOOSE, DIET, UNGULATES

Abstract

Wolves (Canis lupus) can exert top‐down pressure and shape ecological communities through the predation of ungulates and beavers (Castor spp.). Therefore, understanding wolf foraging is critical to estimating their ecosystem‐level effects. Specifically, if wolves are consumers that optimize tradeoffs between the cost and benefits of prey acquisition, changes in these factors may lead to prey‐switching or negative‐density dependent selection with potential consequences for community stability. For wolves, factors affecting cost and benefits include prey vulnerability, risk, reward, and availability, which can vary temporally. We described the wolf diet by the frequency of occurrence and percent biomass and characterized the diet using prey remains found in wolf scats on Isle Royale National Park, Michigan, USA, during May–October 2019 and 2020. We used logistic regression to estimate prey consumption over time. We predicted prey with temporal variation in cost (availability and/or vulnerability) such as adult moose (Alces alces), calf moose, and beaver (Castor canadensis) to vary in wolf diets. We analyzed 206 scats and identified 62% of remains as beaver, 26% as moose, and 12% as other species (birds, smaller mammals, and wolves). Adult moose were more likely to occur in wolf scats in May when moose are in poor condition following winter. The occurrence of moose calves peaked during June–mid‐July following birth but before calf vulnerability declined as they matured. By contrast, beaver occurrence in wolf scat did not change over time, reflecting the importance of low‐handling cost prey items for recently introduced lone or paired wolves. Our results demonstrate that the wolf diet is responsive to temporal changes in prey costs. Temporal fluctuation in diet may influence wolves' ecological role if prey respond to increased predation risk by altering foraging or breeding behavior. [ABSTRACT FROM AUTHOR]

Published

2023

21. Distribution of Elements in Beaver (Castor fiber) Tooth Enamel as a Sign of Environmental Adaptation: the Special Role of Fe, Co, Mg, and Fluorides (F−).

Author

Machoy-Mokrzyńska, Anna, Kupnicka, Patrycja, Barczak, Katarzyna, Korbecki, Jan, Gutowska, Izabela, Sobolewska, Ewa, Chlubek, Dariusz, and Baranowska-Bosiacka, Irena

Abstract

The aim of the study was to investigate the distribution of elements (Ca, Mg, Fe, P, Zn, Na, K, Cu, Cr, Mo, Co, Se) analyzed using inductively coupled plasma optical emission spectrometry (ICP-OES) and fluorides (F−) determined potentiometrically using an ion-selective electrode in the enamel of European beaver (Castor fiber) teeth. Material for the study was tooth enamel collected from lower jaws from the skulls of the animals borrowed from museum collections (animals inhabited north-western Poland). The results of our study indicate the important role of F− as an element that can affect the hardness and strength of beaver tooth enamel. Critical to the function of beaver teeth (i.e., shearing and crushing wood) is the presence of elements such as Fe in the central incisor labial aspect (orange layer of the incisor enamel), Mg in the inner side of the incisor enamel, and Co and F− in the enamel of the molars. Thanks to the high content of these elements, the enamel is durable and the teeth are adapted to the nutritional and ecological characteristics of this mammalian species. Our study on the distribution of elements in the enamel of beaver teeth may also be important for the understanding of the enamel mineralization processes, determining how elements change the properties of the materials, and exploring the relationship between the environment and life history of the beaver. [ABSTRACT FROM AUTHOR]

Published

2023

22. Exploring the dynamics of flow attenuation at a beaver dam sequence.

Author

Graham, Hugh A., Puttock, Alan K., Elliott, Mark, Anderson, Karen, and Brazier, Richard E.

Subjects

BEAVERS, DAMS, STREAMFLOW, EUROPEAN beaver, DAM design & construction, WETLANDS, WATERSHEDS

Abstract

Beavers influence hydrology by constructing woody dams. Using a Before After Control Impact experimental design, we quantified the effects of a beaver dam sequence on the flow regime of a stream in SW England and consider the mechanisms that underpin flow attenuation in beaver wetlands. Rainfall‐driven hydrological events were extracted between 2009 and 2020, for the impacted (n = 612) and control (n = 634) catchments, capturing events 7 years before and 3 years after beaver occupancy, at the impacted site. General additive models were used to describe average hydrograph geometry across all events. After beaver occupancy, Lag times increased by 55.9% in the impacted site and declined by 17.5% in the control catchment. Flow duration curve analysis showed a larger reduction in frequency of high flows, following beaver dam construction, with declines of Q5 exceedance levels of 33% for the impacted catchment and 15% for the control catchment. Using event total rainfall to predict peak flow, five generalized linear models were fitted to test the hypothesis that beaver dams attenuate flow, to a greater degree, with larger storm magnitude. The best performing model showed, with high confidence, that beaver dams attenuated peak flows, with increasing magnitude, up to between 0.5 and 2.5 m3 s−1 for the 94th percentile of event total rainfall; but attenuation beyond the 97th percentile cannot be confidently detected. Increasing flow attenuation, with event magnitude, is attributed to transient floodplain storage in low gradient/profile floodplain valleys that results from an increase in active area of the floodplain. These findings support the assertion that beaver dams attenuate flows. However, with long‐term datasets of extreme hydrological events lacking, it is challenging to predict the effect of beaver dams during extreme events with high precision. Beaver dams will have spatially variable impacts on hydrological processes, requiring further investigation to quantify responses to dams across differing landscapes and scales. [ABSTRACT FROM AUTHOR]

Published

2022

23. Beaver: The North American freshwater climate action plan.

Author

Jordan, Chris E. and Fairfax, Emily

Subjects

CLIMATE change mitigation, BEAVERS, WILDLIFE conservation, STREAM restoration, FRESH water, DROUGHTS, NATURE conservation

Abstract

Rivers and streams, when fully connected to their floodplains, are naturally resilient systems that are increasingly part of the conversation on nature‐based climate solutions. Reconnecting waterways to their floodplains improves water quality and quantity, supports biodiversity and sensitive species conservation, increases flood, drought and fire resiliency, and bolsters carbon sequestration. But, while the importance of river restoration is clear, beaver‐based restoration—for example, strategic coexistence, relocation, and mimicry—remains an underutilized strategy despite ample data demonstrating its efficacy. Climate‐driven disturbances are actively pushing streams into increasingly degraded states, and the window of opportunity for restoration will not stay open forever. Therefore, now is the perfect time to apply the science of beaver‐based low‐tech process‐based stream restoration to support building climate resilience across the landscape. Not every stream will be a good candidate for beaver‐based restoration, but we have the tools to know which ones are. Let us use them. This article is categorized under:Science of Water > Hydrological ProcessesWater and Life > Nature of Freshwater EcosystemsWater and Life > Conservation, Management, and Awareness [ABSTRACT FROM AUTHOR]

Published

2022

24. Relocated beaver can increase water storage and decrease stream temperature in headwater streams.

Author

Dittbrenner, Benjamin J., Schilling, Jason W., Torgersen, Christian E., and Lawler, Joshua J.

