TY  - JOUR
AU  - Robbemont, Jody
AU  - van Veldhuijzen, Sam
AU  - Allain, Steven J.R.
AU  - Ambu, Johanna
AU  - Boyle, Ryan
AU  - Canestrelli, Daniele
AU  - Cathasaigh, Éinne Ó
AU  - Cathrine, Chris
AU  - Chiocchio, Andrea
AU  - Cogalniceanu, Dan
AU  - Cvijanović, Milena
AU  - Dufresnes, Christophe
AU  - Ennis, Collie
AU  - Gandola, Rob
AU  - Jablonski, Daniel
AU  - Julian, Angela
AU  - Kranželić, Daria
AU  - Lukanov, Simeon
AU  - Martínez-Solano, Iñigo
AU  - Montgomery, Ryan
AU  - Naumov, Borislav
AU  - O’Neill, Matthew
AU  - North, Alexandra
AU  - Pabijan, Maciej
AU  - Pushendorf, Robert
AU  - Salvi, Daniele
AU  - Schmidt, Bruno
AU  - Sotiropoulos, Konstantinos
AU  - Stanescu, Florina
AU  - Stanković, David
AU  - Stapleton, Sarah
AU  - Šunje, Emina
AU  - Szabolcs, Márton
AU  - Vacheva, Emiliya
AU  - Willis, David
AU  - Zimić, Adnan
AU  - France, James
AU  - Meilink, Willem R.M.
AU  - Stark, Tariq
AU  - Struijk, Richard P.J.H.
AU  - Theodoropoulos, Anagnostis
AU  - de Visser, Manon C.
AU  - Wielstra, Ben
PY  - 2023
UR  - http://radar.ibiss.bg.ac.rs/handle/123456789/6052
AB  - Many herpetofauna species have been introduced outside of their native range. MtDNA barcoding is regularly used to determine the provenance of such populations. The alpine newt has been introduced across the Netherlands, the United Kingdom and Ireland. However, geographical mtDNA structure across the natural range of the alpine newt is still incompletely understood and certain regions are severely undersampled. We collect mtDNA sequence data of over seven hundred individuals, from both the native and the introduced range. The main new insights from our extended mtDNA phylogeography are that 1) haplotypes from Spain do not form a reciprocally monophyletic clade, but are nested inside the mtDNA clade that covers western and eastern Europe; and 2) haplotypes from the northwest Balkans form a monophyletic clade together with those from the Southern Carpathians and Apuseni Mountains. We also home in on the regions where the distinct mtDNA clades meet in nature. We show that four out of the seven distinct mtDNA clades that comprise the alpine newt are implicated in the introductions in the Netherlands, United Kingdom and Ireland. In several introduced localities, two distinct mtDNA clades co-occur. As these mtDNA clades presumably represent cryptic species, we urge that the extent of genetic admixture between them is assessed from genome-wide nuclear DNA markers. We mobilized a large number of citizen scientists in this project to support the collection of DNA samples by skin swabbing and underscore the effectiveness of this sampling technique for mtDNA barcoding.
PB  - Brill Academic Publishers
T2  - Amphibia-Reptilia
T1  - An extended mtDNA phylogeography for the alpine newt illuminates the provenance of introduced populations
IS  - 3
VL  - 44
DO  - 10.1163/15685381-bja10144
SP  - 347
EP  - 361
ER  - 

@article{
author = "Robbemont, Jody and van Veldhuijzen, Sam and Allain, Steven J.R. and Ambu, Johanna and Boyle, Ryan and Canestrelli, Daniele and Cathasaigh, Éinne Ó and Cathrine, Chris and Chiocchio, Andrea and Cogalniceanu, Dan and Cvijanović, Milena and Dufresnes, Christophe and Ennis, Collie and Gandola, Rob and Jablonski, Daniel and Julian, Angela and Kranželić, Daria and Lukanov, Simeon and Martínez-Solano, Iñigo and Montgomery, Ryan and Naumov, Borislav and O’Neill, Matthew and North, Alexandra and Pabijan, Maciej and Pushendorf, Robert and Salvi, Daniele and Schmidt, Bruno and Sotiropoulos, Konstantinos and Stanescu, Florina and Stanković, David and Stapleton, Sarah and Šunje, Emina and Szabolcs, Márton and Vacheva, Emiliya and Willis, David and Zimić, Adnan and France, James and Meilink, Willem R.M. and Stark, Tariq and Struijk, Richard P.J.H. and Theodoropoulos, Anagnostis and de Visser, Manon C. and Wielstra, Ben",
year = "2023",
abstract = "Many herpetofauna species have been introduced outside of their native range. MtDNA barcoding is regularly used to determine the provenance of such populations. The alpine newt has been introduced across the Netherlands, the United Kingdom and Ireland. However, geographical mtDNA structure across the natural range of the alpine newt is still incompletely understood and certain regions are severely undersampled. We collect mtDNA sequence data of over seven hundred individuals, from both the native and the introduced range. The main new insights from our extended mtDNA phylogeography are that 1) haplotypes from Spain do not form a reciprocally monophyletic clade, but are nested inside the mtDNA clade that covers western and eastern Europe; and 2) haplotypes from the northwest Balkans form a monophyletic clade together with those from the Southern Carpathians and Apuseni Mountains. We also home in on the regions where the distinct mtDNA clades meet in nature. We show that four out of the seven distinct mtDNA clades that comprise the alpine newt are implicated in the introductions in the Netherlands, United Kingdom and Ireland. In several introduced localities, two distinct mtDNA clades co-occur. As these mtDNA clades presumably represent cryptic species, we urge that the extent of genetic admixture between them is assessed from genome-wide nuclear DNA markers. We mobilized a large number of citizen scientists in this project to support the collection of DNA samples by skin swabbing and underscore the effectiveness of this sampling technique for mtDNA barcoding.",
publisher = "Brill Academic Publishers",
journal = "Amphibia-Reptilia",
title = "An extended mtDNA phylogeography for the alpine newt illuminates the provenance of introduced populations",
number = "3",
volume = "44",
doi = "10.1163/15685381-bja10144",
pages = "347-361"
}

