Consequences of the activities of Eurasian beaver on local plants and vegetation cover – an overview

1Bashinskiy I.V. 2020. Beavers in lakes: a review of their ecosystem impact. Aquatic Ecology, 54: 1097–1120.Search in Google Scholar

2Batbold J., Batsaikhan N., Shar S., Hutterer R., Kryštufek B., Yigit N., Mitsain G., Palomo L. 2016. Castor fiber (errata version published in 2017). The IUCN Red List of Threatened Species 2016: e.T4007A115067136. https://dx.doi.org/10.2305/IUCN.UK.2016-3.RLTS.T4007A22188115.en.Search in Google Scholar

3Bełżecki G., Miltko R., Kowalik B., Demiaszkiewicz A.W., Lachowicz J., Giżejewski Z., McEwan N.R. 2018. Seasonal variations of the digestive tract of the Eurasian beaver Castor fiber. Mammal Research, 63: 21−31.Search in Google Scholar

4Brazier R.E., Puttock A., Graham H.A., Auster R.E., Davies K.H., Brown C.M. 2021. Beaver: Nature's ecosystem engineers. WIREs Water, 8, e1494.Search in Google Scholar

5Busher P.E., Mayer M., Ulevičius A., Samus A., Hartman G., Rosell F. 2020. Food caching behavior of the Eurasian beaver in northern Europe. Wildlife Biology, wlb.00734.Search in Google Scholar

6Chugunov G.G., Khapugin A.A. 2020. Population status of Bupleurum aureum (Apiaceae), a critically endangered plant species in a region of European Russia. Ecological Questions, 31: 45−56.Search in Google Scholar

7Ciechanowski M., Kubic W., Rynkiewicz A., Zwolicki A. 2011. Reintroduction of beavers Castor fiber may improve habitat quality for vespertilionid bats foraging in small river valleys. European Journal of Wildlife Research, 57: 737−747.Search in Google Scholar

8Czerepko J., Wróbel M., Boczoń A., Sokołowski K. 2009. The response of ash-alder swamp forest to increasing stream water level caused by damming by the European beaver (Castor fiber L.). Journal of Water and Land Development, 13: 249−262.Search in Google Scholar

9Danilov P.I., Fyodorov F.V. 2015. Comparative characterization of the building activity of Canadian and European beavers in northern. European Russia. Russian Journal of Ecology, 46: 272−278.Search in Google Scholar

10Derwich A., Brzuski P., Hędrzak M. 2007. Bóbr w biotopach Bieszczadów Wysokich. Zespół Metod i Organizacji Hodowli Zwierząt Gospodarskich i Wolno Żyjących, Kraków.Search in Google Scholar

11Dvořák J. 2013. Diet preference of Eurasian beaver (Castor fiber L., 1758) in the environment of Oderské Vrchy and its influence on the tree species composition of river bank stands. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 61: 1637−1643.Search in Google Scholar

12Dzięciołowski R., Misiukiewicz W. 2002. Winter food caches of beavers Castor fiber in NE Poland. Acta Theriologica, 47: 471−478.Search in Google Scholar

13Elmeros M., Madsen A.B., Berthelsen J.P. 2003. Monitoring of reintroduced beavers (Castor fiber) in Denmark. Lutra, 46: 153–162.Search in Google Scholar

14Franczak M., Czarnecka B. 2015. Changes in vegetation and soil seed bank of meadow after waterlogging caused by Castor fiber. Acta Societatis Botanicorum Poloniae, 84: 189−196.Search in Google Scholar

15Fustec J., Cormier J.P. 2007. Utilisation of woody plants for lodge construction by European beaver (Castor fiber) in the Loire valley, France. Mammalia, 71: 11−15.Search in Google Scholar

16Fustec J., Lode T., Le Jacques D., Cormier J.P. 2001. Colonization, riparian habitat selection and home range size in a reintroduced population of European beavers in the Loire. Freshwater Biology, 46: 1361–1371.Search in Google Scholar

17Fyodorov F.V. 2020. Assessment of the effect of beaver foraging activities on the alteration of waterside forests in northern and middle taiga of Russian Karelia. Baltic Forestry, 26, 492.Search in Google Scholar