Subjects

WATER temperature, WATER storage, BEAVERS, WATER supply, STREAMFLOW, PONDS, WATER table

Abstract

Many areas are experiencing increasing stream temperatures due to climate change, and some are experiencing reduced summer stream flows and water availability. Because dam building and pond formation by beaver can increase water storage, stream cooling, and riparian ecosystem resilience, beaver have been proposed as a potential climate adaption tool. Despite the large number of studies that have evaluated how beaver activity may affect hydrology and water temperature, few experimental studies have quantified these outcomes following beaver relocation. We evaluated changes in temperature and water storage following the relocation of 69 beaver into 13 headwater stream reaches of the Skykomish River watershed within the Snohomish River basin, Washington, USA. We evaluated how beaver dams affected surface and groundwater storage and stream temperature. Successful relocations created 243 m3 of surface water storage per 100 m of stream in the first year following relocation. Dams raised water table elevations by up to 0.33 m and stored approximately 2.4 times as much groundwater as surface water per relocation reach. Stream reaches downstream of dams exhibited an average decrease of 2.3°C during summer base‐flow conditions. We also assessed how dam age, condition, maintenance frequency, and pond morphology influenced stream temperature at naturally colonized wetland complexes. Our findings demonstrate that dam building can increase water storage and reduce stream temperatures in the first year following successful beaver relocation. Fluvial and floodplain morphology of candidate reaches for relocation is an important consideration because it determines the type and magnitude of response. Relocation to reaches with existing small, abandoned ponds may address thermal criteria by conversion from warming to cooling reaches, whereas relocation within large, abandoned complexes or vacant habitat may result in greater water storage. Although beaver relocation can be an effective climate adaptation strategy to retain more stable hydrologic regimes and water quality in our study area, there appear to be regionally specific environmental and geomorphic factors that influence how beaver affect water storage and temperature. More research is needed to investigate how and why these regional differences affect water storage and stream temperature response in beaver‐influenced systems. [ABSTRACT FROM AUTHOR]

Published

2022

25. Estimating widespread beaver dam loss: Habitat decline and surface storage loss at a regional scale.

Author

Scamardo, Julianne E., Marshall, Sarah, and Wohl, Ellen

Subjects

BEAVERS, DAM failures, DAMS, HABITATS, ECOSYSTEMS, WATER table, WATER storage

Abstract

The loss of beaver populations has commonly been accompanied by the failure of beaver dams, leading to stream incision, water table lowering, and the eventual transition from a beaver meadow to a drier riparian corridor. Widespread decline in North American beaver populations (Castor canadensis) has been documented from pre‐European settlement to the current day, representing an estimated 80% to 98% loss of historical populations. While individual case studies have investigated the ecosystem impacts of local beaver population loss, few studies have quantified large‐scale changes associated with widespread population decline. Here, we use the Beaver Restoration Assessment Tool to model landscape‐scale habitat suitability and beaver dam capacity in Colorado, USA, in order to determine whether a widespread loss in beaver population corresponds to a similar scale decline in the capacity to sustain beaver on the landscape and declines in physical benefits associated with beaver, such as surface water and sediment storage. Currently, the statewide stream network (298,119 stream kilometers) can support approximately 1.36 million beaver dams, compared with 2.39 million dams historically. All regions of Colorado have seen a decline in beaver dam capacity from historical conditions, likely due to agriculture, urbanization, and loss of vegetation necessary to beaver. Beaver dam capacity loss is accompanied by an approximate 40% decline in beaver‐mediated surface water and sediment storage potential across the state. Regions with high percent loss in storage potentials also had a high percentage of drainage network that had experienced beaver dam capacity losses of 15 or more dams per kilometer, which highlights the disproportionate impacts of losing high dam density reaches (i.e., beaver meadows). Extreme dam density declines were rare, and instead, most reaches have undergone a shift from high to moderate capacity. Statewide shifts in beaver dam capacity highlight the opportunity for using beaver‐related restoration in Colorado and across the American West. [ABSTRACT FROM AUTHOR]

Published

2022

26. Induced mobilization of stored metal precipitates from beaver (Castor canadensis) created wetlands on a mine drainage impacted stream.

Author

Shepherd, Nicholas L. and Nairn, Robert W.

Subjects

MINE drainage, WETLANDS, DAM retirement, BEAVERS, METALS, TRACE metals, IRON

Abstract

This study investigated the potential for increased aqueous metals loading due to induced flushing events following removal of beaver dams created on a net alkaline mine drainage (MD) impacted stream. The study reach of an unnamed tributary (UT) to Tar Creek (Ottawa County, Oklahoma, USA) is approximately 1.6 km and has been negatively impacted by two continuous sources of MD containing elevated concentrations of cadmium (Cd), iron (Fe), lead (Pb), and zinc (Zn). The most upstream source is the start of the study reach and the second source is located midway, approximately 0.6 km downstream. The anthropogenic removal of beaver dams resulted in increased aqueous concentrations of Fe and Cd downstream, attributed to the mobilization of metal precipitates stored in the beaver-created wetlands, and loss of the wetland's capability to retain metals due to deceased storage volumes and retention times. The majority of mobilized Fe (55 kg) occurred at the most upstream wetland. This study showed that the removal of beaver dams on a MD-impacted stream may mobilize metals, but that the mobilized mass load of each metal of interest represented a small proportion of the masses of metals retained in wetlands created by beaver. In abandoned mining areas where beaver-created wetlands represent natural infrastructure addressing water quality degradation, human-induced or storm-event driven destruction would likely have little long-term influence if the beaver dams are rebuilt and can quickly re-establish the wetlands. [ABSTRACT FROM AUTHOR]

Published

2022

27. Renewed coexistence: learning from steering group stakeholders on a beaver reintroduction project in England.

Author

Auster, Roger E., Barr, Stewart W., and Brazier, Richard E.