Robbemont, J., van Veldhuijzen, S., Allain, S. J.R., Ambu, J., Boyle, R., Canestrelli, D., Cathasaigh, É. Ó., Cathrine, C., Chiocchio, A., Cogalniceanu, D., Cvijanović, M., Dufresnes, C., Ennis, C., Gandola, R., Jablonski, D., Julian, A., Kranželić, D., Lukanov, S., Martínez-Solano, I., Montgomery, R., Naumov, B., O’Neill, M., North, A., Pabijan, M., Pushendorf, R., Salvi, D., Schmidt, B., Sotiropoulos, K., Stanescu, F., Stanković, D., Stapleton, S., Šunje, E., Szabolcs, M., Vacheva, E., Willis, D., Zimić, A., France, J., Meilink, W. R.M., Stark, T., Struijk, R. P.J.H., Theodoropoulos, A., de Visser, M. C.,& Wielstra, B.. (2023). An extended mtDNA phylogeography for the alpine newt illuminates the provenance of introduced populations. in Amphibia-Reptilia
Brill Academic Publishers., 44(3), 347-361.
https://doi.org/10.1163/15685381-bja10144

Robbemont J, van Veldhuijzen S, Allain SJ, Ambu J, Boyle R, Canestrelli D, Cathasaigh ÉÓ, Cathrine C, Chiocchio A, Cogalniceanu D, Cvijanović M, Dufresnes C, Ennis C, Gandola R, Jablonski D, Julian A, Kranželić D, Lukanov S, Martínez-Solano I, Montgomery R, Naumov B, O’Neill M, North A, Pabijan M, Pushendorf R, Salvi D, Schmidt B, Sotiropoulos K, Stanescu F, Stanković D, Stapleton S, Šunje E, Szabolcs M, Vacheva E, Willis D, Zimić A, France J, Meilink WR, Stark T, Struijk RP, Theodoropoulos A, de Visser MC, Wielstra B. An extended mtDNA phylogeography for the alpine newt illuminates the provenance of introduced populations. in Amphibia-Reptilia. 2023;44(3):347-361.
doi:10.1163/15685381-bja10144 .

Robbemont, Jody, van Veldhuijzen, Sam, Allain, Steven J.R., Ambu, Johanna, Boyle, Ryan, Canestrelli, Daniele, Cathasaigh, Éinne Ó, Cathrine, Chris, Chiocchio, Andrea, Cogalniceanu, Dan, Cvijanović, Milena, Dufresnes, Christophe, Ennis, Collie, Gandola, Rob, Jablonski, Daniel, Julian, Angela, Kranželić, Daria, Lukanov, Simeon, Martínez-Solano, Iñigo, Montgomery, Ryan, Naumov, Borislav, O’Neill, Matthew, North, Alexandra, Pabijan, Maciej, Pushendorf, Robert, Salvi, Daniele, Schmidt, Bruno, Sotiropoulos, Konstantinos, Stanescu, Florina, Stanković, David, Stapleton, Sarah, Šunje, Emina, Szabolcs, Márton, Vacheva, Emiliya, Willis, David, Zimić, Adnan, France, James, Meilink, Willem R.M., Stark, Tariq, Struijk, Richard P.J.H., Theodoropoulos, Anagnostis, de Visser, Manon C., Wielstra, Ben, "An extended mtDNA phylogeography for the alpine newt illuminates the provenance of introduced populations" in Amphibia-Reptilia, 44, no. 3 (2023):347-361,
https://doi.org/10.1163/15685381-bja10144 . .

