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2. The α2,3-selective potentiator of GABAA receptors, KRM-II-81, reduces nociceptive-associated behaviors induced by formalin and spinal nerve ligation in rats

Author

Witkin, J.M., Cerne, R., Davis, P.G., Freeman, K.B., do Carmo, J.M., Rowlett, J.K., Methuku, K.R., Okun, A., Gleason, S.D., Li, X., Krambis, M.J., Poe, M., Li, G., Schkeryantz, J.M., Jahan, R., Yang, L., Guo, W., Golani, L.K., Anderson, W.H., Catlow, J.T., Jones, T.M., Porreca, F., Smith, J.L., Knopp, K.L., and Cook, J.M.

Published
2019
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3. Bioisosteres of ethyl 8-ethynyl-6-(pyridin-2-yl)-4H-benzo[f]imidazo [1,5-a][1,4]diazepine-3-carboxylate (HZ-166) as novel alpha 2,3 selective potentiators of GABAA receptors: Improved bioavailability enhances anticonvulsant efficacy

Author

Witkin, J.M., Smith, J.L., Ping, X., Gleason, S.D., Poe, M.M., Li, G., Jin, X., Hobbs, J., Schkeryantz, J.M., McDermott, J.S., Alatorre, A.I., Siemian, J.N., Cramer, J.W., Airey, D.C., Methuku, K.R., Tiruveedhula, V.V.N.P.B., Jones, T.M., Crawford, J., Krambis, M.J., Fisher, J.L., Cook, J.M., and Cerne, R.

Published
2018
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7. Behavioral responses of terrestrial mammals to COVID-19 lockdowns