Subjects

EUROPEAN beaver, BEAVERS, CONFLICT management, RESTORATION ecology, WILDLIFE reintroduction, WILDLIFE management, HUMAN-animal relationships, COEXISTENCE of species

Abstract

Species reintroductions are growing in popularity, and example motivations include supporting species populations or the restoration of ecosystem function. Interactions between humans and the reintroduced species are likely to occur post-reintroduction. Coexistence between humans and wildlife is adaptive and dynamic, in part requiring management of conflicts between humans and wildlife, or of conflicts between humans over wildlife management. We seek to learn from the experiences of steering group members in a Eurasian beaver (Castor fiber) project in England and identify how governance of coexistence with reintroduced species may differ from the governance of coexistence with species that are already present in the landscape. Using a qualitative thematic analysis of an online survey, we identify a series of lessons in six key areas: (1) project governance, (2) stakeholder engagement, (3) research and monitoring programme, (4) strategy to manage arising conflicts, (5) public engagement, and (6) broad perspectives on reintroduction trials. We advocate for reflective evaluation as an essential component of reintroduction projects to enable knowledge-sharing from experiences, leading to improved practices in the future. Reflecting on our analysis, we identify and define 'Renewed Coexistence'—a new term that draws on pre-existing coexistence knowledge but identifies the unique elements that relate to governing coexistence with reintroduced species. [ABSTRACT FROM AUTHOR]

Published

2022

28. ECOLOGICAL IMPACT OF EUROPEAN BEAVER, CASTOR FIBER.

Author

NICA, Aurelia, PETREA, Mihai-Stefan, SIMIONOV, Ira-Adeline, ANTACHE, Alina, and CRISTEA, Victor

Subjects

EUROPEAN beaver, BEAVERS, ECOLOGICAL impact, URBAN land use, HUMAN-animal relationships, DAM design & construction, CORRIDORS (Ecology), WATER levels

Abstract

Beavers are large, semiaquatic rodents in the genus Castor native to the temperate Northern Hemisphere. The European beaver (Castor fiber) has an undoubtedly positive impact on the environment: it is a key species, which means that it plays a critical role in the biodiversity of ecosystems and that many species, some endangered or threatened, rely on beavers and the landscapes they build. In this way, there are many benefits that humans and other animal species can get from beavers. Also, dam construction has the potential to alter the hydrology, geomorphology, biogeochemistry, and ecosystems of river corridors and the feedbacks between them, thus the beaver is also recognized as an 'ecosystem engineer'. However, beavers can also generate conflict situations because not all watercourses can withstand the intense construction of dams. Thus, in many contexts, the engineering activities of the beaver may come into direct conflict with other priorities: agriculture, urban land use, forestry, irrigation. Beavers occasionally damage selected trees, but the worst damage is caused by their burrows, which raise water levels in streams, ponds or lakes, flooding the ground and frequently killing large areas of valuable trees in the forest. There are proven costs to agriculture that result from the impact of beavers, and these will have to be fully taken into account in future decisions to manage the beaver population. The ecological impact of the Eurasian beaver on habitat structure has been little investigated in Europe and includes in particular the changes that take place during dam construction activities. The purpose of this study was to summarize the publications that analyse the ecological impact of beaver (Castor fiber). [ABSTRACT FROM AUTHOR]

Published

2022

29. A novel survey design for modeling species distribution of beavers in Algonquin Park, Canada.

Author

Thompson, Connor A., Benson, John F., and Patterson, Brent R.

Subjects

SPECIES distribution, BEAVERS, RANGE management, AERIAL surveys, RANDOM forest algorithms, EXTRAPOLATION

Abstract

Understanding spatial and temporal variation in beaver abundance is a central goal for a wide range of management issues, ranging from species reintroductions to mitigation of environmental and economic impacts. Yet due to high costs associated with surveys, many studies are limited to a single regional estimate, or a complete census of a smaller study area extrapolated to the surrounding landscape. We present a survey design that allows for predicting beaver abundance across the broader landscape through interpolation. In October 2019, we conducted an aerial survey in a 15,000 km2 study area around Algonquin Provincial Park in Ontario, Canada. We counted 145 colonies on 73 plots that averaged 4.5 km2 (+/−3.27 SD). Our regional estimate for beaver abundance of 0.55 (95% CI = +/−0.18) colonies/km2 is comparable to historical surveys conducted in the region in the 1970s. We then predicted beaver abundance in unsampled plots using a Poisson generalized additive model (adjusted R2 = 0.81, deviance explained = 55.9%) that included non‐linear responses to elevation (P < 0.001), shoreline complexity (P = 0.003), and availability of shade‐tolerant hardwoods (P = 0.001). Our species distribution model predicted strong east‐west patterns in beaver abundance across the study region associated with spatial patterns in elevation and forest composition. [ABSTRACT FROM AUTHOR]

Published

2022

30. La colonisation de deux affluents de la rivière «La Mayenne» par le Castor d’Eurasie Castor fiber (Linné, 1758) : taille des populations et éléments d’écologie.

Author

MANCEAU, Lionel, LUCAS, Yohann, and BOILEAU, Nicolas

Abstract

Copyright of Bulletin de la Société des Sciences Naturelles de l'Ouest de la France is the property of Societe des Sciences Naturelles de l'Ouest de la France and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

31. Beaver tail liver and congenital asplenia in a polytrauma patient.

Author

Alrahmani, Ahmad and Chowdhury, Sharfuddin

Subjects

TRAUMA surgery, VENA cava inferior, TRAFFIC accidents, RENAL veins, COMPUTED tomography

Published

2024

32. Reconstruction of Eurasian beaver (castor fiber) recolonization in moor habitats using digital orthophotos.

Author

Kaphegyi, Thomas A. M., Eckerle, Victoria A. M., Christoffers, Yvonne, and Kaphegyi, Ursula

Subjects

EUROPEAN beaver, NATURE conservation, HABITATS, AERIAL photographs, COLONIZATION (Ecology), BEAVERS

Abstract

Moors remaining in western European landscapes are habitats of high nature conservation value. Moors are abundant in the alpine foothills of southern Germany. However, most of the moor habitats have been degraded through drainage in the course of former peat exploitation and human land use activities. Since moor restoration programs have been proven to be expensive and complex, conservationists have considerable expectations regarding the potential rewetting effects of beavers on these habitats. Supported by conservation legislation and reintroductions, the formerly eradicated species has since returned to many waterways in Germany. This provides the opportunity to explore the potential of this so-called 'eco-engineer' in relation to moor restoration. However, data on the recolonization process – which are necessary in order to analyze the impact exerted by the species on moor habitats – are very limited. We investigated whether the colonization of a peatland by beavers can be sufficiently reconstructed through analyses of digital orthographical aerial photographs (DOPs). We found that beaver canals, on the basis of their characteristic shape, are reliably identifiable on aerial photographs. Therefore, the canals are characteristic indicators of actual beaver presence. Further, our results suggest that the development of beaver populations in moor habitats can be tracked closely by assessing the abundance of beaver canals identified on DOP time series. [ABSTRACT FROM AUTHOR]

Published

2021

33. Assessing translocation effects on the spatial ecology and survival of muskrats Ondatra zibethicus.

Author

Matykiewicz, Benjamin R., Windels, Steve K., Olson, Bryce T., Plumb, Reid T., Wolf, Tiffany M., and Ahlers, Adam A.

