A review of circumpolar moose populations with emphasis on Eurasian moose distribution and densities

Alces alces, Asia, distribution, Eurasian elk, Europe, GIS, harvest, moose, population density Moose (Alces alces) may be among one of the most susceptible big game species to climate change. Development of long-term circumpolar databases of this species’ densities and distributions, combined with b...

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Main Authors: Jensen, William F., Rea, Roy V., Penner, Colin E., Smith, Jason R., Bragina, Eugenia V., Razenkova, Elena, Balčiauskas, Linas, Bao, Heng, Bystiansky, Stanislav, Csányi, Sándor, Chovanova, Zuzana, Done, Gundega, Hackländer, Klaus, Heurich, Marco, Jiang, Guangshun, Kazarez, Alexander, Pusenius, Jyrki, Solberg, Erling Johan, Veeroja, Rauno, Widemo, Fredrik
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Alces alces
Asia
distribution
Eurasian elk
Europe
GIS
harvest
moose
population
density
VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480
Online Access:https://hdl.handle.net/11250/2682655
id ftninstnf:oai:brage.nina.no:11250/2682655
record_format openpolar
spelling ftninstnf:oai:brage.nina.no:11250/2682655 2023-05-15T13:13:03+02:00 A review of circumpolar moose populations with emphasis on Eurasian moose distribution and densities Jensen, William F. Rea, Roy V. Penner, Colin E. Smith, Jason R. Bragina, Eugenia V. Razenkova, Elena Balčiauskas, Linas Bao, Heng Bystiansky, Stanislav Csányi, Sándor Chovanova, Zuzana Done, Gundega Hackländer, Klaus Heurich, Marco Jiang, Guangshun Kazarez, Alexander Pusenius, Jyrki Solberg, Erling Johan Veeroja, Rauno Widemo, Fredrik Asia, Europe 2020 application/pdf https://hdl.handle.net/11250/2682655 eng eng Alces. 2020, 56 63-78. urn:issn:0835-5851 https://hdl.handle.net/11250/2682655 cristin:1838371 63-78 56 Alces Alces alces Asia distribution Eurasian elk Europe GIS harvest moose population density VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480 Peer reviewed Journal article 2020 ftninstnf 2021-12-23T07:17:06Z Alces alces, Asia, distribution, Eurasian elk, Europe, GIS, harvest, moose, population density Moose (Alces alces) may be among one of the most susceptible big game species to climate change. Development of long-term circumpolar databases of this species’ densities and distributions, combined with biological, ecological, and management-related metrics, can help guide research and future international management strategies. We emulated methodology previously used to summarize North American moose population and harvest densities for Eurasian countries with free-ranging moose populations. From these data, we created a GIS layer that summarized the circumpolar distribution and density of moose. The following summary analysis of these data indicates that moose have both expanded and contracted along their southern range boundary in recent decades – with losses along the southern range in eastern Asia, particularly China, Mongolia, and Kazakhstan. In contrast, we documented distributional gains along the western and southwestern range in Europe (Poland, Germany, Czech Republic, Slovakia). In total, 21 countries have free-ranging moose populations; 8 with sustainable populations and hunting seasons, 5 with sustainable populations but no hunting season, and 8 with vagrant individuals occasionally sighted. A region of high-density moose populations spans from the Scandinavian and Baltic countries into the Russian oblasts of Perm and Sverdlovsk. Distributions ca. 2010 indicated that moose occupied an area of about 16,712,600 km2 in Eurasia. Primary range (management units with ≥0.11 moose per km2) composed only 18% of the occupied range while supporting more than 66% of the estimated 1.2 million moose in Eurasia. Additionally, 47% (149,860) of the moose harvested were taken on 10% (1,722,660 km2) of the range. The 2010 circumpolar moose population was estimated to be more than 2.2 million and occupied a range of 26,205,000 km2. Time-series analyses can offer a simple and cost-effective approach to monitor the status of moose populations across large geographical regions and might be particularly insightful given the current and predicted future influences of climate change on moose. Other analyses might address population dynamics, habitat, environmental constraints, and harvest management, among other issues. We encourage jurisdictions to cooperate strategically in implementing and coordinating GIS analyses to monitor, assess, and manage moose populations around the world. We believe these maps can serve as a useful tool for educating the public and policy makers about the importance of habitat and land use practices with respect to maintaining sustainable populations of moose and other species that are dependent upon boreal, temperate broadleaf, and mixed forests. publishedVersion Article in Journal/Newspaper Alces alces Norwegian Institute for Nature Research: Brage NINA
institution Open Polar
collection Norwegian Institute for Nature Research: Brage NINA
op_collection_id ftninstnf
language English
topic Alces alces
Asia
distribution
Eurasian elk
Europe
GIS
harvest
moose
population
density
VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480
spellingShingle Alces alces
Asia
distribution
Eurasian elk