Author

Tucker, M., Schipper, A., Adams, T., Attias, N., Avgar, T., Babic, N., Barker, K., Bastille-Rousseau, G., Behr, D., Belant, J., Beyer Jr, D., Blaum, N., Blount, D., Bockmühl, D., Pires Boulhosa, R. L., Brown, M., Buuveibaatar, B., Cagnacci, F., (0000-0003-0575-6408) Calabrese, J., Černe, R., Chamaillé-Jammes, S., Chan, A. N., Chase, M., Chaval, Y., Chenaux-Ibrahim, Y., Cherry, S., Ćirović, D., Çoban, E., Cole, E., Conlee, L., Courtemanch, A., Cozzi, G., Davidson, S., Debloois, D., Dejid, N., Denicola, V., Desbiez, A., Douglas-Hamilton, I., Drake, D., Egan, M., Eikelboom, J., Fagan, W., Farmer, M., Fennessy, J., Finnegan, S., Fleming, C., Fournier, B., Fowler, N., Gantchoff, M., Garnier, A., Gehr, B., Geremia, C., Goheen, J., Hauptfleisch, M., Hebblewhite, M., Heim, M., Hertel, A., Heurich, M., Hewison, M., Hodson, J., Hoffman, N., Hopcraft, G., Huber, D., Isaac, E., Janik, K., Ježek, M., Johansson, Ö., Jordan, N. R., Kaczensky, P., Kamaru, D., Kauffman, M., Kautz, T., Kays, R., Kelly, A., Kindberg, J., Krofel, M., Kusak, J., Lamb, C., Lasharr, T., Leimgruber, P., Leitner, H., Lierz, M., Linnell, J., Lkhagvaja, P., Long, R., López-Bao, J., Loretto, M.-C., Marchand, P., Martin, H., Martinez, L., Mcbride Jr, R., Mclaren, A., Meisingset, E., Melzheimer, J., Merrill, E., Middleton, A., Monteith, K., Moore, S., Moorter, B. V., Morellet, N., Morrison, T., Müller, R., Mysterud, A., Noonan, M., O’Connor, D., Olson, D., Olson, K., Ortega, A., Ossi, F., Panzacchi, M., Patchett, R., Patterson, B., Paula, R. C. D., Payne, J., Peters, W., Petroelje, T., Pitcher, B., Pokorny, B., Poole, K., Potočnik, H., Poulin, M.-P., Pringle, R., Prins, H., Ranc, N., Reljić, S., Robb, B., Röder, R., Rolandsen, C., Rutz, C., Salemgareyev, A., Samelius, G., Sayine-Crawford, H., Schooler, S., Şekercioğlu, Ç., Selva, N., Semenzato, P., Sergiel, A., Sharma, K., Shawler, A., Signer, J., Silovský, V., Silva, J., Simon, R., Smiley, R., Smith, D., Solberg, E., Soto, D., Spiegel, O., Stabach, J., Stacy-Dawes, J., Stahler, D., Stephenson, J., Stewart, C., Strand, O., Sunde, P., Svoboda, N., Swart, J., Thompson, J., Toal, K., Uiseb, K., Vanacker, M., Velilla, M., Verzuh, T., Wachter, B., Wagler, B., Whittington, J., Wikelski, M., Wilmers, C., Wittemyer, G., Young, J., Zięba, F., Zwijacz-Kozica, T., Huijbregts, M., Mueller, T., Tucker, M., Schipper, A., Adams, T., Attias, N., Avgar, T., Babic, N., Barker, K., Bastille-Rousseau, G., Behr, D., Belant, J., Beyer Jr, D., Blaum, N., Blount, D., Bockmühl, D., Pires Boulhosa, R. L., Brown, M., Buuveibaatar, B., Cagnacci, F., (0000-0003-0575-6408) Calabrese, J., Černe, R., Chamaillé-Jammes, S., Chan, A. N., Chase, M., Chaval, Y., Chenaux-Ibrahim, Y., Cherry, S., Ćirović, D., Çoban, E., Cole, E., Conlee, L., Courtemanch, A., Cozzi, G., Davidson, S., Debloois, D., Dejid, N., Denicola, V., Desbiez, A., Douglas-Hamilton, I., Drake, D., Egan, M., Eikelboom, J., Fagan, W., Farmer, M., Fennessy, J., Finnegan, S., Fleming, C., Fournier, B., Fowler, N., Gantchoff, M., Garnier, A., Gehr, B., Geremia, C., Goheen, J., Hauptfleisch, M., Hebblewhite, M., Heim, M., Hertel, A., Heurich, M., Hewison, M., Hodson, J., Hoffman, N., Hopcraft, G., Huber, D., Isaac, E., Janik, K., Ježek, M., Johansson, Ö., Jordan, N. R., Kaczensky, P., Kamaru, D., Kauffman, M., Kautz, T., Kays, R., Kelly, A., Kindberg, J., Krofel, M., Kusak, J., Lamb, C., Lasharr, T., Leimgruber, P., Leitner, H., Lierz, M., Linnell, J., Lkhagvaja, P., Long, R., López-Bao, J., Loretto, M.-C., Marchand, P., Martin, H., Martinez, L., Mcbride Jr, R., Mclaren, A., Meisingset, E., Melzheimer, J., Merrill, E., Middleton, A., Monteith, K., Moore, S., Moorter, B. V., Morellet, N., Morrison, T., Müller, R., Mysterud, A., Noonan, M., O’Connor, D., Olson, D., Olson, K., Ortega, A., Ossi, F., Panzacchi, M., Patchett, R., Patterson, B., Paula, R. C. D., Payne, J., Peters, W., Petroelje, T., Pitcher, B., Pokorny, B., Poole, K., Potočnik, H., Poulin, M.-P., Pringle, R., Prins, H., Ranc, N., Reljić, S., Robb, B., Röder, R., Rolandsen, C., Rutz, C., Salemgareyev, A., Samelius, G., Sayine-Crawford, H., Schooler, S., Şekercioğlu, Ç., Selva, N., Semenzato, P., Sergiel, A., Sharma, K., Shawler, A., Signer, J., Silovský, V., Silva, J., Simon, R., Smiley, R., Smith, D., Solberg, E., Soto, D., Spiegel, O., Stabach, J., Stacy-Dawes, J., Stahler, D., Stephenson, J., Stewart, C., Strand, O., Sunde, P., Svoboda, N., Swart, J., Thompson, J., Toal, K., Uiseb, K., Vanacker, M., Velilla, M., Verzuh, T., Wachter, B., Wagler, B., Whittington, J., Wikelski, M., Wilmers, C., Wittemyer, G., Young, J., Zięba, F., Zwijacz-Kozica, T., Huijbregts, M., and Mueller, T.

