Long-term monitoring of lemming abundance and reproductive activity on Bylot Island, Nunavut
We monitor lemming abundance and demography using three methods. (1) Dead trapping using snap-traps at 3 sites on the island in mid to late July (since 1993); we cumulate at least 500 trap-nights at each site annually by trapping over periods ranging from 3 to 10 days. (2) Capture-mark-recapture by...
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Canadian Cryospheric Information Network
2015
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Online Access: | https://dx.doi.org/10.5443/624 https://www.polardata.ca/pdcsearch/?doi_id=624 |
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record_format |
openpolar |
institution |
Open Polar |
collection |
DataCite Metadata Store (German National Library of Science and Technology) |
op_collection_id |
ftdatacite |
language |
English |
topic |
Abundance Brown lemming Bylot Island Collared lemming Lemmings Mammals Population dynamics Reproductive ecology Small mammals Arctic Development and Adaptation to Permafrost in Transition ArcticNet Network of Centres of Excellence of Canada Circumpolar Biodiversity Monitoring Program, Conservation of Arctic Flora and Fauna - Terrestrial International Polar Year-Arctic Wildlife Observatories Linking Vulnerable EcoSystems Polar Knowledge Canada/Canadian High Arctic Research Station |
spellingShingle |
Abundance Brown lemming Bylot Island Collared lemming Lemmings Mammals Population dynamics Reproductive ecology Small mammals Arctic Development and Adaptation to Permafrost in Transition ArcticNet Network of Centres of Excellence of Canada Circumpolar Biodiversity Monitoring Program, Conservation of Arctic Flora and Fauna - Terrestrial International Polar Year-Arctic Wildlife Observatories Linking Vulnerable EcoSystems Polar Knowledge Canada/Canadian High Arctic Research Station Gauthier, Gilles Cadieux, Marie-Christine Centre D'études Nordiques Long-term monitoring of lemming abundance and reproductive activity on Bylot Island, Nunavut |
topic_facet |
Abundance Brown lemming Bylot Island Collared lemming Lemmings Mammals Population dynamics Reproductive ecology Small mammals Arctic Development and Adaptation to Permafrost in Transition ArcticNet Network of Centres of Excellence of Canada Circumpolar Biodiversity Monitoring Program, Conservation of Arctic Flora and Fauna - Terrestrial International Polar Year-Arctic Wildlife Observatories Linking Vulnerable EcoSystems Polar Knowledge Canada/Canadian High Arctic Research Station |
description |
We monitor lemming abundance and demography using three methods. (1) Dead trapping using snap-traps at 3 sites on the island in mid to late July (since 1993); we cumulate at least 500 trap-nights at each site annually by trapping over periods ranging from 3 to 10 days. (2) Capture-mark-recapture by live trapping animals using Longworth traps on three 7 to 11 ha grids (100 to 144 traps/grid) in wetland (1 grid) and mesic (2 grids) habitats since 2004. Trapping sessions last for 3 consecutive days (4 or 5 days in 2004 to 2007) and are repeated three times (4 times in 2005 to 2007) during the summer from mid-June to mid-August. In 2015, we added three 7 ha grids (96 to 100 traps/grid) in mixed habitats in 3 additional sites where trapping is conducted during one trapping session. The species, age, sex and reproductive condition of all captured animals is also determined. One of the live-trapping grids in mesic habitat was subjected to various experimental manipulations. From 2007 to 2011, snow fences were used to enhance snow depths in order to determine its effect on lemming abundance and distribution. Snow fences (1.3 m high) was erected in 6 rows of fencing 270 m long each and perpendicular to the prevailing wind (spacing varies between 30 and 50 m, with greater spacing toward prevailing wind). Since 2012, the grid used for the snow fencing experiment is now used for a predator control experiment. All terrestrial and avian predators (except ermine) are excluded by a 1.3 to 2-m high fence made of chicken wire surrounding the grid and covered by criss-crossing fishing line spaced every 50 cm on top. (3) Survey of lemming winter nests after snow-melt in early July using the line transect method since 2007. Each transect is permanent (since 2009), is 500 m long and randomly located within each habitat. A total of 60 line transects is surveyed in wetlands, mesic tundra and streams in mesic tundra (20 transects/habitat). In 2007 and 2008, number of transects were 75 (25 per habitat) and 30 (10 per habitat), respectively. The exact position of each nest found along the transect is noted. In addition, each spring, all winter nests are systematically counted on our live trapping grids by walking parallel lines 5 m apart. Winter nests found opportunistically are also collected in years of low lemming abundance. All winter nests are dissected to determine the lemming species using the nest, reproductive activity (based on pellet size) and signs of predation. : Purpose: Lemmings are an important tundra species on which many birds of prey, foxes and weasels depend for survival. Lemming abundance is cyclic (3-4 years), but cycles have been disrupted in some areas (e.g. Scandinavia), possibly due to changes in snow cover triggered by climate change. Periodic high abundance of lemmings is essential to ensure good reproductive success of their predators and for the long-term persistence of their populations. Collapse of lemming populations could have major effects on tundra ecosystems, including specialist predators like raptors and arctic foxes, thereby indirectly affecting species of high value for Northerners. Very little is known regarding lemming populations in Arctic Canada. Most populations are thought to be cyclic, though not all of them. There is also a dearth of information regarding possible temporal changes in lemming population dynamics in Canada compared to the information available in Northern Europe. : Summary: Not Applicable |
format |
Dataset |
author |
Gauthier, Gilles Cadieux, Marie-Christine Centre D'études Nordiques |
author_facet |
