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3. Mapping out a future for ungulate migrations : Limited mapping of migrations hampers conservation

Author

KAUFFMAN, MATTHEW J., CAGNACCI, FRANCESCA, CHAMAILLÉ-JAMMES, SIMON, HEBBLEWHITE, MARK J., HOPCRAFT, GRANT C., MERKLE, JEROD A., MUELLER, THOMAS, MYSTERUD, ATLE, PETERS, WIBKE, ROETTGER, CHRISTIANE, STEINGISSER, ALETHEA, MEACHAM, JAMES E., ABERA, KASAHUN, ADAMCZEWSKI, JAN, AIKENS, ELLEN O., BARTLAM-BROOKS, HATTIE, BENNITT, EMILY, BERGER, JOEL, BOYD, CHARLOTTE, CÔTÉ, STEEVE D., DEBEFFE, LUCIE, DEKROUT, ANDREA S., DEJID, NANDINTSETSEG, DONADIO, EMILIANO, DZIBA, LUTHANDO, FAGAN, WILLIAM F., FISCHER, CLAUDE, FOCARDI, STEFANO, FRYXELL, JOHN M., FYNN, RICHARD W. S., GEREMIA, CHRIS, GONZÁLEZ, BENITO A., GUNN, ANNE, GURARIE, ELIE, HEURICH, MARCO, HILTY, JODI, HURLEY, MARK, JOHNSON, ARAN, JOLY, KYLE, KACZENSKY, PETRA, KENDALL, CORINNE J., KOCHKAREV, PAVEL, KOLPASCHIKOV, LEONID, KOWALCZYK, RAFAŁ, LANGEVELDE, FRANK VAN, LI, BINBIN V., LOBORA, ALEX L., LOISON, ANNE, MADIRI, TINAAPI H., MALLON, DAVID, MARCHAND, PASCAL, MEDELLIN, RODRIGO A., MEISINGSET, ERLING, MERRILL, EVELYN, MIDDLETON, ARTHUR D., MONTEITH, KEVIN L., MORJAN, MALIK, MORRISON, THOMAS A., MUMME, STEFFEN, NAIDOO, ROBIN, NOVARO, ANDRES, OGUTU, JOSEPH O., OLSON, KIRK A., OTENG-YEBOAH, ALFRED, OVEJERO, RAMIRO J. A., OWEN-SMITH, NORMAN, PAASIVAARA, ANTTI, PACKER, CRAIG, PANCHENKO, DANILA, PEDROTTI, LUCA, PLUMPTRE, ANDREW J., ROLANDSEN, CHRISTER M., SAID, SONIA, SALEMGAREYEV, ALBERT, SAVCHENKO, ALEKSANDR, SAVCHENKO, PIOTR, SAWYER, HALL, SELEBATSO, MOSES, SKROCH, MATTHEW, SOLBERG, ERLING, STABACH, JARED A., STRAND, OLAV, SUITOR, MICHAEL J., TACHIKI, YASUYUKI, TRAINOR, ANNE, TSHIPA, ARNOLD, VIRANI, MUNIR Z., VYNNE, CARLY, WARD, STEPHANIE, WITTEMYER, GEORGE, XU, WENJING, ZUTHER, STEFFEN, KAUFFMAN, MATTHEW J., CAGNACCI, FRANCESCA, CHAMAILLÉ-JAMMES, SIMON, HEBBLEWHITE, MARK J., HOPCRAFT, GRANT C., MERKLE, JEROD A., MUELLER, THOMAS, MYSTERUD, ATLE, PETERS, WIBKE, ROETTGER, CHRISTIANE, STEINGISSER, ALETHEA, MEACHAM, JAMES E., ABERA, KASAHUN, ADAMCZEWSKI, JAN, AIKENS, ELLEN O., BARTLAM-BROOKS, HATTIE, BENNITT, EMILY, BERGER, JOEL, BOYD, CHARLOTTE, CÔTÉ, STEEVE D., DEBEFFE, LUCIE, DEKROUT, ANDREA S., DEJID, NANDINTSETSEG, DONADIO, EMILIANO, DZIBA, LUTHANDO, FAGAN, WILLIAM F., FISCHER, CLAUDE, FOCARDI, STEFANO, FRYXELL, JOHN M., FYNN, RICHARD W. S., GEREMIA, CHRIS, GONZÁLEZ, BENITO A., GUNN, ANNE, GURARIE, ELIE, HEURICH, MARCO, HILTY, JODI, HURLEY, MARK, JOHNSON, ARAN, JOLY, KYLE, KACZENSKY, PETRA, KENDALL, CORINNE J., KOCHKAREV, PAVEL, KOLPASCHIKOV, LEONID, KOWALCZYK, RAFAŁ, LANGEVELDE, FRANK VAN, LI, BINBIN V., LOBORA, ALEX L., LOISON, ANNE, MADIRI, TINAAPI H., MALLON, DAVID, MARCHAND, PASCAL, MEDELLIN, RODRIGO A., MEISINGSET, ERLING, MERRILL, EVELYN, MIDDLETON, ARTHUR D., MONTEITH, KEVIN L., MORJAN, MALIK, MORRISON, THOMAS A., MUMME, STEFFEN, NAIDOO, ROBIN, NOVARO, ANDRES, OGUTU, JOSEPH O., OLSON, KIRK A., OTENG-YEBOAH, ALFRED, OVEJERO, RAMIRO J. A., OWEN-SMITH, NORMAN, PAASIVAARA, ANTTI, PACKER, CRAIG, PANCHENKO, DANILA, PEDROTTI, LUCA, PLUMPTRE, ANDREW J., ROLANDSEN, CHRISTER M., SAID, SONIA, SALEMGAREYEV, ALBERT, SAVCHENKO, ALEKSANDR, SAVCHENKO, PIOTR, SAWYER, HALL, SELEBATSO, MOSES, SKROCH, MATTHEW, SOLBERG, ERLING, STABACH, JARED A., STRAND, OLAV, SUITOR, MICHAEL J., TACHIKI, YASUYUKI, TRAINOR, ANNE, TSHIPA, ARNOLD, VIRANI, MUNIR Z., VYNNE, CARLY, WARD, STEPHANIE, WITTEMYER, GEORGE, XU, WENJING, and ZUTHER, STEFFEN