TY  - JOUR
AU  - Boehm, Monika
AU  - Collen, Ben
AU  - Baillie, Jonathan E M
AU  - Bowles, Philip
AU  - Chanson, Janice
AU  - Cox, Neil
AU  - Hammerson, Geoffrey
AU  - Hoffmann, Michael
AU  - Livingstone, Suzanne R
AU  - Ram, Mala
AU  - Rhodin, Anders G J
AU  - Stuart, Simon N
AU  - van Dijk, Peter Paul
AU  - Young, Bruce E
AU  - Afuang, Leticia E
AU  - Aghasyan, Aram
AU  - Garcia, Andres
AU  - Aguilar, Cesar
AU  - Ajtić, Rastko D
AU  - Akarsu, Ferdi
AU  - Alencar, Laura R V
AU  - Allison, Allen
AU  - Ananjeva, Natalia
AU  - Anderson, Steve
AU  - Andren, Claes
AU  - Ariano-Sanchez, Daniel
AU  - Arredondo, Juan Camilo
AU  - Auliya, Mark
AU  - Austin, Christopher C
AU  - Avci, Aziz
AU  - Baker, Patrick J
AU  - Barreto-Lima, Andre F
AU  - Barrio-Amoros, Cesar L
AU  - Basu, Dhruvayothi
AU  - Bates, Michael F
AU  - Batistella, Alexandre
AU  - Bauer, Aaron
AU  - Bennett, Daniel
AU  - Boehme, Wolfgang
AU  - Broadley, Don
AU  - Brown, Rafe
AU  - Burgess, Joseph
AU  - Captain, Ashok
AU  - Carreira, Santiago
AU  - Castaneda, Maria del Rosario
AU  - Castro, Fernando
AU  - Catenazzi, Alessandro
AU  - Cedeno-Vazquez, Jose R
AU  - Chapple, David G
AU  - Cheylan, Marc
AU  - Cisneros-Heredia, Diego F
AU  - Cogalniceanu, Dan
AU  - Cogger, Hal
AU  - Corti, Claudia
AU  - Costa, Gabriel C
AU  - Couper, Patrick J
AU  - Courtney, Tony
AU  - Crnobrnja-Isailović, Jelka M.
AU  - Crochet, Pierre-Andre
AU  - Crother, Brian
AU  - Cruz, Felix
AU  - Daltry, Jennifer C
AU  - Daniels, R I Ranjit
AU  - Das, Indraneil
AU  - de Silva, Anslem
AU  - Diesmos, Arvin C
AU  - Dirksen, Lutz
AU  - Doan, Tiffany M
AU  - Dodd, C Kenneth Jr
AU  - Doody, Sean J
AU  - Dorcas, Michael E
AU  - de Barros, Filho Jose Duarte
AU  - Egan, Vincent T
AU  - El Mouden, Hassan
AU  - Embert, Dirk
AU  - Espinoza, Robert E
AU  - Fallabrino, Alejandro
AU  - Feng, Xie
AU  - Feng, Zhao-Jun
AU  - Fitzgerald, Lee
AU  - Flores-Villela, Oscar
AU  - Franca, Frederico G R
AU  - Frost, Darrell
AU  - Gadsden, Hector
AU  - Gamble, Tony
AU  - Ganesh, S R
AU  - Garcia, Miguel A
AU  - Garcia-Perez, Juan E
AU  - Gatus, Joey
AU  - Gaulke, Maren
AU  - Geniez, Philippe
AU  - Georges, Arthur
AU  - Gerlach, Justin
AU  - Goldberg, Stephen
AU  - Gonzalez, Juan-Carlos T
AU  - Gower, David J
AU  - Grant, Tandora
AU  - Greenbaum, Eli
AU  - Grieco, Cristina
AU  - Guo, Peng
AU  - Hamilton, Alison M
AU  - Hare, Kelly
AU  - Hedges, S Blair
AU  - Heideman, Neil
AU  - Hilton-Taylor, Craig
AU  - Hitchmough, Rod
AU  - Hollingsworth, Bradford
AU  - Hutchinson, Mark
AU  - Ineich, Ivan
AU  - Iverson, John
AU  - Jaksić, Fabian M
AU  - Jenkins, Richard
AU  - Joger, Ulrich
AU  - Jose, Reizl
AU  - Kaska, Yakup
AU  - Kaya, Ugur
AU  - Keogh, J Scott
AU  - Koehler, Gunther
AU  - Kuchling, Gerald
AU  - Kumlutas, Yusuf
AU  - Kwet, Axel
AU  - La Marca, Enrique
AU  - Lamar, William
AU  - Lane, Amanda
AU  - Lardner, Bjorn
AU  - Latta, Craig
AU  - Latta, Gabrielle
AU  - Lau, Michael
AU  - Lavin, Pablo
AU  - Lawson, Dwight
AU  - Le Breton, Matthew
AU  - Lehr, Edgar
AU  - Limpus, Duncan
AU  - Lipczynski, Nicola
AU  - Lobo, Aaron S
AU  - Lopez-Luna, Marco A
AU  - Luiselli, Luca
AU  - Lukoschek, Vimoksalehi
AU  - Lundberg, Mikael
AU  - Lymberakis, Petros
AU  - Macey, Robert
AU  - Magnusson, William E
AU  - Mahler, D Luke
AU  - Malhotra, Anita
AU  - Mariaux, Jean
AU  - Maritz, Bryan
AU  - Marques, Otavio A V
AU  - Marquez, Rafael
AU  - Martins, Marcio
AU  - Masterson, Gavin
AU  - Mateo, Jose A
AU  - Mathew, Rosamma
AU  - Mathews, Nixon
AU  - Mayer, Gregory
AU  - McCranie, James R
AU  - Measey, G John
AU  - Mendoza-Quijano, Fernando
AU  - Menegon, Michele
AU  - Metrailler, Sebastien
AU  - Milton, David A
AU  - Montgomery, Chad
AU  - Morato, Sergio A A
AU  - Mott, Tami
AU  - Munoz-Alonso, Antonio
AU  - Murphy, John
AU  - Nguyen, Truong Q
AU  - Nilson, Goeran
AU  - Nogueira, Cristiano
AU  - Nunez, Herman
AU  - Orlov, Nikolai
AU  - Ota, Hidetoshi
AU  - Ottenwalder, Jose
AU  - Papenfuss, Theodore
AU  - Pasachnik, Stesha
AU  - Passos, Paulo
AU  - Pauwels, Olivier S G
AU  - Perez-Buitrago, Nestor
AU  - Perez-Mellado, Valentin
AU  - Pianka, Eric R
AU  - Pleguezuelos, Juan
AU  - Pollock, Caroline
AU  - Ponce-Campos, Paulino
AU  - Powell, Robert
AU  - Pupin, Fabio
AU  - Quintero, Diaz Gustavo E
AU  - Radder, Raju
AU  - Ramer, Jan
AU  - Rasmussen, Arne R
AU  - Raxworthy, Chris
AU  - Reynolds, Robert
AU  - Richman, Nadia
AU  - Rico, Edmund L
AU  - Riservato, Elisa
AU  - Rivas, Gilson
AU  - da Rocha, Pedro L B
AU  - Roedel, Mark-Oliver
AU  - Rodriguez, Schettino Lourdes
AU  - Roosenburg, Willem M
AU  - Ross, James P
AU  - Sadek, Riyad
AU  - Sanders, Kate
AU  - Santos-Barrera, Georgina
AU  - Schleich, Hermann H
AU  - Schmidt, Benedikt R
AU  - Schmitz, Andreas
AU  - Sharifi, Mozafar
AU  - Shea, Glenn
AU  - Shi, Hai-Tao
AU  - Shine, Richard
AU  - Sindaco, Roberto
AU  - Slimani, Tahar
AU  - Somaweera, Ruchira
AU  - Spawls, Steve
AU  - Stafford, Peter
AU  - Stuebing, Rob
AU  - Sweet, Sam
AU  - Emerson, Sy
AU  - Temple, Helen J
AU  - Tognelli, Marcelo F
AU  - Tolley, Krystal
AU  - Tolson, Peter J
AU  - Tuniyev, Boris
AU  - Tuniyev, Sako
AU  - Uzum, Nazan
AU  - van Buurt, Gerard
AU  - Van Sluys, Monique
AU  - Velasco, Alvaro
AU  - Vences, Miguel
AU  - Vesely, Milan
AU  - Vinke, Sabine
AU  - Vinke, Thomas
AU  - Vogel, Gernot
AU  - Vogrin, Milan
AU  - Vogt, Richard C
AU  - Wearn, Oliver R
AU  - Werner, Yehudah L
AU  - Whiting, Martin J
AU  - Wiewandt, Thomas
AU  - Wilkinson, John
AU  - Wilson, Byron
AU  - Wren, Sally
AU  - Zamin, Tara
AU  - Zhou, Kaiya
AU  - Zug, George
PY  - 2013
UR  - https://radar.ibiss.bg.ac.rs/handle/123456789/1059
AB  - Effective and targeted conservation action requires detailed information about species, their distribution, systematics and ecology as well as the distribution of threat processes which affect them. Knowledge of reptilian diversity remains surprisingly disparate, and innovative means of gaining rapid insight into the status of reptiles are needed in order to highlight urgent conservation cases and inform environmental policy with appropriate biodiversity information in a timely manner. We present the first ever global analysis of extinction risk in reptiles, based on a random representative sample of 1500 species (16% of all currently known species). To our knowledge, our results provide the first analysis of the global conservation status and distribution patterns of reptiles and the threats affecting them, highlighting conservation priorities and knowledge gaps which need to be addressed urgently to ensure the continued survival of the world's reptiles. Nearly one in five reptilian species are threatened with extinction, with another one in five species classed as Data Deficient. The proportion of threatened reptile species is highest in freshwater environments, tropical regions and on oceanic islands, while data deficiency was highest in tropical areas, such as Central Africa and Southeast Asia, and among fossorial reptiles. Our results emphasise the need for research attention to be focussed on tropical areas which are experiencing the most dramatic rates of habitat loss, on fossorial reptiles for which there is a chronic lack of data, and on certain taxa such as snakes for which extinction risk may currently be underestimated due to lack of population information. Conservation actions specifically need to mitigate the effects of human-induced habitat loss and harvesting, which are the predominant threats to reptiles. (C) 2012 Elsevier Ltd. All rights reserved.
T2  - Biological Conservation
T1  - The conservation status of the world's reptiles
IS  - null
VL  - 157
SP  - 111
EP  - 385
UR  - https://hdl.handle.net/21.15107/rcub_ibiss_1059
ER  - 