18Fyodorov F.V., Yakimova A.E. 2012. Changes in ecosystems of the Middle Taiga due to the impact of beaver activities, Karelia, Russia. Baltic Forestry, 18: 278−287.Search in Google Scholar

19Giriat D., Gorczyca E., Sobucki M. 2016. Beaver ponds' impact on fluvial processes (Beskid Niski Mts., SE Poland). Science of the Total Environment, 544: 339−353.Search in Google Scholar

20Grudzinski B.P., Cummins H., Vang T.K. 2020. Beaver canals and their environmental effects. Progress in Physical Geography: Earth and Environment, 44: 189–211.Search in Google Scholar

21Haarberg O., Rosell F. 2006. Selective foraging on woody plant species by the Eurasian beaver (Castor fiber) in Telemark, Norway. Journal of Zoology, 270: 201−208.Search in Google Scholar

22Halley D., Rosell F., Saveljev A. 2012. Population and distribution of Eurasian beaver (Castor fiber). Baltic Forestry, 18: 168−175.Search in Google Scholar

23Halley D.J., Rosell F. 2002. The beaver's reconquest of Eurasia: status, population development and management of a conservation success. Mammal Review, 32: 153–178.Search in Google Scholar

24Halley D.J., Saveljev A.P., Rosell F. 2021. Population and distribution of beavers Castor fiber and Castor canadensis in Eurasia. Mammal Review, 51: 1−24.Search in Google Scholar

25Jackowiak M., Busher P., Krauze-Gryz D. 2020. Eurasian Beaver (Castor fiber) winter foraging preferences in Northern Poland – the role of woody vegetation composition and anthropopression level. Animals, 10, 1376.Search in Google Scholar

26Janiszewski P., Hanzal V., Weber B., Gugołek A. 2012. Characteristics of riparian trees and shrubs utilized by the European beaver (Castor fiber) in the Jamy Forest District. Annales UMCS, Sectio EE, 30: 26−33.Search in Google Scholar

27Janiszewski P., Hermanowska Z. 2019. Damage caused by the European beaver (Castor fiber L.) in agricultural and forest farms in view of selected atmospheric factors and animal behavior. Applied Ecology and Environmental Research, 17, 6: 15633–15642.Search in Google Scholar

28Janiszewski P., Gugołek A., Łobanowska A. 2006. Use of shoreline vegetation by the European beaver (Castor fiber L.). Acta Scientiarum Polonorum Silvarum Colendarum Ratio et Industria Lignaria, 5, 2: 63−70.Search in Google Scholar

29Jones C.G., Lawton J.H., Shachak M. 1994. Organisms as ecosystem engineers. Oikos, 69: 373−386.Search in Google Scholar

30Jones C.G., Lawton J.H., Shachak M. 1997. Positive and negative effects of organisms as physical ecosystem engineers. Ecology, 78: 1946−1957.Search in Google Scholar

31Jones K., Gilvear D., Willby N., Gaywood M. 2009. Willow (Salix spp.) and aspen (Populus tremula) regrowth after felling by the Eurasian beaver (Castor fiber): implications for riparian woodland conservation in Scotland. Aquatic Conservation: Marine and Freshwater Ecosystems, 19: 75–87.Search in Google Scholar

32Juhász E., Bede‐Fazekas Á., Katona K., Molnár Z., Biró M. 2022. Foraging decisions with conservation consequences: Interaction between beavers and invasive tree species. Ecology and Evolution, 12, 5: e8899.Search in Google Scholar

33Juhász E., Katona K., Molnár Z., Hahn I., Biró M. 2020. A reintroduced ecosystem engineer species may exacerbate ongoing biological invasion: Selective foraging of the Eurasian beaver in floodplains. Global Ecology and Conservation, 24, e01383.Search in Google Scholar

34Juhász E., Molnár Z., Bede-Fazekas Á., Biró M. 2023. General patterns of beavers’ selective foraging: how to evaluate the effects of a re-emerging driver of vegetation change along Central European small watercourses. Biodiversity and Conservation, 32: 2197–2220.Search in Google Scholar

35Katsman E.A. 2018. Floristic diversity of watercourses and temporary reservoirs of the Ostrovtsovsky Cluster of the Volga Regional Forest-Steppe State Natural Biospheric Reserve impacted by the European Beaver’s expansion. Povolžskij èkologičeskij žurnal, 4: 513–518.Search in Google Scholar