Abstract

type:Article

Published
2023

4. Caribou and reindeer migrations in the changing Arctic

Author

Joly, Kyle, Gunn, Anne, Côté, Steeve D., Panzacchi, Manuela, Adamczewski, Jan, Suitor, Michael J., and Gurarie, Eliezer

Subjects
Connectivity, Mitigation, Ecology, Rangifer, QH301-705.5, Zoology and botany: 480 [VDP], barrier effect, conservation, Conservation, Development, Barrier effect, mitigation, climate change, connectivity, Climate change, Animal Science and Zoology, Biology (General), Zoologiske og botaniske fag: 480 [VDP], development, Ecology, Evolution, Behavior and Systematics, rangifer
Abstract

Caribou and reindeer, Rangifer tarandus, are the most numerous and socio-ecologically important terrestrial species in the Arctic. Their migrations are directly and indirectly affected by the seasonal nature of the northernmost regions, human development and population size; all of which are impacted by climate change. We review the most critical drivers of Rangifer migration and how a rapidly changing Arctic may affect them. In order to conserve large Rangifer populations, they must be allowed free passage along their migratory routes to reach seasonal ranges. We also provide some pragmatic ideas to help conserve Rangifer migrations into the future.

Published
2021

8. Mapping out a future for ungulate migrations : Limited mapping of migrations hampers conservation

Author

KAUFFMAN, MATTHEW J., CAGNACCI, FRANCESCA, CHAMAILLÉ-JAMMES, SIMON, HEBBLEWHITE, MARK J., HOPCRAFT, GRANT C., MERKLE, JEROD A., MUELLER, THOMAS, MYSTERUD, ATLE, PETERS, WIBKE, ROETTGER, CHRISTIANE, STEINGISSER, ALETHEA, MEACHAM, JAMES E., ABERA, KASAHUN, ADAMCZEWSKI, JAN, AIKENS, ELLEN O., BARTLAM-BROOKS, HATTIE, BENNITT, EMILY, BERGER, JOEL, BOYD, CHARLOTTE, CÔTÉ, STEEVE D., DEBEFFE, LUCIE, DEKROUT, ANDREA S., DEJID, NANDINTSETSEG, DONADIO, EMILIANO, DZIBA, LUTHANDO, FAGAN, WILLIAM F., FISCHER, CLAUDE, FOCARDI, STEFANO, FRYXELL, JOHN M., FYNN, RICHARD W. S., GEREMIA, CHRIS, GONZÁLEZ, BENITO A., GUNN, ANNE, GURARIE, ELIE, HEURICH, MARCO, HILTY, JODI, HURLEY, MARK, JOHNSON, ARAN, JOLY, KYLE, KACZENSKY, PETRA, KENDALL, CORINNE J., KOCHKAREV, PAVEL, KOLPASCHIKOV, LEONID, KOWALCZYK, RAFAŁ, LANGEVELDE, FRANK VAN, LI, BINBIN V., LOBORA, ALEX L., LOISON, ANNE, MADIRI, TINAAPI H., MALLON, DAVID, MARCHAND, PASCAL, MEDELLIN, RODRIGO