@article{
author = "Boehm, Monika and Collen, Ben and Baillie, Jonathan E M and Bowles, Philip and Chanson, Janice and Cox, Neil and Hammerson, Geoffrey and Hoffmann, Michael and Livingstone, Suzanne R and Ram, Mala and Rhodin, Anders G J and Stuart, Simon N and van Dijk, Peter Paul and Young, Bruce E and Afuang, Leticia E and Aghasyan, Aram and Garcia, Andres and Aguilar, Cesar and Ajtić, Rastko D and Akarsu, Ferdi and Alencar, Laura R V and Allison, Allen and Ananjeva, Natalia and Anderson, Steve and Andren, Claes and Ariano-Sanchez, Daniel and Arredondo, Juan Camilo and Auliya, Mark and Austin, Christopher C and Avci, Aziz and Baker, Patrick J and Barreto-Lima, Andre F and Barrio-Amoros, Cesar L and Basu, Dhruvayothi and Bates, Michael F and Batistella, Alexandre and Bauer, Aaron and Bennett, Daniel and Boehme, Wolfgang and Broadley, Don and Brown, Rafe and Burgess, Joseph and Captain, Ashok and Carreira, Santiago and Castaneda, Maria del Rosario and Castro, Fernando and Catenazzi, Alessandro and Cedeno-Vazquez, Jose R and Chapple, David G and Cheylan, Marc and Cisneros-Heredia, Diego F and Cogalniceanu, Dan and Cogger, Hal and Corti, Claudia and Costa, Gabriel C and Couper, Patrick J and Courtney, Tony and Crnobrnja-Isailović, Jelka M. and Crochet, Pierre-Andre and Crother, Brian and Cruz, Felix and Daltry, Jennifer C and Daniels, R I Ranjit and Das, Indraneil and de Silva, Anslem and Diesmos, Arvin C and Dirksen, Lutz and Doan, Tiffany M and Dodd, C Kenneth Jr and Doody, Sean J and Dorcas, Michael E and de Barros, Filho Jose Duarte and Egan, Vincent T and El Mouden, Hassan and Embert, Dirk and Espinoza, Robert E and Fallabrino, Alejandro and Feng, Xie and Feng, Zhao-Jun and Fitzgerald, Lee and Flores-Villela, Oscar and Franca, Frederico G R and Frost, Darrell and Gadsden, Hector and Gamble, Tony and Ganesh, S R and Garcia, Miguel A and Garcia-Perez, Juan E and Gatus, Joey and Gaulke, Maren and Geniez, Philippe and Georges, Arthur and Gerlach, Justin and Goldberg, Stephen and Gonzalez, Juan-Carlos T and Gower, David J and Grant, Tandora and Greenbaum, Eli and Grieco, Cristina and Guo, Peng and Hamilton, Alison M and Hare, Kelly and Hedges, S Blair and Heideman, Neil and Hilton-Taylor, Craig and Hitchmough, Rod and Hollingsworth, Bradford and Hutchinson, Mark and Ineich, Ivan and Iverson, John and Jaksić, Fabian M and Jenkins, Richard and Joger, Ulrich and Jose, Reizl and Kaska, Yakup and Kaya, Ugur and Keogh, J Scott and Koehler, Gunther and Kuchling, Gerald and Kumlutas, Yusuf and Kwet, Axel and La Marca, Enrique and Lamar, William and Lane, Amanda and Lardner, Bjorn and Latta, Craig and Latta, Gabrielle and Lau, Michael and Lavin, Pablo and Lawson, Dwight and Le Breton, Matthew and Lehr, Edgar and Limpus, Duncan and Lipczynski, Nicola and Lobo, Aaron S and Lopez-Luna, Marco A and Luiselli, Luca and Lukoschek, Vimoksalehi and Lundberg, Mikael and Lymberakis, Petros and Macey, Robert and Magnusson, William E and Mahler, D Luke and Malhotra, Anita and Mariaux, Jean and Maritz, Bryan and Marques, Otavio A V and Marquez, Rafael and Martins, Marcio and Masterson, Gavin and Mateo, Jose A and Mathew, Rosamma and Mathews, Nixon and Mayer, Gregory and McCranie, James R and Measey, G John and Mendoza-Quijano, Fernando and Menegon, Michele and Metrailler, Sebastien and Milton, David A and Montgomery, Chad and Morato, Sergio A A and Mott, Tami and Munoz-Alonso, Antonio and Murphy, John and Nguyen, Truong Q and Nilson, Goeran and Nogueira, Cristiano and Nunez, Herman and Orlov, Nikolai and Ota, Hidetoshi and Ottenwalder, Jose and Papenfuss, Theodore and Pasachnik, Stesha and Passos, Paulo and Pauwels, Olivier S G and Perez-Buitrago, Nestor and Perez-Mellado, Valentin and Pianka, Eric R and Pleguezuelos, Juan and Pollock, Caroline and Ponce-Campos, Paulino and Powell, Robert and Pupin, Fabio and Quintero, Diaz Gustavo E and Radder, Raju and Ramer, Jan and Rasmussen, Arne R and Raxworthy, Chris and Reynolds, Robert and Richman, Nadia and Rico, Edmund L and Riservato, Elisa and Rivas, Gilson and da Rocha, Pedro L B and Roedel, Mark-Oliver and Rodriguez, Schettino Lourdes and Roosenburg, Willem M and Ross, James P and Sadek, Riyad and Sanders, Kate and Santos-Barrera, Georgina and Schleich, Hermann H and Schmidt, Benedikt R and Schmitz, Andreas and Sharifi, Mozafar and Shea, Glenn and Shi, Hai-Tao and Shine, Richard and Sindaco, Roberto and Slimani, Tahar and Somaweera, Ruchira and Spawls, Steve and Stafford, Peter and Stuebing, Rob and Sweet, Sam and Emerson, Sy and Temple, Helen J and Tognelli, Marcelo F and Tolley, Krystal and Tolson, Peter J and Tuniyev, Boris and Tuniyev, Sako and Uzum, Nazan and van Buurt, Gerard and Van Sluys, Monique and Velasco, Alvaro and Vences, Miguel and Vesely, Milan and Vinke, Sabine and Vinke, Thomas and Vogel, Gernot and Vogrin, Milan and Vogt, Richard C and Wearn, Oliver R and Werner, Yehudah L and Whiting, Martin J and Wiewandt, Thomas and Wilkinson, John and Wilson, Byron and Wren, Sally and Zamin, Tara and Zhou, Kaiya and Zug, George",
year = "2013",
abstract = "Effective and targeted conservation action requires detailed information about species, their distribution, systematics and ecology as well as the distribution of threat processes which affect them. Knowledge of reptilian diversity remains surprisingly disparate, and innovative means of gaining rapid insight into the status of reptiles are needed in order to highlight urgent conservation cases and inform environmental policy with appropriate biodiversity information in a timely manner. We present the first ever global analysis of extinction risk in reptiles, based on a random representative sample of 1500 species (16% of all currently known species). To our knowledge, our results provide the first analysis of the global conservation status and distribution patterns of reptiles and the threats affecting them, highlighting conservation priorities and knowledge gaps which need to be addressed urgently to ensure the continued survival of the world's reptiles. Nearly one in five reptilian species are threatened with extinction, with another one in five species classed as Data Deficient. The proportion of threatened reptile species is highest in freshwater environments, tropical regions and on oceanic islands, while data deficiency was highest in tropical areas, such as Central Africa and Southeast Asia, and among fossorial reptiles. Our results emphasise the need for research attention to be focussed on tropical areas which are experiencing the most dramatic rates of habitat loss, on fossorial reptiles for which there is a chronic lack of data, and on certain taxa such as snakes for which extinction risk may currently be underestimated due to lack of population information. Conservation actions specifically need to mitigate the effects of human-induced habitat loss and harvesting, which are the predominant threats to reptiles. (C) 2012 Elsevier Ltd. All rights reserved.",
journal = "Biological Conservation",
title = "The conservation status of the world's reptiles",
number = "null",
volume = "157",
pages = "111-385",
url = "https://hdl.handle.net/21.15107/rcub_ibiss_1059"
}