36Kirpotin S.N., Callaghan T.V., Peregon A.M., Babenko A.S., Berman D.I., Bulakhova N.A., Byzaakay A.A., Chernykh T.M., Chursin V., Interesova E.A., Gureev S.P., Kerchev I.A., Kharuk V.I., Khovalyg A. O., Kolpashchikov L.A., Krivets S.A., Kvasnikova Z.N., Kuzhevskaia I.V., Merzlyakov O.E., Nekhoroshev O.G., Popkov V.K., Pyak A.I., Valevich T.O., Volkov I.V., Volkova I.I. 2021. Impacts of environmental change on biodiversity and vegetation dynamics in Siberia. Ambio, 50: 1926–1952.Search in Google Scholar

37Korzeniak J. 2016. Zbiorowiska nieleśne krainy dolin. [in:] A. Górecki, B. Zemanek (ed.) Bieszczadzki Park Narodowy: 40 lat ochrony. Bieszczadzki Park Narodowy, Ustrzyki Górne: 147–159.Search in Google Scholar

38Larsen A., Larsen J.R., Lane S.N. 2021. Dam builders and their works: Beaver influences on the structure and function of river corridor hydrology, geomorphology, biogeochemistry and ecosystems. Earth-Science Reviews, 218: 103623.Search in Google Scholar

39Law A., Gaywood M.J., Jones K.C., Ramsay P., Willby N.J. 2017. Using ecosystem engineers as tools in habitat restoration and rewilding: beaver and wetlands. Science of the Total Environment, 605: 1021–1030.Search in Google Scholar

40Law A., Jones K.C., Willby N.J. 2014a. Medium vs. short-term effects of herbivory by Eurasian beaver on aquatic vegetation. Aquatic Botany, 116: 27−34.Search in Google Scholar

41Law A., Levanoni O., Foster G., Ecke F., Willby N.J. 2019. Are beavers a solution to the freshwater biodiversity crisis? Diversity and Distribution, 25: 1763–1772.Search in Google Scholar

42Law, A., Bunnefeld, N., Willby, N.J. 2014b. Beavers and lilies: selective herbivory and adaptive foraging behavior. Freshwater Biology, 59, 2: 224−232.Search in Google Scholar

43Lodberg-Holm H.K., Garvik E.S., Fountain M.S., Reinhardt S., Rosell F. 2022. Crop circles revealed spatio-temporal patterns of beaver foraging on cereal fields. Agriculture, Ecosystems & Environment, 337: 108066.Search in Google Scholar

44Margaletić J., Grubešić M., Dušak V., Konjević D. 2006. Activity of European beavers (Castor fiber L.) in young pedunculate oak (Quercus robur L.) forests. Veterinarski arhiv, 76: 167–175.Search in Google Scholar

45Margaletić J., Grubešić M., Kalvi T., Videc G. 2007. Influence of European Beaver (Castor fiber L.) on the forest ecosystem of the management unit “Turopoljski Lug”. Šumarski list, 131, 5-6: 257–265.Search in Google Scholar

46Medwecka-Kornaś A., Hawro R. 1993. Vegetation on beaver dams in the Ojców National Park (Southern Poland). Phytocoenologia, 23: 611−618.Search in Google Scholar

47Mikulka O., Homolka M., Drimaj J., Kamler J. 2022b. Feeding behavior of Eurasian beavers (Castor fiber) along small streams in an agricultural landscape. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 70, 2: 71–82.Search in Google Scholar

48Mikulka O., Homolka M., Drimaj J., Kamler J. 2020. European beaver (Castor fiber) in open agricultural landscapes: crop grazing and the potential for economic damage. European Journal of the Wildlife Resources, 66: 101.Search in Google Scholar

49Mikulka O., Pyszko P., Skoták V., Kamler J., Drimaj J., Plhal R., & Homolka M. 2022a. The influence of forestry management on the selection of a non-vegetative diet by the Eurasian Beaver (Castor fiber L.). Animals, 12, 21: 2949.Search in Google Scholar