Subjects

SPATIAL ecology, SURVIVAL analysis (Biometry), HOMESITES, NATIONAL parks & reserves, MOVING average process

Abstract

Muskrats Ondatra zibethicus are semiaquatic herbivores experiencing long-term and widespread population declines across North America. Translocation may be a viable tool to bolster or reestablish local populations; however, subsequent effects of translocation on muskrats are unknown. We live-trapped and translocated radiomarked muskrats (n = 65) during the summers of 2018-2019 in Voyageurs National Park, MN, USA and assessed post-translocation effects on weekly survival probabilities and space-use patterns. We did not observe homing behavior, though individuals moved an average of 2.2 km (SE = 0.30 km) from release sites and established home ranges within ~8 days (SE = 1.16 days) post-translocation. Weekly post-translocation survival probabilities (0.95, SE = 0.001) and average home-range sizes (2.52 ha, SE = 0.44 ha) were similar to other studies of non-translocated muskrats. Our most-supported known-fate survival model revealed muskrats using beaver Castor canadensis lodges had greater weekly survival probabilities. Additionally, weekly muskrat survival varied between years suggesting a positive response to a novel soft-release technique applied in 2019. Our study provides the first empirical assessment of translocation effects on muskrats and suggests translocation may be effective for establishing or enhancing local muskrat populations. Additionally, our study suggests beaver lodges may confer fitness benefits to sympatric muskrats particularly during dispersal. [ABSTRACT FROM AUTHOR]

Published

2021

34. Beaver dams attenuate flow: A multi‐site study.

Author

Puttock, Alan, Graham, Hugh A., Ashe, Josie, Luscombe, David J., and Brazier, Richard E.

Subjects

BEAVERS, EUROPEAN beaver, DAMS, WILDLIFE reintroduction, ECOSYSTEM services

Abstract

Beavers can profoundly alter riparian environments, most conspicuously by creating dams and wetlands. Eurasian beaver (Castor fiber) populations are increasing and it has been suggested they could play a role in the provision of multiple ecosystem services, including natural flood management. Research at different scales, in contrasting ecosystems is required to establish to what extent beavers can impact on flood regimes. Therefore, this study determines whether flow regimes and flow responses to storm events were altered following the building of beaver dams and whether a flow attenuation effect could be significantly attributed to beaver activity. Four sites were monitored where beavers have been reintroduced in England. Continuous monitoring of hydrology, before and after beaver impacts, was undertaken on streams where beavers built sequences of dams. Stream orders ranged from 2nd to 4th, in both agricultural and forest‐dominated catchments. Analysis of >1000 storm events, across four sites showed an overall trend of reduced total stormflow, increased peak rainfall to peak flow lag times and reduced peak flows, all suggesting flow attenuation, following beaver impacts. Additionally, reduced high flow to low flow ratios indicated that flow regimes were overall becoming less "flashy" following beaver reintroduction. Statistical analysis, showed the effect of beaver to be statistically significant in reducing peak flows with estimated overall reductions in peak flows from −0.359 to −0.065 m3 s−1 across sites. Analysis showed spatial and temporal variability in the hydrological response to beaver between sites, depending on the level of impact and seasonality. Critically, the effect of beavers in reducing peak flows persists for the largest storms monitored, showing that even in wet conditions, beaver dams can attenuate average flood flows by up to ca. 60%. This research indicates that beavers could play a role in delivering natural flood management. [ABSTRACT FROM AUTHOR]

Published

2021

35. Assessing translocation effects on the spatial ecology and survival of muskrats Ondatra zibethicus.

Author

Matykiewicz, Benjamin R., Windels, Steve K., Olson, Bryce T., Plumb, Reid T., Wolf, Tiffany M., and Ahlers, Adam A.

Subjects

SPATIAL ecology, SURVIVAL analysis (Biometry), HOMESITES, NATIONAL parks & reserves, MOVING average process

Abstract

Muskrats Ondatra zibethicus are semiaquatic herbivores experiencing long-term and widespread population declines across North America. Translocation may be a viable tool to bolster or reestablish local populations; however, subsequent effects of translocation on muskrats are unknown. We live-trapped and translocated radiomarked muskrats (n = 65) during the summers of 2018–2019 in Voyageurs National Park, MN, USA and assessed post-translocation effects on weekly survival probabilities and space-use patterns. We did not observe homing behavior, though individuals moved an average of 2.2 km (SE = 0.30 km) from release sites and established home ranges within ∼8 days (SE = 1.16 days) post-translocation. Weekly post-translocation survival probabilities (0.95, SE = 0.001) and average home-range sizes (2.52 ha, SE = 0.44 ha) were similar to other studies of non-translocated muskrats. Our most-supported known-fate survival model revealed muskrats using beaver Castor canadensis lodges had greater weekly survival probabilities. Additionally, weekly muskrat survival varied between years suggesting a positive response to a novel soft-release technique applied in 2019. Our study provides the first empirical assessment of translocation effects on muskrats and suggests translocation may be effective for establishing or enhancing local muskrat populations. Additionally, our study suggests beaver lodges may confer fitness benefits to sympatric muskrats particularly during dispersal. [ABSTRACT FROM AUTHOR]

Published

2021

36. First report on parasites of European beavers in the Slovak Republic.

Author

Bystrianska, Júlia, Papajová, Ingrid, Šmiga, Ľubomír, Šoltys, Jindřich, Majláthová, Viktória, Majláth, Igor, Gomboš, Filip, and Kleban, Ján

Subjects

EUROPEAN beaver, PARASITES, WATER pollution, SURFACE contamination, BEAVERS, GIARDIA lamblia, CRYPTOSPORIDIUM, AQUATIC animals

Abstract

European beaver (Castor fiber L. 1758) is the biggest rodent living in Europe. It is a semi-aquatic animal known for building dams and burrows. European beaver is a potential host for a wide range of parasites and other infectious diseases. In Slovakia, there is an increasing number of beavers but the data about their parasitic fauna are missing. Our work is the first documentation about the beaver's parasitofauna in Slovakia. In a 1-year study, we collected and examined 19 beaver fecal samples from the vicinity of beaver burrows inhabiting three particular localities at the Danube, Topľa, and Laborec rivers in Slovakia. In these fecal samples, 4 different species of intestinal endoparasites were detected as follows: oocysts of Cryptosporidium, cysts of Giardia, eggs of Stichorchis subtriquetrus, and eggs and larvae of Travassosius rufus. Parasites were confirmed only in samples collected at river Topľa. Based on our results, we can conclude that European beaver can be an important source of parasitic contamination of surface waters especially in the localities shared by people. [ABSTRACT FROM AUTHOR]

Published

2021

37. Beaver: Nature's ecosystem engineers.

Author

Brazier, Richard E., Puttock, Alan, Graham, Hugh A., Auster, Roger E., Davies, Kye H., and Brown, Chryssa M. L.