Abstract

COVID-19 lockdowns in early 2020 reduced human mobility, providing an opportunity to disentangle its effects on animals from those of landscape modifications. Using GPS data, we compared movements and road avoidance of 2300 terrestrial mammals (43 species) during the lockdowns to the same period in 2019. Individual responses were variable with no change in average movements or road avoidance behavior, likely due to variable lockdown conditions. However, under strict lockdowns 10-day 95th percentile displacements increased by 73%, suggesting increased landscape permeability. Animals’ 1-hour 95th percentile displacements declined by 12% and animals were 36% closer to roads in areas of high human footprint, indicating reduced avoidance during lockdowns. Overall, lockdowns rapidly altered some spatial behaviors, highlighting variable but substantial impacts of human mobility on wildlife worldwide.

Published
2023

8. Mapping range dynamics from opportunistic data: spatiotemporal modelling of the lynx distribution in the Alps over 21 years

Author

Molinari-Jobin, A., primary, Kéry, M., additional, Marboutin, E., additional, Marucco, F., additional, Zimmermann, F., additional, Molinari, P., additional, Frick, H., additional, Fuxjäger, C., additional, Wölfl, S., additional, Bled, F., additional, Breitenmoser-Würsten, C., additional, Kos, I., additional, Wölfl, M., additional, Černe, R., additional, Müller, O., additional, and Breitenmoser, U., additional

Published
2017
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9. Mapping range dynamics from opportunistic data: spatiotemporal modelling of the lynx distribution in the Alps over 21 years.

Author

Molinari‐Jobin, A., Kéry, M., Marboutin, E., Marucco, F., Zimmermann, F., Molinari, P., Frick, H., Fuxjäger, C., Wölfl, S., Bled, F., Breitenmoser‐Würsten, C., Kos, I., Wölfl, M., Černe, R., Müller, O., and Breitenmoser, U.

Subjects
LYNX, SPATIOTEMPORAL processes, ZOOGEOGRAPHY, WILDLIFE conservation
Abstract

Abstract: The Eurasian lynx is of special conservation concern based on the European Union's Habitat Directive and its populations need to be maintained or restored at favourable conservation status. To evaluate lynx population status, appropriate monitoring needs to be in place. We modelled the distribution dynamics of lynx in the Alps (200 000 km2) during 1994–2014 at a resolution of 100 km2. Lynx distribution and detection probability varied by year, country, forest cover, elevation and distance to the nearest release site. Occupancy of neighbouring quadrats had a strong positive effect on colonization and persistence rates. Our analyses demonstrate the importance of accounting for imperfect detection: the raw data underestimated the lynx range by 55% on average, depending on country and winter. Over the past 20 years the Alpine lynx range has expanded at an average rate of 4% per year, which was partly due to the lynx translocations to new areas. Our approach to large‐scale distribution modelling and analysing trends using site occupancy models can be applied retrospectively and is useful in many cases where a network of trained people is established to report the presence of target species, for example, in Europe where member states of the European Union have to report conservation status of species of community interest. Hence, dynamic occupancy models are an appealing framework for inference about the large‐scale range dynamics based on opportunistic data and a useful tool for large‐scale management and conservation programmes. [ABSTRACT FROM AUTHOR]

Published
2018
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18. Entrepreneurial and renewal capitals as key resources of organisations

Author

DEMARTINI, PAOLA, DEL BALDO, Mara, PAOLONI, PAOLA, Cesaroni, F. M., D. Rabar, K. Černe, R. Zenzerović, Demartini, Paola, Cesaroni, F. M., DEL BALDO, Mara, and Paoloni, Paola

Subjects
intellectual capital, entrepreneurial capital, renewal capital, medium and large firms
Published
2016

19. Survival of Eurasian lynx in the human-dominated landscape of Europe.

Author

Premier J, Bastianelli ML, Oeser J, Anders O, Andren H, Aronsson M, Bagrade G, Belotti E, Breitenmoser-Würsten C, Bufka L, Černe R, Červený J, Drouet-Hoguet N, Ďuľa M, Fuxjäger C, Herdtfelder M, Hočevar L, Jędrzejewski W, Kont R, Koubek P, Kowalczyk R, Krofel M, Krojerová-Prokešová J, Kubala J, Kusak J, Kutal M, Linnell JDC, Mattisson J, Middelhoff TL, Melovski D, Molinari-Jobin A, Odden J, Okarma H, Ornicāns A, Pagon N, Persson J, Schmidt K, Sindičić M, Slijepčević V, Tám B, Zimmermann F, Kramer-Schadt S, and Heurich M

