Your search keyword '"Langendoen T"' showing total 17 results

1. On the need and difficulty of evaluating management strategies improving species persistence

Author

Gaget, E., primary, Galewski, T., additional, Brommer, J. E., additional, Le Viol, I., additional, Jiguet, F., additional, Baccetti, N., additional, Langendoen, T., additional, Molina, B., additional, Moniz, F., additional, Moussy, C., additional, Zenatello, M., additional, and Guillemain, M., additional

Published

2024

2. Habitat management favouring hunted waterbird species prevents distribution changes in response to climate warming.

Author

Gaget, E., Galewski, T., Brommer, J. E., Le Viol, I., Jiguet, F., Baccetti, N., Langendoen, T., Molina, B., Moniz, F., Moussy, C., Zenatello, M., and Guillemain, M.

Subjects

WATER birds, GLOBAL warming, BIOGEOGRAPHY, SPECIES distribution, CLIMATE change, DUCK shooting, ANIMAL populations

Abstract

Climate warming is driving species to shift their geographical distribution poleward to track suitable climatic conditions. Two strategies have been suggested to help species respond to climate warming: facilitating distribution change or improving persistence. We questioned whether habitat management in favour of duck hunting activities interacted with duck responses to climate warming. We studied nonbreeding waterbird community changes (110 species) over 28 years at 851 sites in South-West Europe, where habitat management is a common practice to attract and hunt ducks. We hypothesized that duck species targeted by habitat management do not need to track temperature changes as much as non-hunted species, because of the availability of suitable habitats provided by hunting land managers. We used the community temperature index (CTI) to assess the temporal responses of communities and species to climate warming. We compared the effect of hunting status with other functional traits on species responses, controlling for phylogenetic relatedness. The CTI trend has increased over the study period, indicating a community adjustment to climate warming. However, hunted ducks contributed to almost 40% of the negative contributions to this community adjustment, suggesting that hunted ducks do not shift their distribution as much as the other waterbirds do. Winter fidelity associated with the provision of attractive feeding grounds might explain why ducks did not seem to shift their distribution in response to climate warming. This study suggests the broad impact of human activities on wildlife, including on large-scale distribution processes, and questions the long-term consequences on duck populations. [ABSTRACT FROM AUTHOR]

Published

2024

3. Protected area characteristics that help waterbirds respond to climate warming

Author

Gaget, E., Johnston, A., Pavón‐Jordán, D., Lehikoinen, A., Sandercock, B., Soultan, A., Božič, L., Clausen, P., Devos, K., Domsa, C., Encarnação, V., Faragó, S., Fitzgerald, N., Frost, T., Gaudard, C., Gosztonyi, L., Haas, F., Hornman, M., Langendoen, T., Ieronymidou, C., Luigujõe, L., Meissner, W., Mikuska, T., Molina, B., Musilová, Z., Paquet, J.‐Y., Petkov, N., Portolou, D., Ridzoň, J., Sniauksta, L., Stīpniece, A., Teufelbauer, N., Wahl, J., Zenatello, M., Brommer, J., Gaget, E., Johnston, A., Pavón‐Jordán, D., Lehikoinen, A., Sandercock, B., Soultan, A., Božič, L., Clausen, P., Devos, K., Domsa, C., Encarnação, V., Faragó, S., Fitzgerald, N., Frost, T., Gaudard, C., Gosztonyi, L., Haas, F., Hornman, M., Langendoen, T., Ieronymidou, C., Luigujõe, L., Meissner, W., Mikuska, T., Molina, B., Musilová, Z., Paquet, J.‐Y., Petkov, N., Portolou, D., Ridzoň, J., Sniauksta, L., Stīpniece, A., Teufelbauer, N., Wahl, J., Zenatello, M., and Brommer, J.