Subjects

EUROPEAN beaver, BEAVERS, FRESHWATER ecology, ECOSYSTEMS, NATURE, ECOSYSTEM services

Abstract

Beavers have the ability to modify ecosystems profoundly to meet their ecological needs, with significant associated hydrological, geomorphological, ecological, and societal impacts. To bring together understanding of the role that beavers may play in the management of water resources, freshwater, and terrestrial ecosystems, this article reviews the state‐of‐the‐art scientific understanding of the beaver as the quintessential ecosystem engineer. This review has a European focus but examines key research considering both Castor fiber—the Eurasian beaver and Castor canadensis—its North American counterpart. In recent decades species reintroductions across Europe, concurrent with natural expansion of refugia populations has led to the return of C. fiber to much of its European range with recent reviews estimating that the C. fiber population in Europe numbers over 1.5 million individuals. As such, there is an increasing need for understanding of the impacts of beaver in intensively populated and managed, contemporary European landscapes. This review summarizes how beaver impact: (a) ecosystem structure and geomorphology, (b) hydrology and water resources, (c) water quality, (d) freshwater ecology, and (e) humans and society. It concludes by examining future considerations that may need to be resolved as beavers further expand in the northern hemisphere with an emphasis upon the ecosystem services that they can provide and the associated management that will be necessary to maximize the benefits and minimize conflicts. This article is categorized under:Water and Life > Nature of Freshwater Ecosystems [ABSTRACT FROM AUTHOR]

Published

2021

38. Population and distribution of beavers Castor fiber and Castor canadensis in Eurasia.

Author

Halley, Duncan J., Saveljev, Alexander P., and Rosell, Frank

Subjects

EUROPEAN beaver, BEAVERS, WILDLIFE reintroduction, POPULATION density

Abstract

A century ago, overhunting had reduced Eurasian beaver Castor fiber populations to c. 1200 animals in scattered refugia from France to Mongolia. Reintroductions and natural spread have since restored the species to large areas of its original range. Population has more than tripled since the first modern estimate in 1998; the minimum estimate is now c. 1.5 million.Range expansion 2000–2020 has been rapid, with large extensions in western and south‐central Europe, southern Russia, and west and central Siberia. Beavers are now re‐established in all countries of their former European range except for Portugal, Italy, and the southern Balkans; they occur broadly across Siberia to Mongolia, with scattered populations father east. About half of the world population lives in Russia. Populations appear to be mature in much of European Russia, Belarus, the Baltic States, and Poland.There is a significant population of North American beaver Castor canadensis in Finland and north‐west Russia. Most other 20th‐Century introductions of this species have become extinct or been removed.Recent DNA studies have improved understanding of Castor fiber population prehistory and history. Two clades, east and west, are extant; a third 'Danube' clade is extinct. Refugial populations were strongly bottlenecked, with loss of genetic diversity through genetic drift.Future range extension, and large increases in populations and in impacts on freshwater systems, can be expected. Beavers are now recolonising densely populated, intensely modified, low‐relief regions, such as England, the Netherlands, Belgium, and north‐west Germany. They will become much more common and widespread there in coming decades. As beavers are ecosystem engineers with profound effects on riparian habitats, attention to integrating beaver management into these landscapes using experience gained in other areas – before the rapid increase in population densities and impacts occurs – is recommended. [ABSTRACT FROM AUTHOR]

Published

2021

39. The effect of beaver dams on organic carbon, nutrients and methyl mercury distribution in impounded waterbodies.

Author

Čiuldienė, Dovilė, Vigricas, Egidijus, Belova, Olgirda, Aleinikovas, Marius, and Armolaitis, Kęstutis

Subjects

MERCURY, METHYLMERCURY, EUROPEAN beaver, CARBONACEOUS aerosols, DISSOLVED organic matter, BEAVERS, BODIES of water, DEMETHYLATION

Abstract

The European beaver Castor fiber is well‐known as an ecosystem engineer that greatly affects landscape structure, biodiversity as well as physical and chemical properties of surface water bodies. Beaver ponds alter surface water bodies by raising water elevation, decreasing flow velocity and altering the morphology of streams or drainage ditches, which can reduce the concentrations of organic carbon (OC) and nutrients (N, P). Recent studies indicated that mercury transforms into hazardous and neurotoxic methylmercury (MeHg) in beaver impoundments by biological processes in anaerobic conditions. However, the knowledge about nutrients and MeHg levels in impounded forest waterbodies is scarce in Lithuania. We aimed to ascertain the alteration in concentrations and stocks of OC, nutrients and MeHg in water and sediments from upstream and downstream, as well as within beaver dams and ponds during the growing seasons of 2016–2018. Results showed higher concentrations of dissolved organic carbon (DOC) and nutrients (P and N) in upstream water samples compared to those of downstream from beaver dams. Meanwhile, in sediments mean stocks of OC, P and N were the highest in the middle part of the ponds and in beaver dams. Moreover, the concentrations and stocks of MeHg in sediments were higher in beaver dams than in any other parts of beaver impoundments (upstream, mid‐pond, pond periphery and downstream). We conclude that dam bottom sediments were rich in OC, N and P, and at the same time, contained toxic MeHg. Therefore, beaver dams could act as a trickle filter by improving water quality, in our case, DOC, N and P leaching, from riparian forests and soils, but may also act as hotspots of mercury methylation. [ABSTRACT FROM AUTHOR]

Published

2020

40. Smokey the Beaver: beaver‐dammed riparian corridors stay green during wildfire throughout the western United States.

Author

Fairfax, Emily and Whittle, Andrew

Subjects

WILDFIRE prevention, FIRE management, NORMALIZED difference vegetation index, BEAVERS, WILDFIRES, VEGETATION greenness, CORRIDORS (Ecology)