Abstract

Survival and cause-specific mortality rates are vital for evidence-based population forecasting and conservation, particularly for large carnivores, whose populations are often vulnerable to human-caused mortalities. It is therefore important to know the relationship between anthropogenic and natural mortality causes to evaluate whether they are additive or compensatory. Further, the relation between survival and environmental covariates could reveal whether specific landscape characteristics influence demographic performance. We used telemetry data on 681 Eurasian lynx (Lynx lynx), a model apex predator with large spatial requirements, that were tracked across their European distribution. Through time-to-event analyses, we sought to determine the variables associated with differences in their survival. Illegal killing was the main cause of mortality (33.8%), and mortality rates were similar in protected and hunted populations (8.6% and 7.0% per year, respectively). Survival varied greatly across populations (70-95% per year). Across all study sites, higher hunting and anthropogenic mortality rates were partially compensated by lower rates of other mortality causes but not by natural mortality alone. Variation in survival depended on sex (female survival was 1.5 times greater than male survival) and seasonality (highest risk during hunting season and winter), and lower survival rates were correlated with higher human modification of landscapes at both coarse (home range composition) and fine (habitat use within home range) scales. Some variation in survival was driven by unobserved factors, which, given the high rates of human-caused mortalities, including illegal killing, are of foremost concern. Due to the low natural mortality rates in protected and hunted populations, we conclude that anthropogenic causes of mortality are likely close to additive, such that maintaining or increasing refuge habitat with little human disturbance is critical to lynx conservation., (© 2025 The Author(s). Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)

Published
2025
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20. Ecological and intrinsic drivers of foraging parameters of Eurasian lynx at a continental scale.

Author

Oliveira T, Mattisson J, Vogt K, Linnell J, Odden J, Oeser J, Premier J, Rodríguez-Recio M, Belotti E, Bufka L, Černe R, Duľa M, Fležar U, Gonev A, Herdtfelder M, Heurich M, Hočevar L, Hvala T, Iľko T, Kont R, Koubek P, Krojerová-Prokešová J, Kubala J, Kübarsepp M, Kusak J, Kutal M, Machciník B, Männil P, Melovski D, Molinari P, Ornicāns A, Pavlov A, Prostor M, Slijepčević V, Smolko P, Tam B, and Krofel M

Subjects
Animals, Europe, Ecosystem, Feeding Behavior, Food Chain, Female, Male, Seasons, Lynx physiology, Predatory Behavior
Abstract

The estimation of foraging parameters is fundamental for understanding predator ecology. Predation and feeding can vary with multiple factors, such as prey availability, presence of kleptoparasites and human disturbance. However, our knowledge is mostly limited to local scales, which prevents studying effects of environmental factors across larger ecological gradients. Here, we compared inter-kill intervals and handling times of Eurasian lynx (Lynx lynx) across a large latitudinal gradient, from subarctic to the Mediterranean ecosystems, using a standardised dataset of predicted adult ungulate kills from 107 GPS-collared lynx from nine distinct populations in Europe. We analysed variations in these two foraging parameters in relation to proxies reflecting prey availability, scavengers' presence and human disturbance, to improve our understanding of lynx predation at a continental scale. We found that inter-kill intervals and handling times varied between populations, social status and in different seasons within the year. We observed marked differences in inter-kill intervals between populations, which do not appear to be driven by variation in handling time. Increases in habitat productivity (expressed by NDVI, used as a proxy for prey availability) resulted in reduced inter-kill intervals (i.e. higher kill rates). We observed less variation in handling (i.e. feeding) times, although presence of dominant scavengers (wild boars and brown bears) and higher human impact led to significantly shorter handling times. This suggests that kleptoparasitism and human disturbance may limit the energetic input that lynx can obtain from their prey. We also observed that the human impact on foraging parameters can be consistent between some populations but context-dependent for others, suggesting local adaptations by lynx. Our study highlights the value of large-scale studies based on standardised datasets, which can aid the implementation of effective management measures, as patterns observed in one area might not be necessarily transferable to other regions. Our results also indicate the high degree of adaptability of these solitary felids, which enables them to meet their energy requirements and persist across a wide range of environmental conditions despite the constraints imposed by humans, dominant scavengers and variable prey availability., (© 2024 The Author(s). Journal of Animal Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society.)

Published
2025
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21. Mammal responses to global changes in human activity vary by trophic group and landscape.