Abstract

Protected area networks facilitate community changes in responses to climate warming. However, the contribution of the site environmental and conservation-oriented characteristics to these responses to climate warming are not well understood. Here, we investigate how composition of non-breeding waterbird communities within the European Union Natura 2000 (N2K) network changes in response to increases in temperature. We measured the community reshuffling of 97 waterbird species in 3,018 N2K sites over 25 years in 26 European countries. We find that N2K sites explicitly designated for protection of waterbirds and with a management plan had faster climate-driven community changes. In contrast, the designation period of the N2K sites was not associated with community adjustment, and sites funded under EU-LIFE had lower climate-driven community changes. Our findings imply that efficient conservation policy that may help waterbird community responses to climate warming is to manage sites that are specifically designated for waterbirds.

Published

2021

4. Gap analysis of the Ramsar site network at 50: over 150 important Mediterranean sites for wintering waterbirds omitted

Author

Popoff, N., Gaget, E., Béchet, A., Dami, L., du Rau, P.D., Geijzendorffer, I., Guelmami, A., Mondain-Monval, J.-Y., Perennou, C., Suet, M., Verniest, F., Deschamps, C., Taylor, N.G., Azafzaf, H., Bendjedda, N., Bino, T., Borg, J.J., Božič, L., Dakki, M., Encarnação, V., Erciyas-Yavuz, K., Etayeb, K., Gaudard, C., Hatzofe, O., Langendoen, T., Ieronymidou, C., Mikuska, T., Molina, B., Petkov, N., Portolou, D., Qaneer, T., Sayoud, S., Šćiban, M., Topić, G., Uzunova, D., Vine, G., Vizi, A., Zenatello, M., Abdou, W., Galewski, T., Popoff, N., Gaget, E., Béchet, A., Dami, L., du Rau, P.D., Geijzendorffer, I., Guelmami, A., Mondain-Monval, J.-Y., Perennou, C., Suet, M., Verniest, F., Deschamps, C., Taylor, N.G., Azafzaf, H., Bendjedda, N., Bino, T., Borg, J.J., Božič, L., Dakki, M., Encarnação, V., Erciyas-Yavuz, K., Etayeb, K., Gaudard, C., Hatzofe, O., Langendoen, T., Ieronymidou, C., Mikuska, T., Molina, B., Petkov, N., Portolou, D., Qaneer, T., Sayoud, S., Šćiban, M., Topić, G., Uzunova, D., Vine, G., Vizi, A., Zenatello, M., Abdou, W., and Galewski, T.

Abstract

The Mediterranean Basin is a biodiversity hotspot. Wetlands make a key contribution to this status, but many of them remain outside the Ramsar network fifty years after the establishment of the Ramsar Convention. Here we evaluate the extent to which the Mediterranean Ramsar network covers wetlands of international importance for wintering waterbirds using the Ramsar Convention criteria 2 (species of conservation concern), 5 (> 20,000 waterbirds) and 6 (1% of a population). These criteria were applied to 4186 sites in 24 Mediterranean countries using counts of 145 wintering waterbird species from 1991 to 2017. We identified 161 sites of international importance for waterbirds that have not yet been declared as Ramsar sites, which could be added to the 180 current Mediterranean Ramsar sites established based on waterbird criteria (criteria 5 and/or 6). Among these sites, a subset of 32 very important sites reached double the required level for at least one criterion and 95 were not protected by any site conservation status. Coastal wetlands represented half of the Ramsar gap for waterbirds. We identified that an additional 1218 monitored sites could be provisionally considered as internationally important and thus require more survey efforts to assess their status. This study highlights a lack of participation of the Mediterranean countries to build the Ramsar network for wetland protection. Our results should help policymakers and managers to prioritize future Ramsar site designation, notably in the Middle East and Western European region where important gaps were identified.

Published

2021

5. Predicting Acacia invasive success in South Africa on the basis of functional traits, native climatic niche and human use

Author

Castro-Díez, P., Langendoen, T., Poorter, L., and Saldaña-López, A.