Boehm, M., Collen, B., Baillie, J. E. M., Bowles, P., Chanson, J., Cox, N., Hammerson, G., Hoffmann, M., Livingstone, S. R., Ram, M., Rhodin, A. G. J., Stuart, S. N., van Dijk, P. P., Young, B. E., Afuang, L. E., Aghasyan, A., Garcia, A., Aguilar, C., Ajtić, R. D., Akarsu, F., Alencar, L. R. V., Allison, A., Ananjeva, N., Anderson, S., Andren, C., Ariano-Sanchez, D., Arredondo, J. C., Auliya, M., Austin, C. C., Avci, A., Baker, P. J., Barreto-Lima, A. F., Barrio-Amoros, C. L., Basu, D., Bates, M. F., Batistella, A., Bauer, A., Bennett, D., Boehme, W., Broadley, D., Brown, R., Burgess, J., Captain, A., Carreira, S., Castaneda, M. d. R., Castro, F., Catenazzi, A., Cedeno-Vazquez, J. R., Chapple, D. G., Cheylan, M., Cisneros-Heredia, D. F., Cogalniceanu, D., Cogger, H., Corti, C., Costa, G. C., Couper, P. J., Courtney, T., Crnobrnja-Isailović, J. M., Crochet, P., Crother, B., Cruz, F., Daltry, J. C., Daniels, R. I. R., Das, I., de Silva, A., Diesmos, A. C., Dirksen, L., Doan, T. M., Dodd, C. K. J., Doody, S. J., Dorcas, M. E., de Barros, F. J. D., Egan, V. T., El Mouden, H., Embert, D., Espinoza, R. E., Fallabrino, A., Feng, X., Feng, Z., Fitzgerald, L., Flores-Villela, O., Franca, F. G. R., Frost, D., Gadsden, H., Gamble, T., Ganesh, S. R., Garcia, M. A., Garcia-Perez, J. E., Gatus, J., Gaulke, M., Geniez, P., Georges, A., Gerlach, J., Goldberg, S., Gonzalez, J. T., Gower, D. J., Grant, T., Greenbaum, E., Grieco, C., Guo, P., Hamilton, A. M., Hare, K., Hedges, S. B., Heideman, N., Hilton-Taylor, C., Hitchmough, R., Hollingsworth, B., Hutchinson, M., Ineich, I., Iverson, J., Jaksić, F. M., Jenkins, R., Joger, U., Jose, R., Kaska, Y., Kaya, U., Keogh, J. S., Koehler, G., Kuchling, G., Kumlutas, Y., Kwet, A., La Marca, E., Lamar, W., Lane, A., Lardner, B., Latta, C., Latta, G., Lau, M., Lavin, P., Lawson, D., Le Breton, M., Lehr, E., Limpus, D., Lipczynski, N., Lobo, A. S., Lopez-Luna, M. A., Luiselli, L., Lukoschek, V., Lundberg, M., Lymberakis, P., Macey, R., Magnusson, W. E., Mahler, D. L., Malhotra, A., Mariaux, J., Maritz, B., Marques, O. A. V., Marquez, R., Martins, M., Masterson, G., Mateo, J. A., Mathew, R., Mathews, N., Mayer, G., McCranie, J. R., Measey, G. J., Mendoza-Quijano, F., Menegon, M., Metrailler, S., Milton, D. A., Montgomery, C., Morato, S. A. A., Mott, T., Munoz-Alonso, A., Murphy, J., Nguyen, T. Q., Nilson, G., Nogueira, C., Nunez, H., Orlov, N., Ota, H., Ottenwalder, J., Papenfuss, T., Pasachnik, S., Passos, P., Pauwels, O. S. G., Perez-Buitrago, N., Perez-Mellado, V., Pianka, E. R., Pleguezuelos, J., Pollock, C., Ponce-Campos, P., Powell, R., Pupin, F., Quintero, D. G. E., Radder, R., Ramer, J., Rasmussen, A. R., Raxworthy, C., Reynolds, R., Richman, N., Rico, E. L., Riservato, E., Rivas, G., da Rocha, P. L. B., Roedel, M., Rodriguez, S. L., Roosenburg, W. M., Ross, J. P., Sadek, R., Sanders, K., Santos-Barrera, G., Schleich, H. H., Schmidt, B. R., Schmitz, A., Sharifi, M., Shea, G., Shi, H., Shine, R., Sindaco, R., Slimani, T., Somaweera, R., Spawls, S., Stafford, P., Stuebing, R., Sweet, S., Emerson, S., Temple, H. J., Tognelli, M. F., Tolley, K., Tolson, P. J., Tuniyev, B., Tuniyev, S., Uzum, N., van Buurt, G., Van Sluys, M., Velasco, A., Vences, M., Vesely, M., Vinke, S., Vinke, T., Vogel, G., Vogrin, M., Vogt, R. C., Wearn, O. R., Werner, Y. L., Whiting, M. J., Wiewandt, T., Wilkinson, J., Wilson, B., Wren, S., Zamin, T., Zhou, K.,& Zug, G.. (2013). The conservation status of the world's reptiles. in Biological Conservation, 157(null), 111-385.
https://hdl.handle.net/21.15107/rcub_ibiss_1059