50Misiukiewicz W., Gruszczyńska J., Grzegrzółka B., Januszewicz M. 2016. Wpływ działalności populacji bobra europejskiego (Castor fiber L.) na roślinność drzewiastą Wigierskiego Parku Narodowego. Roczniki Naukowe Polskiego Towarzystwa Zootechnicznego, 12: 45−64.Search in Google Scholar

51Mróz I. 2010. Zmiany składu gatunkowego flory w strefie przybrzeżnej cieków wodnych Bieszczadzkiego Parku Narodowego jako efekt działalności bobra europejskiego Castor fiber L. Roczniki Bieszczadzkie, 18: 91−111.Search in Google Scholar

52Nolet B.A., Hoekstra A., Ottenheim M.M. 1994. Selective foraging on woody species by the beaver Castor fiber, and its impact on a riparian willow forest. Biological Conservation, 70, 2: 117–128.Search in Google Scholar

53Nummi P., Holopainen S. 2014. Whole‐community facilitation by beaver: ecosystem engineer increases waterbird diversity. Aquatic Conservation: Marine and Freshwater Ecosystems, 24: 623−633.Search in Google Scholar

54Nummi P., Kuuluvainen T. 2013. Forest disturbance by an ecosystem engineer: beaver in boreal forest landscapes. Boreal Environment Research, 18: 13–24.Search in Google Scholar

55O’Connell M.J., Atkinson S.R., Gamez K., Pickering S.P., Dutton J.S. 2008. Forage preferences of the European beaver Castor fiber: implications for re-introduction. Conservation & Society, 6: 190−194.Search in Google Scholar

56Obidziński A., Orczewska A., Cieloszczyk P. 2011. The impact of beavers' (Castor fiber L.) lodges on vascular plant species diversity in forest landscape. Polish Journal of Ecology, 59, 1: 63−73.Search in Google Scholar

57Orzechowski M., Ksepko M. 2017. Siedliskotwórcza rola bobra na przykładzie Nadleśnictwa Borki. Studia i Materiały Centrum Edukacji Przyrodniczo-Leśnej, 19: 22−29.Search in Google Scholar

58Parker J.D., Caudill C.C., Hay M.E. 2007. Beaver herbivory on aquatic plants. Oecologia, 151: 616–625.Search in Google Scholar

59Paşca C., Ungureanu L., Ionescu G., Popa M., Gridan A. 2016. Riparian habitat modelling in the context of beavers (Castor fiber) repopulation in Braşov, Romania. Russian Journal of Theriology, 15: 49–54.Search in Google Scholar

60Pejstrup M.S., Andersen J.R., Mayer M. 2023. Beaver foraging patterns in a human-dominated landscape: Effects on woody vegetation and mammals. Forest Ecology and Management, 528: 120645.Search in Google Scholar

61Piętka S., Misiukiewicz W. 2022. Impact of European Beaver (Castor fiber L.) on vegetation diversity in protected area river valleys. Conservation, 2, 4: 613–626.Search in Google Scholar

62Piton G., Loucougaray G., Daumergue N., Breton V., Evette A. 2020. The beaver’s menu: species and spatial selection of a European beaver population and implications for riverbank bioengineering. Wetlands Ecology and Management, 28, 6: 901–908.Search in Google Scholar

63Puttock A., Graham H.A., Cunliffe A.M., Elliott M., Brazier R.E. 2017. Eurasian beaver activity increases water storage, attenuates flow and mitigates diffuse pollution from intensively-managed grasslands. Science of the Total Environment, 576: 430−443.Search in Google Scholar

64Rakowska R., Stachurska-Swakoń A. 2020. Długoletnia działalność bobra europejskiego Castor fiber a zmiany w przebiegu koryta potoku Syhłowaciec (Bieszczadzki Park Narodowy) – wstępne wyniki badań. Roczniki Bieszczadzkie, 28: 109−119.Search in Google Scholar

65Rakowska R., Stachurska-Swakoń A. 2021. Occurrence of Potamogeton berchtoldii in the Bieszczady Mts., Eastern Carpathians. Roczniki Bieszczadzkie, 29: 161–168.Search in Google Scholar

66Rolauffs P., Hering D., Lohse S. 2001. Composition, invertebrate community and productivity of a beaver dam in comparison to other stream habitat types. Hydrobiologia, 459,1: 201–212.Search in Google Scholar