Gauthier, Gilles Cadieux, Marie-Christine Centre D'études Nordiques |
author_sort |
Gauthier, Gilles |
title |
Long-term monitoring of lemming abundance and reproductive activity on Bylot Island, Nunavut |
title_short |
Long-term monitoring of lemming abundance and reproductive activity on Bylot Island, Nunavut |
title_full |
Long-term monitoring of lemming abundance and reproductive activity on Bylot Island, Nunavut |
title_fullStr |
Long-term monitoring of lemming abundance and reproductive activity on Bylot Island, Nunavut |
title_full_unstemmed |
Long-term monitoring of lemming abundance and reproductive activity on Bylot Island, Nunavut |
title_sort |
long-term monitoring of lemming abundance and reproductive activity on bylot island, nunavut |
publisher |
Canadian Cryospheric Information Network |
publishDate |
2015 |
url |
https://dx.doi.org/10.5443/624 https://www.polardata.ca/pdcsearch/?doi_id=624 |
geographic |
Arctic Nunavut Bylot Island Canada |
geographic_facet |
Arctic Nunavut Bylot Island Canada |
genre |
Arctic ArcticNet Bylot Island Circumpolar biodiversity monitoring program Climate change Conservation of Arctic Flora and Fauna Ermine International Polar Year Nunavut permafrost Tundra |
genre_facet |
Arctic ArcticNet Bylot Island Circumpolar biodiversity monitoring program Climate change Conservation of Arctic Flora and Fauna Ermine International Polar Year Nunavut permafrost Tundra |
op_rights |
Public |
op_doi |
https://doi.org/10.5443/624 |
_version_ |
1766327948463308800 |
spelling |
ftdatacite:10.5443/624 2023-05-15T14:55:56+02:00 Long-term monitoring of lemming abundance and reproductive activity on Bylot Island, Nunavut Gauthier, Gilles Cadieux, Marie-Christine Centre D'études Nordiques 2015 https://dx.doi.org/10.5443/624 https://www.polardata.ca/pdcsearch/?doi_id=624 en eng Canadian Cryospheric Information Network Public Abundance Brown lemming Bylot Island Collared lemming Lemmings Mammals Population dynamics Reproductive ecology Small mammals Arctic Development and Adaptation to Permafrost in Transition ArcticNet Network of Centres of Excellence of Canada Circumpolar Biodiversity Monitoring Program, Conservation of Arctic Flora and Fauna - Terrestrial International Polar Year-Arctic Wildlife Observatories Linking Vulnerable EcoSystems Polar Knowledge Canada/Canadian High Arctic Research Station dataset Dataset 2015 ftdatacite https://doi.org/10.5443/624 2021-11-05T12:55:41Z We monitor lemming abundance and demography using three methods. (1) Dead trapping using snap-traps at 3 sites on the island in mid to late July (since 1993); we cumulate at least 500 trap-nights at each site annually by trapping over periods ranging from 3 to 10 days. (2) Capture-mark-recapture by live trapping animals using Longworth traps on three 7 to 11 ha grids (100 to 144 traps/grid) in wetland (1 grid) and mesic (2 grids) habitats since 2004. Trapping sessions last for 3 consecutive days (4 or 5 days in 2004 to 2007) and are repeated three times (4 times in 2005 to 2007) during the summer from mid-June to mid-August. In 2015, we added three 7 ha grids (96 to 100 traps/grid) in mixed habitats in 3 additional sites where trapping is conducted during one trapping session. The species, age, sex and reproductive condition of all captured animals is also determined. One of the live-trapping grids in mesic habitat was subjected to various experimental manipulations. From 2007 to 2011, snow fences were used to enhance snow depths in order to determine its effect on lemming abundance and distribution. Snow fences (1.3 m high) was erected in 6 rows of fencing 270 m long each and perpendicular to the prevailing wind (spacing varies between 30 and 50 m, with greater spacing toward prevailing wind). Since 2012, the grid used for the snow fencing experiment is now used for a predator control experiment. All terrestrial and avian predators (except ermine) are excluded by a 1.3 to 2-m high fence made of chicken wire surrounding the grid and covered by criss-crossing fishing line spaced every 50 cm on top. (3) Survey of lemming winter nests after snow-melt in early July using the line transect method since 2007. Each transect is permanent (since 2009), is 500 m long and randomly located within each habitat. A total of 60 line transects is surveyed in wetlands, mesic tundra and streams in mesic tundra (20 transects/habitat). In 2007 and 2008, number of transects were 75 (25 per habitat) and 30 (10 per habitat), respectively. The exact position of each nest found along the transect is noted. In addition, each spring, all winter nests are systematically counted on our live trapping grids by walking parallel lines 5 m apart. Winter nests found opportunistically are also collected in years of low lemming abundance. All winter nests are dissected to determine the lemming species using the nest, reproductive activity (based on pellet size) and signs of predation. : Purpose: Lemmings are an important tundra species on which many birds of prey, foxes and weasels depend for survival. Lemming abundance is cyclic (3-4 years), but cycles have been disrupted in some areas (e.g. Scandinavia), possibly due to changes in snow cover triggered by climate change. Periodic high abundance of lemmings is essential to ensure good reproductive success of their predators and for the long-term persistence of their populations. Collapse of lemming populations could have major effects on tundra ecosystems, including specialist predators like raptors and arctic foxes, thereby indirectly affecting species of high value for Northerners. Very little is known regarding lemming populations in Arctic Canada. Most populations are thought to be cyclic, though not all of them. There is also a dearth of information regarding possible temporal changes in lemming population dynamics in Canada compared to the information available in Northern Europe. : Summary: Not Applicable Dataset Arctic ArcticNet Bylot Island Circumpolar biodiversity monitoring program Climate change Conservation of Arctic Flora and Fauna Ermine International Polar Year Nunavut permafrost Tundra DataCite Metadata Store (German National Library of Science and Technology) Arctic Nunavut Bylot Island Canada |