Published

2011

6. Distribution changes, community composition and the role of protected areas in Europe

Author

Diego Pavon-Jordan, Preben Clausen, Olivia Crowe, Dagys, M., Deceuninck, B., Devos, K., Encarnacao, V., Anthony David Fox, Frost, T., Gaudard, C., Hornman, M., Keller, V., Langendoen, T., Lawicki, L., H Lorentsen, S., Luigujoe, L., Meissner, W., Molina, B., Musil, P., Musilova, Z., Nilsson, L., Y Paquet, J., Ridzon, J., Stipniece, A., Teufelbauer, N., Wahl, J., Zenatello, M., and Lehikoinen, A.

Published

2018

7. A012 – CURRENT UTILIZATION OF AEROBIC EXERCISE IN ADULT NEUROLOGICAL REHABILITATION BY CANADIAN PHYSIOTHERAPISTS

Author

Mehta, SP, MacDermid, JC, Butcher, SJ, Pikaluk, BJ, Heynen, NM, Chura, RL, Farthing, JP, Marciniuk, DD, MacKay-Lyons, M, Doyle, L, MacDonald, T, Law, M, Burgos-Martinez, G, Fleet, A, Che, M, MacKenzie, D, Page, S, Boe, S, Woznowski-Vu, A, Preuss, R, Shaw, JA, Connelly, DM, McWilliam, CL, Shaw, J, Sidhu, K, Kearney, C, Keeber, M, McKay, S, Hopkins-Rosseel, D, Bergsma, K, Van Bavel, C, Fricke, M, Swinamer, J, Winn, CS, Tryssenaar, J, Chisholm, BA, Hummelbrunner, JA, Kandler, LS, Jasper, L, Daniels, J, Haennel, RG, Johnson, R, Martin, B, Norman, KE, Booth, R, Chisholm, B, Ellerton, C, Jelley, W, MacPhail, A, Mooney, P, Mori, B, Taipalus, L, Thomas, B, Duval, G, Ghali, S, Nasirian, A, Santillo, G, Yang, XL, Thomas, A, McKinley, P, Kaizer, F, Desveaux, L, Nanavaty, G, Howell, P, Sundar, R, Ryan, J, Verrier, M, Dutton, TL, Langendoen, T, Marshall, J, Coghill, C, Pederson, C, Blechinger, C, Marshall, M, Hamilton, CB, Chesworth, BM, Styles-Tripp, F, Sheps, D, Bury, J, Bouliane, M, Glasgow, R, Otto, D, Luciak-Corea, C, Beaupre, L, Balyk, R, Carson, S, Graham, J, Hopman, W, Parsons, T, Sawant, A, Overend, T, Prasanna, SS, Korner-Bitensky, N, Ahmed, S, O’Donovan, MJ, Driver, H, Randhawa, BK, Farley, BG, Boyd, LA, Henderson, R, Najafi, B, Bansberg, J, Druja, G, Hinch, S, Sikkema, A, Subramanian, SK, LourenÇo, CB, Chilingaryan, G, Sveistrup, H, Levin, MF, King, J, Chamberland, P, Agar, A, Leger, R, Michaels, R, Poitras, R, Rawji, A, Skelton, D, Warren, M, Lavallée, L, LeBlanc, C, McKim, D, Woolnough, A, Cockburn, L, Wango, J, Benuh, E, Cleaver, S, Madill, SJ, Pontbriand-Drolet, S, Prud’homme-Delage, A, Tang, A, Dumoulin, C, Hiemstra, LA, Lafave, M, Kerslake, S, Heard, M, Buchko, G, Mohtadi, N, Auais, M, Eilayyan, O, Mayo, N, Otfinowski, C, Fung, J, Smallhorn, P, Diez, d’Aux N, Shan, He F, Li, L, Ren, Y, Perez, C, Spahija, J, Sadeghi, M, Ebrahimi, S, Maroufi, N, Jamshidi, AA, Chepeha, JC, Magee, DJ, Warren, S, Storey, AST, Brinkman, DM, Bauck, RA, Myrah, AM, Friess, SN, Webber, SC, Taphorn, A, Magnus, CRA, Arnold, CM, Johnston, G, Dal-Bello, Haas V, Basran, J, Krentz, JR, Berardi, D, Brizard, M, Brière, H, Charron, M, Gagnon, I, Tran, T, Kasymjanova, G, Grossman, M, Xenopoulos, T, Jagoe, T, Agulnik, J, Small, D, Kinlin, C, Marlow, T, Donald, LA, Tiessen, S, Cooper, N, Pryse-Phillips, S, Yoshida, K, Teachman, G, Wright, V, Fehlings, D, Young, N, McKeever, P, Parent, EC, Breitkreitz, R, Ladd, J, McIntosh, K, Pauls, D, Urhbach, S, Koppenhaver, S, Alderdice, C, Evans, J, Feldman, S, Robinson, S, White, L, Long, A, McDougall, M, Bonnet, F, Brososky, C, Hopcroft, L, Bester, L, Clement, D, Quigley, A, Sachdeva, M, Rourke, S, Nixon, S, Mendes, P, Robles, P, Mathur, S, Warmington, K, Kennedy, C, Lundon, K, Rozmovits, L, Lineker, S, Shupak, R, Schneider, R, Kennedy, CA, Soever, L, Passalent, L, Katie, Lundon K, Roots, RK, Bainbridge, L, Brown, H, Li, LC, Gillis, K, Augruso, A, Coe, T, O’Neill, A, Radford, L, Gibson, BE, O’Callaghan, L, Bath, B, Janzen, B, Lovo, Grona S, Bourassa, R, Reilly, J, Prendergast, M, Derbyshire, M, Anderson, CM, Friedman, D, Gilbert, G, Lazowski, D, Hurtubise, K, Cote, N, McGlasson, Emery, C, Woodhouse, L, Jones, A, Dickinson, D, Torrance, G, Landry, MD, Murphy, SM, Rivard, LM, Levac, D, Aisen, M, French, EH, Barclay-Goddard, R, Dubouloz, CJ, Schwartz, CE, Jam, B, Manns, PJ, McDonald, A, Ploughman, M, Evans, C, Zhan, J, Stevens, M, Asmundson, Gordon, Yardley, D, Funk, S, Yeung, E, Sinclair, L, Damp, Lowery C, Denehy, L, Ziegler, T, LaRocque, D, Clarke, L, Edge-Hughes, LM, Budiselic, S, Berney, S, Rankin, A, Juricic, M, Peddie, E, Johnson, A, and Seminowicz, DA