Boehm M, Collen B, Baillie JEM, Bowles P, Chanson J, Cox N, Hammerson G, Hoffmann M, Livingstone SR, Ram M, Rhodin AGJ, Stuart SN, van Dijk PP, Young BE, Afuang LE, Aghasyan A, Garcia A, Aguilar C, Ajtić RD, Akarsu F, Alencar LRV, Allison A, Ananjeva N, Anderson S, Andren C, Ariano-Sanchez D, Arredondo JC, Auliya M, Austin CC, Avci A, Baker PJ, Barreto-Lima AF, Barrio-Amoros CL, Basu D, Bates MF, Batistella A, Bauer A, Bennett D, Boehme W, Broadley D, Brown R, Burgess J, Captain A, Carreira S, Castaneda MDR, Castro F, Catenazzi A, Cedeno-Vazquez JR, Chapple DG, Cheylan M, Cisneros-Heredia DF, Cogalniceanu D, Cogger H, Corti C, Costa GC, Couper PJ, Courtney T, Crnobrnja-Isailović JM, Crochet P, Crother B, Cruz F, Daltry JC, Daniels RIR, Das I, de Silva A, Diesmos AC, Dirksen L, Doan TM, Dodd CKJ, Doody SJ, Dorcas ME, de Barros FJD, Egan VT, El Mouden H, Embert D, Espinoza RE, Fallabrino A, Feng X, Feng Z, Fitzgerald L, Flores-Villela O, Franca FGR, Frost D, Gadsden H, Gamble T, Ganesh SR, Garcia MA, Garcia-Perez JE, Gatus J, Gaulke M, Geniez P, Georges A, Gerlach J, Goldberg S, Gonzalez JT, Gower DJ, Grant T, Greenbaum E, Grieco C, Guo P, Hamilton AM, Hare K, Hedges SB, Heideman N, Hilton-Taylor C, Hitchmough R, Hollingsworth B, Hutchinson M, Ineich I, Iverson J, Jaksić FM, Jenkins R, Joger U, Jose R, Kaska Y, Kaya U, Keogh JS, Koehler G, Kuchling G, Kumlutas Y, Kwet A, La Marca E, Lamar W, Lane A, Lardner B, Latta C, Latta G, Lau M, Lavin P, Lawson D, Le Breton M, Lehr E, Limpus D, Lipczynski N, Lobo AS, Lopez-Luna MA, Luiselli L, Lukoschek V, Lundberg M, Lymberakis P, Macey R, Magnusson WE, Mahler DL, Malhotra A, Mariaux J, Maritz B, Marques OAV, Marquez R, Martins M, Masterson G, Mateo JA, Mathew R, Mathews N, Mayer G, McCranie JR, Measey GJ, Mendoza-Quijano F, Menegon M, Metrailler S, Milton DA, Montgomery C, Morato SAA, Mott T, Munoz-Alonso A, Murphy J, Nguyen TQ, Nilson G, Nogueira C, Nunez H, Orlov N, Ota H, Ottenwalder J, Papenfuss T, Pasachnik S, Passos P, Pauwels OSG, Perez-Buitrago N, Perez-Mellado V, Pianka ER, Pleguezuelos J, Pollock C, Ponce-Campos P, Powell R, Pupin F, Quintero DGE, Radder R, Ramer J, Rasmussen AR, Raxworthy C, Reynolds R, Richman N, Rico EL, Riservato E, Rivas G, da Rocha PLB, Roedel M, Rodriguez SL, Roosenburg WM, Ross JP, Sadek R, Sanders K, Santos-Barrera G, Schleich HH, Schmidt BR, Schmitz A, Sharifi M, Shea G, Shi H, Shine R, Sindaco R, Slimani T, Somaweera R, Spawls S, Stafford P, Stuebing R, Sweet S, Emerson S, Temple HJ, Tognelli MF, Tolley K, Tolson PJ, Tuniyev B, Tuniyev S, Uzum N, van Buurt G, Van Sluys M, Velasco A, Vences M, Vesely M, Vinke S, Vinke T, Vogel G, Vogrin M, Vogt RC, Wearn OR, Werner YL, Whiting MJ, Wiewandt T, Wilkinson J, Wilson B, Wren S, Zamin T, Zhou K, Zug G. The conservation status of the world's reptiles. in Biological Conservation. 2013;157(null):111-385.
https://hdl.handle.net/21.15107/rcub_ibiss_1059 .