Author

Burton AC, Beirne C, Gaynor KM, Sun C, Granados A, Allen ML, Alston JM, Alvarenga GC, Calderón FSÁ, Amir Z, Anhalt-Depies C, Appel C, Arroyo-Arce S, Balme G, Bar-Massada A, Barcelos D, Barr E, Barthelmess EL, Baruzzi C, Basak SM, Beenaerts N, Belmaker J, Belova O, Bezarević B, Bird T, Bogan DA, Bogdanović N, Boyce A, Boyce M, Brandt L, Brodie JF, Brooke J, Bubnicki JW, Cagnacci F, Carr BS, Carvalho J, Casaer J, Černe R, Chen R, Chow E, Churski M, Cincotta C, Ćirović D, Coates TD, Compton J, Coon C, Cove MV, Crupi AP, Farra SD, Darracq AK, Davis M, Dawe K, De Waele V, Descalzo E, Diserens TA, Drimaj J, Duľa M, Ellis-Felege S, Ellison C, Ertürk A, Fantle-Lepczyk J, Favreau J, Fennell M, Ferreras P, Ferretti F, Fiderer C, Finnegan L, Fisher JT, Fisher-Reid MC, Flaherty EA, Fležar U, Flousek J, Foca JM, Ford A, Franzetti B, Frey S, Fritts S, Frýbová Š, Furnas B, Gerber B, Geyle HM, Giménez DG, Giordano AJ, Gomercic T, Gompper ME, Gräbin DM, Gray M, Green A, Hagen R, Hagen RB, Hammerich S, Hanekom C, Hansen C, Hasstedt S, Hebblewhite M, Heurich M, Hofmeester TR, Hubbard T, Jachowski D, Jansen PA, Jaspers KJ, Jensen A, Jordan M, Kaizer MC, Kelly MJ, Kohl MT, Kramer-Schadt S, Krofel M, Krug A, Kuhn KM, Kuijper DPJ, Kuprewicz EK, Kusak J, Kutal M, Lafferty DJR, LaRose S, Lashley M, Lathrop R, Lee TE Jr, Lepczyk C, Lesmeister DB, Licoppe A, Linnell M, Loch J, Long R, Lonsinger RC, Louvrier J, Luskin MS, MacKay P, Maher S, Manet B, Mann GKH, Marshall AJ, Mason D, McDonald Z, McKay T, McShea WJ, Mechler M, Miaud C, Millspaugh JJ, Monteza-Moreno CM, Moreira-Arce D, Mullen K, Nagy C, Naidoo R, Namir I, Nelson C, O'Neill B, O'Mara MT, Oberosler V, Osorio C, Ossi F, Palencia P, Pearson K, Pedrotti L, Pekins CE, Pendergast M, Pinho FF, Plhal R, Pocasangre-Orellana X, Price M, Procko M, Proctor MD, Ramalho EE, Ranc N, Reljic S, Remine K, Rentz M, Revord R, Reyna-Hurtado R, Risch D, Ritchie EG, Romero A, Rota C, Rovero F, Rowe H, Rutz C, Salvatori M, Sandow D, Schalk CM, Scherger J, Schipper J, Scognamillo DG, Şekercioğlu ÇH, Semenzato P, Sevin J, Shamon H, Shier C, Silva-Rodríguez EA, Sindicic M, Smyth LK, Soyumert A, Sprague T, St Clair CC, Stenglein J, Stephens PA, Stępniak KM, Stevens M, Stevenson C, Ternyik B, Thomson I, Torres RT, Tremblay J, Urrutia T, Vacher JP, Visscher D, Webb SL, Weber J, Weiss KCB, Whipple LS, Whittier CA, Whittington J, Wierzbowska I, Wikelski M, Williamson J, Wilmers CC, Windle T, Wittmer HU, Zharikov Y, Zorn A, and Kays R

Subjects
Animals, Humans, Animals, Wild, Ecosystem, Mammals, Human Activities, COVID-19 epidemiology
Abstract

Wildlife must adapt to human presence to survive in the Anthropocene, so it is critical to understand species responses to humans in different contexts. We used camera trapping as a lens to view mammal responses to changes in human activity during the COVID-19 pandemic. Across 163 species sampled in 102 projects around the world, changes in the amount and timing of animal activity varied widely. Under higher human activity, mammals were less active in undeveloped areas but unexpectedly more active in developed areas while exhibiting greater nocturnality. Carnivores were most sensitive, showing the strongest decreases in activity and greatest increases in nocturnality. Wildlife managers must consider how habituation and uneven sensitivity across species may cause fundamental differences in human-wildlife interactions along gradients of human influence., (© 2024. The Author(s).)