Subjects

Innovation in Education, Practice Models and Policy, Divisions, Abstracts, CPA Congress 2012, Proposals, Guest Editorial, Physiotherapy Research: Basic Science through Population Health, Best Practice

Published

2012

8. Changes in waterbird occurrence and abundance at their northern range boundaries in response to climate warming: importance of site area and protection status.

Author

Gaget, E., Ovaskainen, O., Bradter, U., Haas, F., Jonas, L., Johnston, A., Langendoen, T., Lehikoinen, A. S., Pärt, T., Pavón‐Jordán, D., Sandercock, B. K., Soultan, A., and Brommer, J. E.

Subjects

*CLIMATE change adaptation, *GLOBAL warming, *WETLAND restoration, *URBAN land use, *SPECIES distribution

Abstract

Climate warming is driving changes in species distribution, but habitat characteristics can interact with warming temperatures to affect populations in unexpected ways. We investigated wintering waterbird responses to climate warming depending on habitat characteristics, with a focus on the northern boundary of their non‐breeding distributions where winter climatic conditions are more extreme. At these Nordic latitudes, climate warming is expected to drive positive changes in species occurrence and abundance, with likely differences in species‐specific responses. We analyzed the occurrence and abundance of 18 species of waterbirds monitored over 2,982 surveys at 245 inland wetlands over a 25‐year period in Sweden. We used hierarchical modeling of species communities (HMSC) which enabled us to relate species‐specific changes to both functional traits and phylogenetic relatedness. We investigated occurrence and abundance changes in response to average temperature, temperature anomalies, site area, site protection status (Natura 2000), and land use in agricultural and urban surfaces. Unsurprisingly, both average temperatures and temperature anomalies were the most important variables influencing positively waterbird occurrence and abundance. For 60% of the species, the effect of temperature anomalies was even stronger in large or protected wetlands. Geese and mallard occurred more often at sites surrounded by agricultural and urban surfaces, respectively, but their occurrence in these habitats was not affected by interactive effects with climate warming. Species abundance was greater inside protected areas only for 11% of the species, but occurrence probability was higher inside protected areas for 44% of the species. Overall, we observed that species thermal affinity was a strong predictor for positive species response to temperature anomalies, and that species sharing similar phylogenetic history had similar relationships with environmental variables. Protection of large wetlands and restoration of the surrounding habitats are two targets for climate change adaptation strategies to facilitate future responses of waterbirds to climate warming. [ABSTRACT FROM AUTHOR]