Boehm, Monika, Collen, Ben, Baillie, Jonathan E M, Bowles, Philip, Chanson, Janice, Cox, Neil, Hammerson, Geoffrey, Hoffmann, Michael, Livingstone, Suzanne R, Ram, Mala, Rhodin, Anders G J, Stuart, Simon N, van Dijk, Peter Paul, Young, Bruce E, Afuang, Leticia E, Aghasyan, Aram, Garcia, Andres, Aguilar, Cesar, Ajtić, Rastko D, Akarsu, Ferdi, Alencar, Laura R V, Allison, Allen, Ananjeva, Natalia, Anderson, Steve, Andren, Claes, Ariano-Sanchez, Daniel, Arredondo, Juan Camilo, Auliya, Mark, Austin, Christopher C, Avci, Aziz, Baker, Patrick J, Barreto-Lima, Andre F, Barrio-Amoros, Cesar L, Basu, Dhruvayothi, Bates, Michael F, Batistella, Alexandre, Bauer, Aaron, Bennett, Daniel, Boehme, Wolfgang, Broadley, Don, Brown, Rafe, Burgess, Joseph, Captain, Ashok, Carreira, Santiago, Castaneda, Maria del Rosario, Castro, Fernando, Catenazzi, Alessandro, Cedeno-Vazquez, Jose R, Chapple, David G, Cheylan, Marc, Cisneros-Heredia, Diego F, Cogalniceanu, Dan, Cogger, Hal, Corti, Claudia, Costa, Gabriel C, Couper, Patrick J, Courtney, Tony, Crnobrnja-Isailović, Jelka M., Crochet, Pierre-Andre, Crother, Brian, Cruz, Felix, Daltry, Jennifer C, Daniels, R I Ranjit, Das, Indraneil, de Silva, Anslem, Diesmos, Arvin C, Dirksen, Lutz, Doan, Tiffany M, Dodd, C Kenneth Jr, Doody, Sean J, Dorcas, Michael E, de Barros, Filho Jose Duarte, Egan, Vincent T, El Mouden, Hassan, Embert, Dirk, Espinoza, Robert E, Fallabrino, Alejandro, Feng, Xie, Feng, Zhao-Jun, Fitzgerald, Lee, Flores-Villela, Oscar, Franca, Frederico G R, Frost, Darrell, Gadsden, Hector, Gamble, Tony, Ganesh, S R, Garcia, Miguel A, Garcia-Perez, Juan E, Gatus, Joey, Gaulke, Maren, Geniez, Philippe, Georges, Arthur, Gerlach, Justin, Goldberg, Stephen, Gonzalez, Juan-Carlos T, Gower, David J, Grant, Tandora, Greenbaum, Eli, Grieco, Cristina, Guo, Peng, Hamilton, Alison M, Hare, Kelly, Hedges, S Blair, Heideman, Neil, Hilton-Taylor, Craig, Hitchmough, Rod, Hollingsworth, Bradford, Hutchinson, Mark, Ineich, Ivan, Iverson, John, Jaksić, Fabian M, Jenkins, Richard, Joger, Ulrich, Jose, Reizl, Kaska, Yakup, Kaya, Ugur, Keogh, J Scott, Koehler, Gunther, Kuchling, Gerald, Kumlutas, Yusuf, Kwet, Axel, La Marca, Enrique, Lamar, William, Lane, Amanda, Lardner, Bjorn, Latta, Craig, Latta, Gabrielle, Lau, Michael, Lavin, Pablo, Lawson, Dwight, Le Breton, Matthew, Lehr, Edgar, Limpus, Duncan, Lipczynski, Nicola, Lobo, Aaron S, Lopez-Luna, Marco A, Luiselli, Luca, Lukoschek, Vimoksalehi, Lundberg, Mikael, Lymberakis, Petros, Macey, Robert, Magnusson, William E, Mahler, D Luke, Malhotra, Anita, Mariaux, Jean, Maritz, Bryan, Marques, Otavio A V, Marquez, Rafael, Martins, Marcio, Masterson, Gavin, Mateo, Jose A, Mathew, Rosamma, Mathews, Nixon, Mayer, Gregory, McCranie, James R, Measey, G John, Mendoza-Quijano, Fernando, Menegon, Michele, Metrailler, Sebastien, Milton, David A, Montgomery, Chad, Morato, Sergio A A, Mott, Tami, Munoz-Alonso, Antonio, Murphy, John, Nguyen, Truong Q, Nilson, Goeran, Nogueira, Cristiano, Nunez, Herman, Orlov, Nikolai, Ota, Hidetoshi, Ottenwalder, Jose, Papenfuss, Theodore, Pasachnik, Stesha, Passos, Paulo, Pauwels, Olivier S G, Perez-Buitrago, Nestor, Perez-Mellado, Valentin, Pianka, Eric R, Pleguezuelos, Juan, Pollock, Caroline, Ponce-Campos, Paulino, Powell, Robert, Pupin, Fabio, Quintero, Diaz Gustavo E, Radder, Raju, Ramer, Jan, Rasmussen, Arne R, Raxworthy, Chris, Reynolds, Robert, Richman, Nadia, Rico, Edmund L, Riservato, Elisa, Rivas, Gilson, da Rocha, Pedro L B, Roedel, Mark-Oliver, Rodriguez, Schettino Lourdes, Roosenburg, Willem M, Ross, James P, Sadek, Riyad, Sanders, Kate, Santos-Barrera, Georgina, Schleich, Hermann H, Schmidt, Benedikt R, Schmitz, Andreas, Sharifi, Mozafar, Shea, Glenn, Shi, Hai-Tao, Shine, Richard, Sindaco, Roberto, Slimani, Tahar, Somaweera, Ruchira, Spawls, Steve, Stafford, Peter, Stuebing, Rob, Sweet, Sam, Emerson, Sy, Temple, Helen J, Tognelli, Marcelo F, Tolley, Krystal, Tolson, Peter J, Tuniyev, Boris, Tuniyev, Sako, Uzum, Nazan, van Buurt, Gerard, Van Sluys, Monique, Velasco, Alvaro, Vences, Miguel, Vesely, Milan, Vinke, Sabine, Vinke, Thomas, Vogel, Gernot, Vogrin, Milan, Vogt, Richard C, Wearn, Oliver R, Werner, Yehudah L, Whiting, Martin J, Wiewandt, Thomas, Wilkinson, John, Wilson, Byron, Wren, Sally, Zamin, Tara, Zhou, Kaiya, Zug, George, "The conservation status of the world's reptiles" in Biological Conservation, 157, no. null (2013):111-385,
https://hdl.handle.net/21.15107/rcub_ibiss_1059 .