Published
2024
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22. Transboundary Monitoring of the Wolf Alpine Population over 21 Years and Seven Countries.

Author

Marucco F, Reinhardt I, Avanzinelli E, Zimmermann F, Manz R, Potočnik H, Černe R, Rauer G, Walter T, Knauer F, Chapron G, and Duchamp C

Abstract

Wolves have large spatial requirements and their expansion in Europe is occurring over national boundaries, hence the need to develop monitoring programs at the population level. Wolves in the Alps are defined as a functional population and management unit. The range of this wolf Alpine population now covers seven countries: Italy, France, Austria, Switzerland, Slovenia, Liechtenstein and Germany, making the development of a joint and coordinated monitoring program particularly challenging. In the framework of the Wolf Alpine Group (WAG), researchers developed uniform criteria for the assessment and interpretation of field data collected in the frame of different national monitoring programs. This standardization allowed for data comparability across borders and the joint evaluation of distribution and consistency at the population level. We documented the increase in the number of wolf reproductive units (packs and pairs) over 21 years, from 1 in 1993-1994 up to 243 units in 2020-2021, and examined the pattern of expansion over the Alps. This long-term and large-scale approach is a successful example of transboundary monitoring of a large carnivore population that, despite administrative fragmentation, provides robust indexes of population size and distribution that are of relevance for wolf conservation and management at the transnational Alpine scale.

Published
2023
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23. Wolf genetic diversity compared across Europe using the yardstick method.

Author

Jan M, Stronen AV, Boljte B, Černe R, Huber Đ, Iosif R, Kljun F, Konec M, Kos I, Krofel M, Kusak J, Luštrik R, Majić Skrbinšek A, Promberger-Füerpass B, Potočnik H, Rigg R, Trontelj P, and Skrbinšek T

Subjects
Animals, Alleles, Biological Evolution, Europe, Genetic Variation, Wolves genetics
Abstract

Integrating data across studies with traditional microsatellite genetic markers requires careful calibration and represents an obstacle for investigation of wide-ranging species where populations require transboundary management. We used the "yardstick" method to compare results published across Europe since 2002 and new wolf (Canis lupus) genetic profiles from the Carpathian Mountains in Central Europe and the Dinaric Mountains in Southeastern Europe, with the latter as our reference population. We compared each population with Dinaric wolves, considering only shared markers (range 4-17). For each population, we calculated standard genetic diversity indices plus calibrated heterozygosity (Hec) and allelic richness (Ac). Hec and Ac in Dinaric (0.704 and 9.394) and Carpathian wolves (0.695 and 7.023) were comparable to those observed in other large and mid-sized European populations, but smaller than those of northeastern Europe. Major discrepancies in marker choices among some studies made comparisons more difficult. However, the yardstick method, including the new measures of Hec and Ac, provided a direct comparison of genetic diversity values among wolf populations and an intuitive interpretation of the results. The yardstick method thus permitted the integration of diverse sources of publicly available microsatellite data for spatiotemporal genetic monitoring of evolutionary potential., (© 2023. Springer Nature Limited.)

Published
2023
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24. Behavioral responses of terrestrial mammals to COVID-19 lockdowns.