Published

2024

9. Responses of global waterbird populations to climate change vary with latitude

Author

Amano, T, Székely, T, Wauchope, HS, Sandel, B, Nagy, S, Mundkur, T, Langendoen, T, Blanco, D, Michel, NL, and Sutherland, WJ

Subjects

13 Climate Action, 13. Climate action, 3103 Ecology, 15 Life on Land, 4101 Climate Change Impacts and Adaptation, 4102 Ecological Applications, sense organs, 15. Life on land, 41 Environmental Sciences, skin and connective tissue diseases, 31 Biological Sciences

Abstract

While climate change continues to present a major threat to global biodiversity and ecosystems, most research on climate change impacts do not have the resolution to detect changes in species abundance and are often limited to temperate ecosystems. This limits our understanding of global responses in species abundance—a determinant of ecosystem function and services—to climate change including in the highly-biodiverse tropics. We address this knowledge gap by quantifying abundance responses to climate change in waterbirds, an indicator taxon of wetland biodiversity, at 6,822 sites between −55° and 64°. Using 1,303,651 count records since 1990 of 390 species, we show that with temperature increase, the abundance of species and populations decreased at lower latitudes, particularly in the tropics, but increased at higher latitudes. These contrasting responses to temperature increase according to latitude indicate potential global-scale poleward shifts of species abundance under climate change, providing empirical support for predictions by earlier studies. The negative responses to temperature increase in tropical species and populations are of conservation concern, as they are often also threatened by other anthropogenic factors. Our results suggest that existing biases in studies towards temperate regions could underestimate the impact of climate change on waterbirds and other species.

10. Wh-movement vs. scrambling: The brain makes a difference

Author

Friederici, Angela D., Schlesewsky, Matthias, Fiebach, Christian J., Karimi, S., and Langendoen, T.

Subjects

Neuroscience: Neurolinguistics, Psychology: Psycholinguistics, Psychology: Psychophysiology, Linguistics: Syntax, Neurolinguistics, Psycholinguistics, Psychophysiology, Syntax

Published

2000

11. Exposure of wetlands important for nonbreeding waterbirds to sea-level rise in the Mediterranean.

Author

Verniest F, Galewski T, Boutron O, Dami L, Defos du Rau P, Guelmami A, Julliard R, Popoff N, Suet M, Willm L, Abdou W, Azafzaf H, Bendjedda N, Bino T, Borg JJ, Božič L, Dakki M, Hamoumi RE, Encarnação V, Erciyas-Yavuz K, Etayeb K, Georgiev V, Hamada A, Hatzofe O, Ieronymidou C, Langendoen T, Mikuska T, Molina B, Moniz F, Moussy C, Ouassou A, Petkov N, Portolou D, Qaneer T, Sayoud S, Šćiban M, Topić G, Uzunova D, Vine G, Vizi A, Xeka E, Zenatello M, Gaget E, and Viol IL

Subjects

Animals, Mediterranean Region, Floods, Mediterranean Sea, Biodiversity, Wetlands, Conservation of Natural Resources, Birds physiology, Sea Level Rise