A., MEISINGSET, ERLING, MERRILL, EVELYN, MIDDLETON, ARTHUR D., MONTEITH, KEVIN L., MORJAN, MALIK, MORRISON, THOMAS A., MUMME, STEFFEN, NAIDOO, ROBIN, NOVARO, ANDRES, OGUTU, JOSEPH O., OLSON, KIRK A., OTENG-YEBOAH, ALFRED, OVEJERO, RAMIRO J. A., OWEN-SMITH, NORMAN, PAASIVAARA, ANTTI, PACKER, CRAIG, PANCHENKO, DANILA, PEDROTTI, LUCA, PLUMPTRE, ANDREW J., ROLANDSEN, CHRISTER M., SAID, SONIA, SALEMGAREYEV, ALBERT, SAVCHENKO, ALEKSANDR, SAVCHENKO, PIOTR, SAWYER, HALL, SELEBATSO, MOSES, SKROCH, MATTHEW, SOLBERG, ERLING, STABACH, JARED A., STRAND, OLAV, SUITOR, MICHAEL J., TACHIKI, YASUYUKI, TRAINOR, ANNE, TSHIPA, ARNOLD, VIRANI, MUNIR Z., VYNNE, CARLY, WARD, STEPHANIE, WITTEMYER, GEORGE, XU, WENJING, ZUTHER, STEFFEN, KAUFFMAN, MATTHEW J., CAGNACCI, FRANCESCA, CHAMAILLÉ-JAMMES, SIMON, HEBBLEWHITE, MARK J., HOPCRAFT, GRANT C., MERKLE, JEROD A., MUELLER, THOMAS, MYSTERUD, ATLE, PETERS, WIBKE, ROETTGER, CHRISTIANE, STEINGISSER, ALETHEA, MEACHAM, JAMES E., ABERA, KASAHUN, ADAMCZEWSKI, JAN, AIKENS, ELLEN O., BARTLAM-BROOKS, HATTIE, BENNITT, EMILY, BERGER, JOEL, BOYD, CHARLOTTE, CÔTÉ, STEEVE D., DEBEFFE, LUCIE, DEKROUT, ANDREA S., DEJID, NANDINTSETSEG, DONADIO, EMILIANO, DZIBA, LUTHANDO, FAGAN, WILLIAM F., FISCHER, CLAUDE, FOCARDI, STEFANO, FRYXELL, JOHN M., FYNN, RICHARD W. S., GEREMIA, CHRIS, GONZÁLEZ, BENITO A., GUNN, ANNE, GURARIE, ELIE, HEURICH, MARCO, HILTY, JODI, HURLEY, MARK, JOHNSON, ARAN, JOLY, KYLE, KACZENSKY, PETRA, KENDALL, CORINNE J., KOCHKAREV, PAVEL, KOLPASCHIKOV, LEONID, KOWALCZYK, RAFAŁ, LANGEVELDE, FRANK VAN, LI, BINBIN V., LOBORA, ALEX L., LOISON, ANNE, MADIRI, TINAAPI H., MALLON, DAVID, MARCHAND, PASCAL, MEDELLIN, RODRIGO A., MEISINGSET, ERLING, MERRILL, EVELYN, MIDDLETON, ARTHUR D., MONTEITH, KEVIN L., MORJAN, MALIK, MORRISON, THOMAS A., MUMME, STEFFEN, NAIDOO, ROBIN, NOVARO, ANDRES, OGUTU, JOSEPH O., OLSON, KIRK A., OTENG-YEBOAH, ALFRED, OVEJERO, RAMIRO J. A., OWEN-SMITH, NORMAN, PAASIVAARA, ANTTI, PACKER, CRAIG, PANCHENKO, DANILA, PEDROTTI, LUCA, PLUMPTRE, ANDREW J., ROLANDSEN, CHRISTER M., SAID, SONIA, SALEMGAREYEV, ALBERT, SAVCHENKO, ALEKSANDR, SAVCHENKO, PIOTR, SAWYER, HALL, SELEBATSO, MOSES, SKROCH, MATTHEW, SOLBERG, ERLING, STABACH, JARED A., STRAND, OLAV, SUITOR, MICHAEL J., TACHIKI, YASUYUKI, TRAINOR, ANNE, TSHIPA, ARNOLD, VIRANI, MUNIR Z., VYNNE, CARLY, WARD, STEPHANIE, WITTEMYER, GEORGE, XU, WENJING, and ZUTHER, STEFFEN