Abstract

Beaver dams are gaining popularity as a low‐tech, low‐cost strategy to build climate resiliency at the landscape scale. They slow and store water that can be accessed by riparian vegetation during dry periods, effectively protecting riparian ecosystems from droughts. Whether or not this protection extends to wildfire has been discussed anecdotally but has not been examined in a scientific context. We used remotely sensed Normalized Difference Vegetation Index (NDVI) data to compare riparian vegetation greenness in areas with and without beaver damming during wildfire. We include data from five large wildfires of varying burn severity and dominant landcover settings in the western United States in our analysis. We found that beaver‐dammed riparian corridors are relatively unaffected by wildfire when compared to similar riparian corridors without beaver damming. On average, the decrease in NDVI during fire in areas without beaver is 3.05 times as large as it is in areas with beaver. However, plant greenness rebounded in the year after wildfire regardless of beaver activity. Thus, we conclude that, while beaver activity does not necessarily play a role in riparian vegetation post‐fire resilience, it does play a significant role in riparian vegetation fire resistance and refugia creation. [ABSTRACT FROM AUTHOR]

Published

2020

41. Vertebrate Species Richness at Littoral Beaver Lodges in a Temperate Artificial Pond.

Author

Razik, Imran and Sagot, Maria

Subjects

SPECIES diversity, BEAVERS, AQUATIC biodiversity, WILDLIFE resources, FRESHWATER habitats, PONDS

Abstract

The North American beaver Castor canadensis is widely recognized for its ability to modify freshwater habitats and facilitate changes in community composition. However, the seasonal composition of terrestrial wildlife at littoral beaver lodges remains poorly described, even though beaver lodges are distinctive semipermanent features of the terrestrial–aquatic interface and thus important resources for wildlife. Over 17 months, we used camera trapping, weather data, and satellite vegetation data to determine how vertebrate species richness and seasonal changes in community composition are associated with beaver activity and beaver lodges in a temperate artificial pond. Our results indicate clear changes in the composition of beaver lodge visitors across seasons. Moreover, there was not a strong association of species richness with beaver activity, vegetative condition, or weather condition. Littoral beaver lodges are likely important foraging sites for a wide range of taxa throughout the year. Our findings highlight the importance of beaver lodges in facilitating seasonal interactions and variation in species composition. We hope our work can be used as a baseline to investigate the importance of beaver lodges in promoting diversity at the terrestrial–aquatic interface. [ABSTRACT FROM AUTHOR]

Published

2020

42. European beaver (Castor fiber) in open agricultural landscapes: crop grazing and the potential for economic damage.

Author

Mikulka, Ondřej, Homolka, Miloslav, Drimaj, Jakub, and Kamler, Jiří

Abstract

The European beaver (Castor fiber) has extended its range into most Central European countries over the past 30 years, resulting in increased forestry damage and water management issues. As the number of beavers increases populations become established in new types of habitat. In the Czech Republic, for example, established beaver populations are now found on rivers flowing through agricultural landscapes, where living conditions differ significantly to those found in forest landscapes. To date, there have been no studies on the impact of beavers on agricultural production. The aim of this study was (1) to describe how beavers graze field crops, and (2) to estimate potential damage to agricultural production. This 2-year study examined five beaver territories in agricultural landscapes where crops were separated from watercourses by a narrow strip of bank vegetation. Beavers fed on all crop types grown in their territories throughout the growing period (May–October), peaking from mid-June to mid-July. The beavers clearly preferred oilseed rape, which (along with wheat and barley) represented the largest part of the grazed area. Rape was usually grazed at during vegetation growth and flowering, while cereals were usually grazed from the milk ripe kernel stage to harvest. Damage to agricultural production was up to €20–30 per ind./year. While beaver population density in the agricultural landscape remains low, damage to agricultural production is relatively insignificant; however, field crops clearly represent an important part of the beavers’ diet in such areas, helping them survive in such open landscapes. [ABSTRACT FROM AUTHOR]

Published

2020

43. Assessing restoration potential for beaver (Castor canadensis) in the semiarid foothills of the Southern Rockies, USA.

Author

Kornse, Zachary and Wohl, Ellen

Subjects

RIPARIAN plants, BEAVERS, WILDLIFE reintroduction, STREAM restoration, FOOTHILLS, STREAMFLOW, VEGETATION mapping

Abstract

We used the Beaver Restoration Assessment Tool (BRAT) developed at Utah State University to develop spatially explicit estimates of maximum beaver‐carrying capacity in a 160 km2 watershed in the foothills of the Southern Rockies. The watershed does not currently have beaver but has extensive evidence of past beaver occupation. BRAT uses input data on stream flow, topography, and vegetation. We compared BRAT results using three different types of vegetation inputs: the default LANDFIRE data at 30‐m spatial resolution and pixel‐based and object‐based image analysis (OBIA) with 1‐m resolution National Agriculture Imagery Program imagery. OBIA produced the most accurate results relative to ground‐based vegetation mapping. Changes in vegetation input data resulted in substantial changes in BRAT estimates of beaver‐carrying capacity. Using historic LANDFIRE vegetation data and field evidence of past beaver activity, contemporary beaver‐carrying capacity is much lower than historical capacity throughout the watershed. These changes are especially pronounced in low‐order stream segments, suggesting that beaver reintroduction in this watershed could be facilitated by measures to restore riparian vegetation along low‐order streams. This case study demonstrates the value of using BRAT as a tool prior to beaver reintroduction and stream restoration. [ABSTRACT FROM AUTHOR]

Published

2020

44. The effect of beaver dams on organic carbon, nutrients and methyl mercury distribution in impounded waterbodies.

Author

Čiuldienė, Dovilė, Vigricas, Egidijus, Belova, Olgirda, Aleinikovas, Marius, and Armolaitis, Kęstutis

Subjects

MERCURY, PHOSPHORUS in water, METHYLMERCURY, BODIES of water, EUROPEAN beaver, DISSOLVED organic matter, BEAVERS, DEMETHYLATION

Abstract

The European beaver Castor fiber is well-known as an ecosystem engineer that greatly affects landscape structure, biodiversity as well as physical and chemical properties of surface water bodies. Beaver ponds alter surface water bodies by raising water elevation, decreasing flow velocity and altering the morphology of streams or drainage ditches, which can reduce the concentrations of organic carbon (OC) and nutrients (N, P). Recent studies indicated that mercury transforms into hazardous and neurotoxic methylmercury (MeHg) in beaver impoundments by biological processes in anaerobic conditions. However, the knowledge about nutrients and MeHg levels in impounded forest waterbodies is scarce in Lithuania. We aimed to ascertain the alteration in concentrations and stocks of OC, nutrients and MeHg in water and sediments from upstream and downstream, as well as within beaver dams and ponds during the growing seasons of 2016-2018. Results showed higher concentrations of dissolved organic carbon (DOC) and nutrients (P and N) in upstream water samples compared to those of downstream from beaver dams. Meanwhile, in sediments mean stocks of OC, P and N were the highest in the middle part of the ponds and in beaver dams. Moreover, the concentrations and stocks of MeHg in sediments were higher in beaver dams than in any other parts of beaver impoundments (upstream, mid-pond, pond periphery and downstream). We conclude that dam bottom sediments were rich in OC, N and P, and at the same time, contained toxic MeHg. Therefore, beaver dams could act as a trickle filter by improving water quality, in our case, DOC, N and P leaching, from riparian forests and soils, but may also act as hotspots of mercury methylation. [ABSTRACT FROM AUTHOR]

Published

2020

45. Influence of topographic, geomorphic, and hydrologic variables on beaver dam height and persistence in the intermountain western United States.