Abstract

Sea-level rise (SLR) is expected to cause major changes to coastal wetlands, which are among the world's most vulnerable ecosystems and are critical for nonbreeding waterbirds. Because strategies for adaptation to SLR, such as nature-based solutions and designation of protected areas, can locally reduce the negative effects of coastal flooding under SLR on coastal wetlands, it is crucial to prioritize adaptation efforts, especially for wetlands of international importance for biodiversity. We assessed the exposure of coastal wetlands important for nonbreeding waterbirds to projected SLR along the Mediterranean coasts of 8 countries by modeling future coastal flooding under 7 scenarios of SLR by 2100 (from 44- to 161-cm rise) with a static inundation approach. Exposure to coastal flooding under future SLR was assessed for 938 Mediterranean coastal sites (≤30 km from the coastline) where 145 species of nonbreeding birds were monitored as part of the International Waterbird Census and for which the monitoring area was delineated by a polygon (64.3% of the coastal sites monitored in the Mediterranean region). Thirty-four percent of sites were threatened by future SLR, even under the most optimistic scenarios. Protected study sites and study sites of international importance for waterbirds were, respectively, 1.5 and 2 times more exposed to SLR than the other sites under the most optimistic scenario. Accordingly, we advocate for the development of a prioritization scheme to be applied to these wetlands for the implementation of strategies for adaptation to SLR to anticipate the effects of coastal flooding. Our study provides major guidance for conservation planning under global change in several countries of the Mediterranean region., (© 2024 The Authors. Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)

Published

2024

12. Protected area characteristics that help waterbirds respond to climate warming.

Author

Gaget E, Johnston A, Pavón-Jordán D, Lehikoinen AS, Sandercock BK, Soultan A, Božič L, Clausen P, Devos K, Domsa C, Encarnação V, Faragó S, Fitzgerald N, Frost T, Gaudard C, Gosztonyi L, Haas F, Hornman M, Langendoen T, Ieronymidou C, Luigujõe L, Meissner W, Mikuska T, Molina B, Musilová Z, Paquet JY, Petkov N, Portolou D, Ridzoň J, Sniauksta L, Stīpniece A, Teufelbauer N, Wahl J, Zenatello M, and Brommer JE

Subjects

Animals, Birds physiology, Climate, Climate Change, Ecosystem, Biodiversity, Conservation of Natural Resources

Abstract

Protected area networks help species respond to climate warming. However, the contribution of a site's environmental and conservation-relevant characteristics to these responses is not well understood. We investigated how composition of nonbreeding waterbird communities (97 species) in the European Union Natura 2000 (N2K) network (3018 sites) changed in response to increases in temperature over 25 years in 26 European countries. We measured community reshuffling based on abundance time series collected under the International Waterbird Census relative to N2K sites' conservation targets, funding, designation period, and management plan status. Waterbird community composition in sites explicitly designated to protect them and with management plans changed more quickly in response to climate warming than in other N2K sites. Temporal community changes were not affected by the designation period despite greater exposure to temperature increase inside late-designated N2K sites. Sites funded under the LIFE program had lower climate-driven community changes than sites that did not received LIFE funding. Our findings imply that efficient conservation policy that helps waterbird communities respond to climate warming is associated with sites specifically managed for waterbirds., (© 2021 Society for Conservation Biology.)

Published

2022

13. Protected areas have a mixed impact on waterbirds, but management helps.

Author

Wauchope HS, Jones JPG, Geldmann J, Simmons BI, Amano T, Blanco DE, Fuller RA, Johnston A, Langendoen T, Mundkur T, Nagy S, and Sutherland WJ

Subjects

Animals, Biodiversity, Ecosystem, Birds, Conservation of Natural Resources

Abstract

International policy is focused on increasing the proportion of the Earth's surface that is protected for nature 1,2 . Although studies show that protected areas prevent habitat loss 3-6 , there is a lack of evidence for their effect on species' populations: existing studies are at local scale or use simple designs that lack appropriate controls 7-13 . Here we explore how 1,506 protected areas have affected the trajectories of 27,055 waterbird populations across the globe using a robust before-after control-intervention study design, which compares protected and unprotected populations in the years before and after protection. We show that the simpler study designs typically used to assess protected area effectiveness (before-after or control-intervention) incorrectly estimate effects for 37-50% of populations-for instance misclassifying positively impacted populations as negatively impacted, and vice versa. Using our robust study design, we find that protected areas have a mixed impact on waterbirds, with a strong signal that areas managed for waterbirds or their habitat are more likely to benefit populations, and a weak signal that larger areas are more beneficial than smaller ones. Calls to conserve 30% of the Earth's surface by 2030 are gathering pace 14 , but we show that protection alone does not guarantee good biodiversity outcomes. As countries gather to agree the new Global Biodiversity Framework, targets must focus on creating and supporting well-managed protected and conserved areas that measurably benefit populations., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