Abstract

Article

Published
2021

9. Mapping out a future for ungulate migrations

Author

Kauffman, Matthew J., primary, Cagnacci, Francesca, additional, Chamaillé-Jammes, Simon, additional, Hebblewhite, Mark, additional, Hopcraft, J. Grant C., additional, Merkle, Jerod A., additional, Mueller, Thomas, additional, Mysterud, Atle, additional, Peters, Wibke, additional, Roettger, Christiane, additional, Steingisser, Alethea, additional, Meacham, James E., additional, Abera, Kasahun, additional, Adamczewski, Jan, additional, Aikens, Ellen O., additional, Bartlam-Brooks, Hattie, additional, Bennitt, Emily, additional, Berger, Joel, additional, Boyd, Charlotte, additional, Côté, Steeve D., additional, Debeffe, Lucie, additional, Dekrout, Andrea S., additional, Dejid, Nandintsetseg, additional, Donadio, Emiliano, additional, Dziba, Luthando, additional, Fagan, William F., additional, Fischer, Claude, additional, Focardi, Stefano, additional, Fryxell, John M., additional, Fynn, Richard W. S., additional, Geremia, Chris, additional, González, Benito A., additional, Gunn, Anne, additional, Gurarie, Elie, additional, Heurich, Marco, additional, Hilty, Jodi, additional, Hurley, Mark, additional, Johnson, Aran, additional, Joly, Kyle, additional, Kaczensky, Petra, additional, Kendall, Corinne J., additional, Kochkarev, Pavel, additional, Kolpaschikov, Leonid, additional, Kowalczyk, Rafał, additional, van Langevelde, Frank, additional, Li, Binbin V., additional, Lobora, Alex L., additional, Loison, Anne, additional, Madiri, Tinaapi H., additional, Mallon, David, additional, Marchand, Pascal, additional, Medellin, Rodrigo A., additional, Meisingset, Erling, additional, Merrill, Evelyn, additional, Middleton, Arthur D., additional, Monteith, Kevin L., additional, Morjan, Malik, additional, Morrison, Thomas A., additional, Mumme, Steffen, additional, Naidoo, Robin, additional, Novaro, Andres, additional, Ogutu, Joseph O., additional, Olson, Kirk A., additional, Oteng-Yeboah, Alfred, additional, Ovejero, Ramiro J. A., additional, Owen-Smith, Norman, additional, Paasivaara, Antti, additional, Packer, Craig, additional, Panchenko, Danila, additional, Pedrotti, Luca, additional, Plumptre, Andrew J., additional, Rolandsen, Christer M., additional, Said, Sonia, additional, Salemgareyev, Albert, additional, Savchenko, Aleksandr, additional, Savchenko, Piotr, additional, Sawyer, Hall, additional, Selebatso, Moses, additional, Skroch, Matthew, additional, Solberg, Erling, additional, Stabach, Jared A., additional, Strand, Olav, additional, Suitor, Michael J., additional, Tachiki, Yasuyuki, additional, Trainor, Anne, additional, Tshipa, Arnold, additional, Virani, Munir Z., additional, Vynne, Carly, additional, Ward, Stephanie, additional, Wittemyer, George, additional, Xu, Wenjing, additional, and Zuther, Steffen, additional

Published
2021
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14. Quantifying Elements in Arctic Grayling and Bull Trout in the South Nahanni River Watershed, Northwest Territories, Using Nonlethal Tissue Samples.