Europe
GIS
harvest
moose
population
density
VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480
Jensen, William F.
Rea, Roy V.
Penner, Colin E.
Smith, Jason R.
Bragina, Eugenia V.
Razenkova, Elena
Balčiauskas, Linas
Bao, Heng
Bystiansky, Stanislav
Csányi, Sándor
Chovanova, Zuzana
Done, Gundega
Hackländer, Klaus
Heurich, Marco
Jiang, Guangshun
Kazarez, Alexander
Pusenius, Jyrki
Solberg, Erling Johan
Veeroja, Rauno
Widemo, Fredrik
A review of circumpolar moose populations with emphasis on Eurasian moose distribution and densities
topic_facet Alces alces
Asia
distribution
Eurasian elk
Europe
GIS
harvest
moose
population
density
VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480
description Alces alces, Asia, distribution, Eurasian elk, Europe, GIS, harvest, moose, population density Moose (Alces alces) may be among one of the most susceptible big game species to climate change. Development of long-term circumpolar databases of this species’ densities and distributions, combined with biological, ecological, and management-related metrics, can help guide research and future international management strategies. We emulated methodology previously used to summarize North American moose population and harvest densities for Eurasian countries with free-ranging moose populations. From these data, we created a GIS layer that summarized the circumpolar distribution and density of moose. The following summary analysis of these data indicates that moose have both expanded and contracted along their southern range boundary in recent decades – with losses along the southern range in eastern Asia, particularly China, Mongolia, and Kazakhstan. In contrast, we documented distributional gains along the western and southwestern range in Europe (Poland, Germany, Czech Republic, Slovakia). In total, 21 countries have free-ranging moose populations; 8 with sustainable populations and hunting seasons, 5 with sustainable populations but no hunting season, and 8 with vagrant individuals occasionally sighted. A region of high-density moose populations spans from the Scandinavian and Baltic countries into the Russian oblasts of Perm and Sverdlovsk. Distributions ca. 2010 indicated that moose occupied an area of about 16,712,600 km2 in Eurasia. Primary range (management units with ≥0.11 moose per km2) composed only 18% of the occupied range while supporting more than 66% of the estimated 1.2 million moose in Eurasia. Additionally, 47% (149,860) of the moose harvested were taken on 10% (1,722,660 km2) of the range. The 2010 circumpolar moose population was estimated to be more than 2.2 million and occupied a range of 26,205,000 km2. Time-series analyses can offer a simple and cost-effective approach to monitor the status of moose populations across large geographical regions and might be particularly insightful given the current and predicted future influences of climate change on moose. Other analyses might address population dynamics, habitat, environmental constraints, and harvest management, among other issues. We encourage jurisdictions to cooperate strategically in implementing and coordinating GIS analyses to monitor, assess, and manage moose populations around the world. We believe these maps can serve as a useful tool for educating the public and policy makers about the importance of habitat and land use practices with respect to maintaining sustainable populations of moose and other species that are dependent upon boreal, temperate broadleaf, and mixed forests. publishedVersion
format Article in Journal/Newspaper
author Jensen, William F.
Rea, Roy V.
Penner, Colin E.
Smith, Jason R.
Bragina, Eugenia V.
Razenkova, Elena
Balčiauskas, Linas
Bao, Heng
Bystiansky, Stanislav
Csányi, Sándor
Chovanova, Zuzana
Done, Gundega
Hackländer, Klaus
Heurich, Marco
Jiang, Guangshun
Kazarez, Alexander
Pusenius, Jyrki
Solberg, Erling Johan
Veeroja, Rauno
Widemo, Fredrik
author_facet Jensen, William F.
Rea, Roy V.
Penner, Colin E.
Smith, Jason R.
Bragina, Eugenia V.
Razenkova, Elena
Balčiauskas, Linas
Bao, Heng
Bystiansky, Stanislav
Csányi, Sándor
Chovanova, Zuzana
Done, Gundega
Hackländer, Klaus
Heurich, Marco
Jiang, Guangshun
Kazarez, Alexander
Pusenius, Jyrki
Solberg, Erling Johan
Veeroja, Rauno
Widemo, Fredrik
author_sort Jensen, William F.
title A review of circumpolar moose populations with emphasis on Eurasian moose distribution and densities
title_short A review of circumpolar moose populations with emphasis on Eurasian moose distribution and densities
title_full A review of circumpolar moose populations with emphasis on Eurasian moose distribution and densities
title_fullStr A review of circumpolar moose populations with emphasis on Eurasian moose distribution and densities
title_full_unstemmed A review of circumpolar moose populations with emphasis on Eurasian moose distribution and densities
title_sort review of circumpolar moose populations with emphasis on eurasian moose distribution and densities
publishDate 2020
url https://hdl.handle.net/11250/2682655
op_coverage Asia, Europe
genre Alces alces
genre_facet Alces alces
op_source 63-78
56
Alces
op_relation Alces. 2020, 56 63-78.
urn:issn:0835-5851
https://hdl.handle.net/11250/2682655
cristin:1838371
_version_ 1766255709881630720

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