14. Benefits of protected areas for nonbreeding waterbirds adjusting their distributions under climate warming.

Author

Gaget E, Pavón-Jordán D, Johnston A, Lehikoinen A, Hochachka WM, Sandercock BK, Soultan A, Azafzaf H, Bendjedda N, Bino T, Božič L, Clausen P, Dakki M, Devos K, Domsa C, Encarnação V, Erciyas-Yavuz K, Faragó S, Frost T, Gaudard C, Gosztonyi L, Haas F, Hornman M, Langendoen T, Ieronymidou C, Kostyushin VA, Lewis LJ, Lorentsen SH, Luigujõe L, Meissner W, Mikuska T, Molina B, Musilová Z, Natykanets V, Paquet JY, Petkov N, Portolou D, Ridzoň J, Sayoud S, Šćiban M, Sniauksta L, Stīpniece A, Strebel N, Teufelbauer N, Topić G, Uzunova D, Vizi A, Wahl J, Zenatello M, and Brommer JE

Subjects

Animals, Biodiversity, Birds, Ecosystem, Temperature, Climate Change, Conservation of Natural Resources

Abstract

Climate warming is driving changes in species distributions and community composition. Many species have a so-called climatic debt, that is, shifts in range lag behind shifts in temperature isoclines. Inside protected areas (PAs), community changes in response to climate warming can be facilitated by greater colonization rates by warm-dwelling species, but also mitigated by lowering extirpation rates of cold-dwelling species. An evaluation of the relative importance of colonization-extirpation processes is important to inform conservation strategies that aim for both climate debt reduction and species conservation. We assessed the colonization-extirpation dynamics involved in community changes in response to climate inside and outside PAs. To do so, we used 25 years of occurrence data of nonbreeding waterbirds in the western Palearctic (97 species, 7071 sites, 39 countries, 1993-2017). We used a community temperature index (CTI) framework based on species thermal affinities to investigate species turnover induced by temperature increase. We determined whether thermal community adjustment was associated with colonization by warm-dwelling species or extirpation of cold-dwelling species by modeling change in standard deviation of the CTI (CTI SD ). Using linear mixed-effects models, we investigated whether communities in PAs had lower climatic debt and different patterns of community change than communities outside PAs. For CTI and CTI SD combined, communities inside PAs had more species, higher colonization, lower extirpation, and lower climatic debt (16%) than communities outside PAs. Thus, our results suggest that PAs facilitate 2 independent processes that shape community dynamics and maintain biodiversity. The community adjustment was, however, not sufficiently fast to keep pace with the large temperature increases in the central and northeastern western Palearctic. Our results underline the potential of combining CTI and CTI SD metrics to improve understanding of the colonization-extirpation patterns driven by climate warming., (© 2020 The Authors. Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)

Published

2021

15. Contrasting effects of host species and phylogenetic diversity on the occurrence of HPAI H5N1 in European wild birds.