Author

Hafen, Konrad C., Wheaton, Joseph M., Roper, Brett B., Bailey, Philip, and Bouwes, Nicolaas

Subjects

DAMS, BEAVERS, ALTITUDES, LOGISTIC regression analysis, STREAM restoration

Abstract

Stream ecosystems can be dramatically altered by dam‐building activities of North American beaver (Castor canadensis). The extent to which beavers' ecosystem engineering alters riverscapes is driven by the density, longevity, and size (i.e. height and length) of the dams constructed. In comparison to the relative ubiquity of beaver dams on the landscape, there is a scarcity of data describing dam heights. We collected data describing dam height and dam condition (i.e. damaged or intact) of 500 beaver dams via rapid field survey, differentiating between primary and secondary dams and associating each dam with a beaver dam complex. With these data, we examined the influence of beaver dam type (primary/secondary), drainage area, streamflow, stream power, valley bottom width, and HUC12 watershed on beaver dam height with linear regression and the probability that a beaver dam was damaged with logistic regression. On average, primary dams were 0.46 m taller than secondary dams; 15% of observed dams were primary and 85% secondary. Dam type accounted for 21% of dam height variation (p <0.0001). Slope (p = 0.0107), discharge (p = 0.0029), and drainage area (p = 0.0399) also affected dam height, but each accounted for less than 3% of dam height variation. The average number of dams in a dam complex was 6.1 (SD ± 4.5) and ranged from 1 to 21. The watershed a beaver dam was located in accounted for the most variability (17.8%) in the probability that a beaver dam was damaged, which was greater than the variability explained by any multiple logistic regression model. These results indicate that temporally dynamic variables are important influencers of dam longevity and that beaver dam ecology is a primary factor influencing beaver dam height. © 2020 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2020

46. Beaver canals and their environmental effects.

Author

Grudzinski, Bartosz P, Cummins, Hays, and Vang, Teng Keng

Subjects

BEAVERS, CANALS, FRAGMENTED landscapes, STREAM restoration, WATERSHED hydrology, WATERSHED management, AQUATIC habitats

Abstract

Beaver canals and their environmental effects are much less studied than beaver dams, despite being widespread in some beaver-inhabited areas. In this study, we completed a systematic review of previous research on the structure and ecosystem effects of beaver canals to provide an increasingly holistic understanding of these landscape features. Specifically, we: 1) summarized why, where, when, and how beaver develop canals; 2) chronicled all published descriptions on beaver canal morphology; and 3) summarized the literature on the environmental effects of beaver canals. Thirty-one relevant studies were identified and incorporated into this review. Beaver canals have been identified in numerous environments ranging from largely undeveloped mountainous regions to heavily developed agricultural landscapes. Beaver primarily develop canals to increase accessibility to riparian resources, facilitate transport of harvested resources, and to decrease predation risk. As with beaver dams, beaver canals exhibit large structural variability, particularly in lengths, which can be over 0.5 km. Widths of about 1 m and depths of about 0.5 m are common. Beaver canals alter watershed hydrology by creating new aquatic habitats, connecting isolated aquatic features, and diverting water into colonized areas. Beaver canals have been identified as favored habitats for several biotic species and are sometimes used during critical life stages (e.g. dispersal). In addition to increasing overall floral and faunal species richness and diversity, beaver canals may benefit biota by mitigating habitat fragmentation and climate change impacts. Based on the results of this review, incorporating beaver canals into stream restoration practices may be environmentally beneficial. [ABSTRACT FROM AUTHOR]

Published

2020

47. Beaver dam effect on phytoplankton and periphyton composition and hydrology in streams from Tierra del Fuego (Argentina).

Author

Rodríguez, Patricia, González Garraza, Gabriela, García, Victoria, Granitto, María, and Escobar, Julio

Subjects

DISSOLVED organic matter, PHYTOPLANKTON, BEAVERS, HYDROLOGY, WATER quality, CHLOROPHYLL in water, RIVERS

Abstract

There is practically no stream or river without non-native beaver impact, past or current, in Tierra del Fuego (TDF), Argentina. In this study, we evaluated the effect of beaver activity on water quality and algal composition in forested streams and rivers from TDF. We sampled five streams and rivers with current beaver activity during the austral summers of 2016 and 2017. Also, three streams which have had beaver activity in the past but with no activity since several years ago (ca. 10 years) were included in the study. Sampling was performed in a paired design upstream and downstream the beaver dam or the site where it used to be located. Physical and chemical variables as well as phytoplankton and epilithon chlorophyll-a and algal composition were monitored. Results show a decrease in dissolved organic carbon concentration and an increase in both phytoplankton abundance and periphyton taxa richness downstream the dam. The diatom Hannaea arcus was present in both communities only in impacted sites, thus influencing the clustering. In this study, we show that beaver activity influences periphyton richness and composition, and phytoplankton abundance in impacted streams and rivers, though it exerted a minor influence on water physical and chemical variables. [ABSTRACT FROM AUTHOR]

Published

2020

48. Sediment storage and shallow groundwater response to beaver dam analogues in the Colorado Front Range, USA.

Author

Scamardo, Julianne and Wohl, Ellen

Subjects

GROUNDWATER, BEAVERS, WATER table, SEDIMENTS, EFFECT of dams on fishes, RIVER channels