Author

Tucker MA, Schipper AM, Adams TSF, Attias N, Avgar T, Babic NL, Barker KJ, Bastille-Rousseau G, Behr DM, Belant JL, Beyer DE Jr, Blaum N, Blount JD, Bockmühl D, Pires Boulhosa RL, Brown MB, Buuveibaatar B, Cagnacci F, Calabrese JM, Černe R, Chamaillé-Jammes S, Chan AN, Chase MJ, Chaval Y, Chenaux-Ibrahim Y, Cherry SG, Ćirović D, Çoban E, Cole EK, Conlee L, Courtemanch A, Cozzi G, Davidson SC, DeBloois D, Dejid N, DeNicola V, Desbiez ALJ, Douglas-Hamilton I, Drake D, Egan M, Eikelboom JAJ, Fagan WF, Farmer MJ, Fennessy J, Finnegan SP, Fleming CH, Fournier B, Fowler NL, Gantchoff MG, Garnier A, Gehr B, Geremia C, Goheen JR, Hauptfleisch ML, Hebblewhite M, Heim M, Hertel AG, Heurich M, Hewison AJM, Hodson J, Hoffman N, Hopcraft JGC, Huber D, Isaac EJ, Janik K, Ježek M, Johansson Ö, Jordan NR, Kaczensky P, Kamaru DN, Kauffman MJ, Kautz TM, Kays R, Kelly AP, Kindberg J, Krofel M, Kusak J, Lamb CT, LaSharr TN, Leimgruber P, Leitner H, Lierz M, Linnell JDC, Lkhagvaja P, Long RA, López-Bao JV, Loretto MC, Marchand P, Martin H, Martinez LA, McBride RT Jr, McLaren AAD, Meisingset E, Melzheimer J, Merrill EH, Middleton AD, Monteith KL, Moore SA, Van Moorter B, Morellet N, Morrison T, Müller R, Mysterud A, Noonan MJ, O'Connor D, Olson D, Olson KA, Ortega AC, Ossi F, Panzacchi M, Patchett R, Patterson BR, de Paula RC, Payne J, Peters W, Petroelje TR, Pitcher BJ, Pokorny B, Poole K, Potočnik H, Poulin MP, Pringle RM, Prins HHT, Ranc N, Reljić S, Robb B, Röder R, Rolandsen CM, Rutz C, Salemgareyev AR, Samelius G, Sayine-Crawford H, Schooler S, Şekercioğlu ÇH, Selva N, Semenzato P, Sergiel A, Sharma K, Shawler AL, Signer J, Silovský V, Silva JP, Simon R, Smiley RA, Smith DW, Solberg EJ, Ellis-Soto D, Spiegel O, Stabach J, Stacy-Dawes J, Stahler DR, Stephenson J, Stewart C, Strand O, Sunde P, Svoboda NJ, Swart J, Thompson JJ, Toal KL, Uiseb K, VanAcker MC, Velilla M, Verzuh TL, Wachter B, Wagler BL, Whittington J, Wikelski M, Wilmers CC, Wittemyer G, Young JK, Zięba F, Zwijacz-Kozica T, Huijbregts MAJ, and Mueller T

Subjects
Animals, Humans, Movement, Animals, Wild physiology, Animals, Wild psychology, COVID-19 epidemiology, Mammals physiology, Mammals psychology, Quarantine, Animal Migration
Abstract

COVID-19 lockdowns in early 2020 reduced human mobility, providing an opportunity to disentangle its effects on animals from those of landscape modifications. Using GPS data, we compared movements and road avoidance of 2300 terrestrial mammals (43 species) during the lockdowns to the same period in 2019. Individual responses were variable with no change in average movements or road avoidance behavior, likely due to variable lockdown conditions. However, under strict lockdowns 10-day 95th percentile displacements increased by 73%, suggesting increased landscape permeability. Animals' 1-hour 95th percentile displacements declined by 12% and animals were 36% closer to roads in areas of high human footprint, indicating reduced avoidance during lockdowns. Overall, lockdowns rapidly altered some spatial behaviors, highlighting variable but substantial impacts of human mobility on wildlife worldwide.

Published
2023
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25. Evaluating expert-based habitat suitability information of terrestrial mammals with GPS-tracking data.

Author

Broekman MJE, Hilbers JP, Huijbregts MAJ, Mueller T, Ali AH, Andrén H, Altmann J, Aronsson M, Attias N, Bartlam-Brooks HLA, van Beest FM, Belant JL, Beyer DE, Bidner L, Blaum N, Boone RB, Boyce MS, Brown MB, Cagnacci F, Černe R, Chamaillé-Jammes S, Dejid N, Dekker J, L J Desbiez A, Díaz-Muñoz SL, Fennessy J, Fichtel C, Fischer C, Fisher JT, Fischhoff I, Ford AT, Fryxell JM, Gehr B, Goheen JR, Hauptfleisch M, Hewison AJM, Hering R, Heurich M, Isbell LA, Janssen R, Jeltsch F, Kaczensky P, Kappeler PM, Krofel M, LaPoint S, Latham ADM, Linnell JDC, Markham AC, Mattisson J, Medici EP, de Miranda Mourão G, Van Moorter B, Morato RG, Morellet N, Mysterud A, Mwiu S, Odden J, Olson KA, Ornicāns A, Pagon N, Panzacchi M, Persson J, Petroelje T, Rolandsen CM, Roshier D, Rubenstein DI, Saïd S, Salemgareyev AR, Sawyer H, Schmidt NM, Selva N, Sergiel A, Stabach J, Stacy-Dawes J, Stewart FEC, Stiegler J, Strand O, Sundaresan S, Svoboda NJ, Ullmann W, Voigt U, Wall J, Wikelski M, Wilmers CC, Zięba F, Zwijacz-Kozica T, Schipper AM, and Tucker MA