Author

Huang ZYX, Xu C, van Langevelde F, Ma Y, Langendoen T, Mundkur T, Si Y, Tian H, Kraus RHS, Gilbert M, Han GZ, Ji X, Prins HHT, and de Boer WF

Subjects

Animals, Animals, Wild, Birds, Disease Outbreaks, Europe, Phylogeny, Influenza A Virus, H5N1 Subtype, Influenza in Birds

Abstract

Studies on the highly pathogenic avian influenza (HPAI) H5N1 suggest that wild bird migration may facilitate its long-distance spread, yet the role of wild bird community composition in its transmission risk remains poorly understood. Furthermore, most studies on the diversity-disease relationship focused on host species diversity without considering hosts' phylogenetic relationships, which may lead to rejecting a species diversity effect when the community has host species that are only distantly related. Here, we explored the influence of waterbird community composition for determining HPAI H5N1 occurrence in wild birds in a continental-scale study across Europe. In particular, we tested the diversity-disease relationship using both host species diversity and host phylogenetic diversity. Our results provide the first demonstration that host community composition-compared with previously identified environmental risk factors-can also effectively explain the spatial pattern of H5N1 occurrence in wild birds. We further show that communities with more higher risk host species and more closely related species have a higher risk of H5N1 outbreaks. Thus, both host species diversity and community phylogenetic structure, in addition to environmental factors, jointly influence H5N1 occurrence. Our work not only extends the current theory on the diversity-disease relationship, but also has important implications for future monitoring of H5N1 and other HPAI subtypes., (© 2019 The Authors. Journal of Animal Ecology © 2019 British Ecological Society.)

Published

2019

16. Successful conservation of global waterbird populations depends on effective governance.

Author

Amano T, Székely T, Sandel B, Nagy S, Mundkur T, Langendoen T, Blanco D, Soykan CU, and Sutherland WJ

Subjects

Africa, Animals, Asia, Geographic Mapping, Population Density, South America, Species Specificity, Biodiversity, Birds classification, Conservation of Natural Resources legislation & jurisprudence, International Cooperation, Wetlands

Abstract

Understanding global patterns of biodiversity change is crucial for conservation research, policies and practices. However, for most ecosystems, the lack of systematically collected data at a global level limits our understanding of biodiversity changes and their local-scale drivers. Here we address this challenge by focusing on wetlands, which are among the most biodiverse and productive of any environments and which provide essential ecosystem services, but are also amongst the most seriously threatened ecosystems. Using birds as an indicator taxon of wetland biodiversity, we model time-series abundance data for 461 waterbird species at 25,769 survey sites across the globe. We show that the strongest predictor of changes in waterbird abundance, and of conservation efforts having beneficial effects, is the effective governance of a country. In areas in which governance is on average less effective, such as western and central Asia, sub-Saharan Africa and South America, waterbird declines are particularly pronounced; a higher protected area coverage of wetland environments facilitates waterbird increases, but only in countries with more effective governance. Our findings highlight that sociopolitical instability can lead to biodiversity loss and undermine the benefit of existing conservation efforts, such as the expansion of protected area coverage. Furthermore, data deficiencies in areas with less effective governance could lead to underestimations of the extent of the current biodiversity crisis.

Published

2018

17. Rapid climate driven shifts in wintering distributions of three common waterbird species.

Author

Lehikoinen A, Jaatinen K, Vähätalo AV, Clausen P, Crowe O, Deceuninck B, Hearn R, Holt CA, Hornman M, Keller V, Nilsson L, Langendoen T, Tománková I, Wahl J, and Fox AD

Subjects

Animals, Europe, Population Dynamics, Animal Migration physiology, Climate Change, Conservation of Natural Resources, Ducks physiology, Seasons

Abstract

Climate change is predicted to cause changes in species distributions and several studies report margin range shifts in some species. However, the reported changes rarely concern a species' entire distribution and are not always linked to climate change. Here, we demonstrate strong north-eastwards shifts in the centres of gravity of the entire wintering range of three common waterbird species along the North-West Europe flyway during the past three decades. These shifts correlate with an increase of 3.8 °C in early winter temperature in the north-eastern part of the wintering areas, where bird abundance increased exponentially, corresponding with decreases in abundance at the south-western margin of the wintering ranges. This confirms the need to re-evaluate conservation site safeguard networks and associated biodiversity monitoring along the flyway, as new important wintering areas are established further north and east, and highlights the general urgency of conservation planning in a changing world. Range shifts in wintering waterbirds may also affect hunting pressure, which may alter bag sizes and lead to population-level consequences., (© 2013 Blackwell Publishing Ltd.)

Published

2013