67Rosell F., Bozser O., Collen P., Parker H. 2005. Ecological impact of beavers Castor fiber and Castor canadensis and their ability to modify ecosystems. Mammal Review, 35: 248–276.Search in Google Scholar

68Rozhkova-Timina I.O., Popkov V.K., Mitchell P.J., Kirpotin S. 2018. Beavers as ecosystem engineers – a review of their positive and negative effects. IOP Conf. Ser.: Earth Environment Sciences, 201: 012015.Search in Google Scholar

69Saveljev A.P., Shar S., Scopin A.E., Otgonbaatar M., Soloviev V.A., Putincev N.I., Lhamsuren N. 2015. Introduced semiaquatic mammals in the Uvs Nuur Hollow (Current distribution and ecological vectors of naturalization). Russian Journal of Biological Invasions, 6, 1: 37–50.Search in Google Scholar

70Schwab V.G., Schmidbauer M. 2003. Beaver (Castor fiber L., Castoridae) management in Bavaria. Neue Serie, 2: 99–106.Search in Google Scholar

71Stringer A.P., Gaywood M.J. 2016. The impacts of beavers Castor spp. on biodiversity and the ecological basis for their reintroduction to Scotland, UK. Mammal Review, 46: 270–283.Search in Google Scholar

72Tajchman K., Czyżowski P., Drozd D. 2018. Food selectivity of European beaver (Castor fiber L.) occurring in the area Lubaczów and Chotyłów Forest Districts. Polish Journal of Natural Sciences, 33, 4: 533−543.Search in Google Scholar

73Urban J., Suchomel J., Dvořák J. 2008. Contribution to the knowledge of woods preferences of European beaver (Castor fiber L. 1758) in bank vegetation on non-forest land in the forest district Soutok (Czech Republic). Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 56: 289–294.Search in Google Scholar

74Verbeylen G. 2003. The unofficial return of the European beaver (Castor fiber) in Flanders (Belgium). Lutra, 46: 123–128.Search in Google Scholar

75Vorel A., Válková L., Hamšíková L., Maloň J., Korbelová J. 2015. Beaver foraging behaviour: seasonal foraging specialization by a choosy generalist herbivore. Behavioral Ecology and Sociobiology, 69: 1221−1235.Search in Google Scholar

76Wajdzik M., Kubacki T., Tomek A. 2013. Szkody wyrządzane przez bobra europejskiego Castor fiber w gospodarce rolnej, leśnej i rybackiej w Małopolsce. Studia i Materiały Centrum Edukacji Przyrodniczo-Leśnej, 15: 131−137.Search in Google Scholar

77Ważna A., Cichocki J., Bojarski J., Gabryś G. 2018. Selective foraging on tree and shrub species by the European beaver Castor fiber in lowland and highland habitats in western Poland. Polish Journal of Ecology, 66, 3: 286−300.Search in Google Scholar

78Wright J.P., Jones C.G., Flecker A.S. 2002. An ecosystem engineer, the beaver, increases species richness at the landscape scale. Oecologia, 132: 96−101.Search in Google Scholar

79Zadorozhnaya G., Trifanova M., Zhukova J. 2014. The colony of Castor fiber in the nature reserve “Dnieper-Orelsky”. News of Dnipropetrovsk State Agrarian and Economic University, 1: 175–179.Search in Google Scholar

80Zav’yalov N.A., Al’bov S.A., Petrosyan V.G., Khlyap L.A., Goryainova Z.I. 2010. Invasion of ecosystem engineer – the European beaver (Castor fiber) – in the Tadenka River basin (Prioksko-Terrasnyi Nature Reserve). Russian Journal of Biology Invasions, 1: 267–281.Search in Google Scholar

81Zavyalov N.A. 2014. Beavers (Castor fiber and Castor canadensis), the founders of habitats and phytophages. Biology Bulletin Reviews, 4: 157–180.Search in Google Scholar

82Zavyalov N.A., Artaev O.N., Potapov S.K., Petrosyan V.G. 2015. Beavers (Castor fiber) of the Mordovia Nature Reserve: Population development history, current state, and prospects. Russian Journal of Biology Invasions, 6: 148–164.Search in Google Scholar