Abstract

Enthusiasm for using beaver dam analogues (BDAs) to restore incised channels and riparian corridors has been increasing. BDAs are expected to create a similar channel response to natural beaver dams by causing channel bed aggradation and overbank flow, which subsequently raise water tables and support vegetation growth. However, lack of funding for monitoring projects post‐restoration has limited research on whether BDAs actually cause expected channel change in the Front Range and elsewhere. Geomorphic and hydrologic response to BDAs was monitored in two watersheds 1 year post‐restoration. BDAs were studied at Fish Creek, a steep mountainous catchment, and Campbell Creek, a lower gradient piedmont catchment from May to October 2018. At each restoration site, the upstream‐ and downstream‐most BDAs were chosen for intensive study in comparison with unrestored reference reaches. Monitoring focused on quantifying sediment volumes in BDA ponds and recording changes to stream stage and riparian groundwater. Despite differences in physical basin characteristics, BDA pools at both sites stored similar volumes of sediment and stored more sediment than reference pools. Sediment storage is positively correlated to BDA height and pool surface area. However, BDAs did not have a significant influence on shallow groundwater. The lack of groundwater response proximal to BDAs could indicate that local watershed factors have a stronger influence on groundwater response than restoration design 1 year post‐restoration. Systematic, long‐term studies of channel and floodplain response to BDAs are needed to better understand how BDAs will influence geomorphology and hydrology. [ABSTRACT FROM AUTHOR]

Published

2020

49. Pan-tissue transcriptome analysis of long noncoding RNAs in the American beaver Castor canadensis.

Author

Kashyap, Amita, Rhodes, Adelaide, Kronmiller, Brent, Berger, Josie, Champagne, Ashley, Davis, Edward W., Finnegan, Mitchell V., Geniza, Matthew, Hendrix, David A., Löhr, Christiane V., Petro, Vanessa M., Sharpton, Thomas J., Wells, Jackson, Epps, Clinton W., Jaiswal, Pankaj, Tyler, Brett M., and Ramsey, Stephen A.

Subjects

NON-coding RNA, BEAVERS, ORGANS (Anatomy), GENETIC regulation, NUCLEOTIDE sequence, SKELETAL muscle

Abstract

Background: Long noncoding RNAs (lncRNAs) have roles in gene regulation, epigenetics, and molecular scaffolding and it is hypothesized that they underlie some mammalian evolutionary adaptations. However, for many mammalian species, the absence of a genome assembly precludes the comprehensive identification of lncRNAs. The genome of the American beaver (Castor canadensis) has recently been sequenced, setting the stage for the systematic identification of beaver lncRNAs and the characterization of their expression in various tissues. The objective of this study was to discover and profile polyadenylated lncRNAs in the beaver using high-throughput short-read sequencing of RNA from sixteen beaver tissues and to annotate the resulting lncRNAs based on their potential for orthology with known lncRNAs in other species. Results: Using de novo transcriptome assembly, we found 9528 potential lncRNA contigs and 187 high-confidence lncRNA contigs. Of the high-confidence lncRNA contigs, 147 have no known orthologs (and thus are putative novel lncRNAs) and 40 have mammalian orthologs. The novel lncRNAs mapped to the Oregon State University (OSU) reference beaver genome with greater than 90% sequence identity. While the novel lncRNAs were on average shorter than their annotated counterparts, they were similar to the annotated lncRNAs in terms of the relationships between contig length and minimum free energy (MFE) and between coverage and contig length. We identified beaver orthologs of known lncRNAs such as XIST, MEG3, TINCR, and NIPBL-DT. We profiled the expression of the 187 high-confidence lncRNAs across 16 beaver tissues (whole blood, brain, lung, liver, heart, stomach, intestine, skeletal muscle, kidney, spleen, ovary, placenta, castor gland, tail, toe-webbing, and tongue) and identified both tissue-specific and ubiquitous lncRNAs. Conclusions: To our knowledge this is the first report of systematic identification of lncRNAs and their expression atlas in beaver. LncRNAs—both novel and those with known orthologs—are expressed in each of the beaver tissues that we analyzed. For some beaver lncRNAs with known orthologs, the tissue-specific expression patterns were phylogenetically conserved. The lncRNA sequence data files and raw sequence files are available via the web supplement and the NCBI Sequence Read Archive, respectively. [ABSTRACT FROM AUTHOR]

Published

2020

50. Distant neighbours: friends or foes? Eurasian beavers show context-dependent responses to simulated intruders.

Author

Benten, Anke, Cross, Hannah B, Tinnesand, Helga V, Zedrosser, Andreas, and Rosell, Frank

Subjects

EUROPEAN beaver, TERRITORIAL marking (Animals), NEIGHBORS, SOCIAL status

Abstract

Neighbour-stranger discrimination is widespread in territorial animals, and depending on the relative threat posed by neighbours and strangers, residents commonly exhibit either the "dear enemy phenomenon" or the "nasty neighbour effect". Different members of the same group may represent different threat levels, and the response of residents can be modified depending on, e.g. the sex and dominance status of the intruder. Neighbour-stranger discrimination is primarily investigated in neighbours with shared borders, and whether residents recognize their more distant neighbours remains unexplored. Here, using experimental scent marks, we investigated whether Eurasian beavers (Castor fiber) discriminate between distant neighbours (i.e. two territories away) and strangers (i.e. further away than the known dispersal distance). We tested the hypotheses that Eurasian beavers can discriminate between distant neighbours and strangers and that social status (i.e. sub-dominant or dominant) and sex of the intruder affect the responses of resident beavers. We predicted that resident beavers show the "dear enemy phenomenon" in response towards dominant distant neighbours due to their territory ownership and the "nasty neighbour effect" in response towards sub-dominants due to their likelihood to disperse. Sex of residents and social status of intruders were important in explaining territorial responses, with males exhibiting stronger responses to sub-dominant distant neighbours, especially males, than sub-dominant strangers. No such discrimination was found by females or between dominant distant neighbours and strangers. We suggest that the "nasty neighbour" response by male resident beavers towards sub-dominant distant neighbours relates to the relative threat levels due to repeated intrusions during dispersal attempts. Significance statement: Territorial animals discriminate between neighbours and strangers to allocate aggressive behaviour to conspecific intruders. This neighbour-stranger discrimination has primarily been investigated between adjacent neighbours, but extraterritorial movements of residents into distant territories occur. Whether residents can discriminate between distant neighbours and strangers has only been studied in skylarks (Alauda arvensis), based on acoustic communication. Yet, it is unknown whether distant neighbours are perceived as neighbours or strangers based on olfactory recognition. Here we investigated whether Eurasian beavers (C. fiber) can discriminate between distant neighbours (i.e. two territories away) and strangers, based on olfactory scent samples including information on social status (i.e. dominant or sub-dominant) and sex of the intruder. Our results show that male residents showed a "nasty neighbour" response towards sub-dominant distant neighbours. These findings highlight the sensitivity of territorial mammals to the familiarity and social status of intruders. [ABSTRACT FROM AUTHOR]

Published

2020