Author

Anderson, Julie, Scrimgeour, Garry, Palace, Vince, Suitor, Michael, and Wilcockson, John

Subjects
ARCTIC grayling, BULL trout, FISHERIES, ADIPOSE tissues
Abstract

Monitoring of contaminants in fish generally involves lethal sampling, but public scrutiny and increased pressure on fisheries have driven the need to develop nonlethal sampling methods. We examined the ability of adipose, anal, and caudal fin tissues to serve as nonlethal surrogates for lethal muscle tissue samples in the analysis of metals (elements). First, we evaluated the use of biopsies by examining relationships between concentrations of 39 elements in low-volume dorsal muscle biopsies and high-volume muscle samples from Arctic GraylingThymallus arcticusand Bull TroutSalvelinus confluentuscollected in the South Nahanni River watershed, Northwest Territories, Canada. Low-volume dorsal biopsy samples in this study served to most closely model the concentrations of elements found in high-volume dorsal samples; caudal and anal fins were more representative of high-volume dorsal samples than were adipose fins. Regressions between high- and low-volume dorsal muscle samples were significant for 12 elements/species, with Cs, Rb, and Tl having the strongest relationships in both species. Regression analyses comparing low-volume muscle samples and fin samples revealed variation between Arctic Grayling and Bull Trout, but Co, Hg, and Tl concentrations among samples were strongly related for both species. Addition of fish length or age as a covariate did not greatly improve the predictive power of calculated regressions. For future monitoring, selection of a nonlethal sampling strategy (e.g., use of dorsal biopsy or adipose fin samples) will require consideration of the element of interest, the primary route of exposure, interaction with other elements, and the basic biology and ecology of the fish species. Ideally, nonlethal sampling tools can be further developed for the two species to promote inclusion of community partners; these tools offer sustainable, long-term approaches for monitoring sensitive fish populations in northern Canadian habitats. Received February 29, 2016; accepted September 9, 2016Published online December 20, 2016 [ABSTRACT FROM AUTHOR]

Published
2017
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15. Accuracy and performance of low-feature GPS collars deployed on bison Bison bisonand caribou Rangifer tarandus

Author

Jung, Thomas S., Hegel, Troy M., Bentzen, Torsten W., Egli, Katherina, Jessup, Lars, Kienzler, Martin, Kuba, Kazuhisa, Kukka, Piia M., Russell, Kyle, Suitor, Michael P., and Tatsumi, Kenji

Abstract

Recently, a new generation of global positioning system (GPS) collars has become available that provides limited daily location fixes, a relatively long battery life, and are low-cost, compared to full-featured GPS collars. However, their performance is untested, and assessing these biases is needed to inform study designs and data analysis protocols. We used stationary tests of 15 Lotek LifeCycle GPS collars – an example of low-feature GPS collars – to measure the accuracy of location fixes. In addition, we deployed Lotek Lifecycle GPS collars on 153 caribou Rangifer tarandusand 24 bison Bison bisonin Yukon and Alaska, to assess their field performance. We examined differences among species, sex, location fix schedule, and latitude, on four performance metrics (FSR, 3D-V FSR, DOP and DSR). Stationary trials indicated that mean precision (4.3 ± 4.0 m [SD]) and accuracy (6.0 ± 4.7 m) of location fixes was excellent, and FSR was good (87.2%), albeit both were slightly affected by forest canopy cover. Field performance varied by species and sex. Notably, the mean DSR for male bison was dismal (27.4 ± 24.2%) likely because of their behaviour, and the mean FSR, 3DV-FSR and DOP, for male caribou was poor (FSR = 57.3 ± 2.0%), compared to collars deployed on female caribou (72.2 ± 1.7%) or female bison (77.9 ± 1.4%). We also observed that the VHF transmitters often failed when the collar malfunctioned. Biases in the accuracy and performance of these low-cost GPS collars should be taken into account when designing studies. Researchers contemplating investing in low-feature GPS collars require information on their ‘real-world’ performance so that they can decide whether they are appropriate for their intended application. Moreover, researchers need to consider biases in their GPS collar data prior to embarking on field studies and when conducting analyses with the data collected from them.

Published
2018
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