Abstract

Aim: Macroecological studies that require habitat suitability data for many species often derive this information from expert opinion. However, expert-based information is inherently subjective and thus prone to errors. The increasing availability of GPS tracking data offers opportunities to evaluate and supplement expert-based information with detailed empirical evidence. Here, we compared expert-based habitat suitability information from the International Union for Conservation of Nature (IUCN) with habitat suitability information derived from GPS-tracking data of 1,498 individuals from 49 mammal species., Location: Worldwide., Time Period: 1998-2021., Major Taxa Studied: Forty-nine terrestrial mammal species., Methods: Using GPS data, we estimated two measures of habitat suitability for each individual animal: proportional habitat use (proportion of GPS locations within a habitat type), and selection ratio (habitat use relative to its availability). For each individual we then evaluated whether the GPS-based habitat suitability measures were in agreement with the IUCN data. To that end, we calculated the probability that the ranking of empirical habitat suitability measures was in agreement with IUCN's classification into suitable, marginal and unsuitable habitat types., Results: IUCN habitat suitability data were in accordance with the GPS data (> 95% probability of agreement) for 33 out of 49 species based on proportional habitat use estimates and for 25 out of 49 species based on selection ratios. In addition, 37 and 34 species had a > 50% probability of agreement based on proportional habitat use and selection ratios, respectively., Main Conclusions: We show how GPS-tracking data can be used to evaluate IUCN habitat suitability data. Our findings indicate that for the majority of species included in this study, it is appropriate to use IUCN habitat suitability data in macroecological studies. Furthermore, we show that GPS-tracking data can be used to identify and prioritize species and habitat types for re-evaluation of IUCN habitat suitability data., Competing Interests: The authors have no conflict of interest to declare., (© 2022 The Authors. Global Ecology and Biogeography published by John Wiley & Sons Ltd.)

Published
2022
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26. Use of ambiguous detections to improve estimates from species distribution models.

Author

Louvrier J, Molinari-Jobin A, Kéry M, Chambert T, Miller D, Zimmermann F, Marboutin E, Molinari P, Müeller O, Černe R, and Gimenez O

Subjects
Animals, Conservation of Natural Resources, Ecology, Europe, Humans, Carnivora, Lynx
Abstract

As large carnivores recover throughout Europe, their distribution needs to be studied to determine their conservation status and assess the potential for human-carnivore conflicts. However, efficient monitoring of many large carnivore species is challenging due to their rarity, elusive behavior, and large home ranges. Their monitoring can include opportunistic sightings from citizens in addition to designed surveys. Two types of detection errors may occur in such monitoring schemes: false negatives and false positives. False-negative detections can be accounted for in species distribution models (SDMs) that deal with imperfect detection. False-positive detections, due to species misidentification, have rarely been accounted for in SDMs. Generally, researchers use ad hoc data-filtering methods to discard ambiguous observations prior to analysis. These practices may discard valuable ecological information on the distribution of a species. We investigated the costs and benefits of including data types that may include false positives rather than discarding them for SDMs of large carnivores. We used a dynamic occupancy model that simultaneously accounts for false negatives and positives to jointly analyze data that included both unambiguous detections and ambiguous detections. We used simulations to compare the performances of our model with a model fitted on unambiguous data only. We tested the 2 models in 4 scenarios in which parameters that control false-positive detections and true detections varied. We applied our model to data from the monitoring of the Eurasian lynx (Lynx lynx) in the European Alps. The addition of ambiguous detections increased the precision of parameter estimates. For the Eurasian lynx, incorporating ambiguous detections produced more precise estimates of the ecological parameters and revealed additional occupied sites in areas where the species is likely expanding. Overall, we found that ambiguous data should be considered when studying the distribution of large carnivores through the use of dynamic occupancy models that account for misidentification., (© 2018 Society for Conservation Biology.)

Published
2019
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