TY  - JOUR
AU  - Recuero, E
AU  - Canestrelli, D
AU  - Voeroes, J
AU  - Szabo, K
AU  - Poyarkov, NA
AU  - Arntzen, Jan W
AU  - Crnobrnja-Isailović, Jelka M.
AU  - Kidov, AA
AU  - Cogalniceanu, Dan
AU  - Caputo, FP
AU  - Nascetti, G
AU  - Martinez-Solano, I
PY  - 2012
UR  - https://radar.ibiss.bg.ac.rs/handle/123456789/1234
AB  - New analytical methods are improving our ability to reconstruct robust species trees from multilocus datasets, despite difficulties in phylogenetic reconstruction associated with recent, rapid divergence, incomplete lineage sorting and/or introgression. In this study, we applied these methods to resolve the radiation of toads in the Bufo bufo (Anura, Bufonidae) species group, ranging from the Iberian Peninsula and North Africa to Siberia, based on sequences from two mitochondria] and four nuclear DNA regions (3490 base pairs). We obtained a fully-resolved topology, with the recently described Bufo eichwaldi from the Talysh Mountains in south Azerbaijan and Iran as the sister taxon to a clade including: (1) north African, Iberian, and most French populations, referred herein to Bufo spinosus based on the implied inclusion of populations from its type locality and (2) a second clade, sister to B. spinosus, including two sister subclades: one with all samples of Bufo verrucosissimus from the Caucasus and another one with samples of B. bufo from northern France to Russia, including the Apennine and Balkan peninsulas and most of Anatolia. Coalescent-based estimations of time to most recent common ancestors for each species and selected subclades allowed historical reconstruction of the diversification of the species group in the context of Mediterranean paleogeography and indicated a long evolutionary history in this region. Finally, we used our data to delimit the ranges of the four species, particularly the more widespread and historically confused B. spinosus and B. bufo, and identify potential contact zones, some of which show striking parallels with other co-distributed species. (C) 2011 Elsevier Inc. All rights reserved.
T2  - Molecular Phylogenetics and Evolution
T1  - Multilocus species tree analyses resolve the radiation of the widespread Bufo bufo species group (Anura, Bufonidae)
IS  - 1
VL  - 62
EP  - 86
UR  - https://hdl.handle.net/21.15107/rcub_ibiss_1234
ER  - 

@article{
author = "Recuero, E and Canestrelli, D and Voeroes, J and Szabo, K and Poyarkov, NA and Arntzen, Jan W and Crnobrnja-Isailović, Jelka M. and Kidov, AA and Cogalniceanu, Dan and Caputo, FP and Nascetti, G and Martinez-Solano, I",
year = "2012",
abstract = "New analytical methods are improving our ability to reconstruct robust species trees from multilocus datasets, despite difficulties in phylogenetic reconstruction associated with recent, rapid divergence, incomplete lineage sorting and/or introgression. In this study, we applied these methods to resolve the radiation of toads in the Bufo bufo (Anura, Bufonidae) species group, ranging from the Iberian Peninsula and North Africa to Siberia, based on sequences from two mitochondria] and four nuclear DNA regions (3490 base pairs). We obtained a fully-resolved topology, with the recently described Bufo eichwaldi from the Talysh Mountains in south Azerbaijan and Iran as the sister taxon to a clade including: (1) north African, Iberian, and most French populations, referred herein to Bufo spinosus based on the implied inclusion of populations from its type locality and (2) a second clade, sister to B. spinosus, including two sister subclades: one with all samples of Bufo verrucosissimus from the Caucasus and another one with samples of B. bufo from northern France to Russia, including the Apennine and Balkan peninsulas and most of Anatolia. Coalescent-based estimations of time to most recent common ancestors for each species and selected subclades allowed historical reconstruction of the diversification of the species group in the context of Mediterranean paleogeography and indicated a long evolutionary history in this region. Finally, we used our data to delimit the ranges of the four species, particularly the more widespread and historically confused B. spinosus and B. bufo, and identify potential contact zones, some of which show striking parallels with other co-distributed species. (C) 2011 Elsevier Inc. All rights reserved.",
journal = "Molecular Phylogenetics and Evolution",
title = "Multilocus species tree analyses resolve the radiation of the widespread Bufo bufo species group (Anura, Bufonidae)",
number = "1",
volume = "62",
pages = "86",
url = "https://hdl.handle.net/21.15107/rcub_ibiss_1234"
}

Recuero, E., Canestrelli, D., Voeroes, J., Szabo, K., Poyarkov, N., Arntzen, J. W., Crnobrnja-Isailović, J. M., Kidov, A., Cogalniceanu, D., Caputo, F., Nascetti, G.,& Martinez-Solano, I.. (2012). Multilocus species tree analyses resolve the radiation of the widespread Bufo bufo species group (Anura, Bufonidae). in Molecular Phylogenetics and Evolution, 62(1).
https://hdl.handle.net/21.15107/rcub_ibiss_1234

Recuero E, Canestrelli D, Voeroes J, Szabo K, Poyarkov N, Arntzen JW, Crnobrnja-Isailović JM, Kidov A, Cogalniceanu D, Caputo F, Nascetti G, Martinez-Solano I. Multilocus species tree analyses resolve the radiation of the widespread Bufo bufo species group (Anura, Bufonidae). in Molecular Phylogenetics and Evolution. 2012;62(1):null-86.
https://hdl.handle.net/21.15107/rcub_ibiss_1234 .

Recuero, E, Canestrelli, D, Voeroes, J, Szabo, K, Poyarkov, NA, Arntzen, Jan W, Crnobrnja-Isailović, Jelka M., Kidov, AA, Cogalniceanu, Dan, Caputo, FP, Nascetti, G, Martinez-Solano, I, "Multilocus species tree analyses resolve the radiation of the widespread Bufo bufo species group (Anura, Bufonidae)" in Molecular Phylogenetics and Evolution, 62, no. 1 (2012),
https://hdl.handle.net/21.15107/rcub_ibiss_1234 .

TY  - JOUR
AU  - Fijarczyk, Anna
AU  - Nadachowska, Krystyna
AU  - Hofman, Sebastian
AU  - Litvinchuk, Spartak N
AU  - Babik, Wieslaw
AU  - Stuglik, Michal
AU  - Gollmann, Guenter
AU  - Choleva, Lukas
AU  - Cogalniceanu, Dan
AU  - Vukov, Tanja
AU  - Džukić, Georg V.
AU  - Szymura, Jacek M
PY  - 2011
UR  - https://radar.ibiss.bg.ac.rs/handle/123456789/1276
AB  - Exact location and number of glacial refugia still remain unclear for many European cold-blooded terrestrial vertebrates. We performed a fine-scaled multilocus phylogeographic analysis of two Bombina species combining mitochondrial variation of 950 toads from 385 sites and nuclear genes (Rag-1, Ncx-1) from a subset of samples to reconstruct their colonization and contemporary variation patterns. We identified the lowlands northwest of the Black Sea and the Carpathians to be important refugial areas for B. bombina and B. variegata, respectively. This result emphasizes the importance of Central European refugia for ectothermic terrestrial species, far north of the Mediterranean areas regarded as exclusive glacial refugia for the animals. Additional refugia for B. variegata have been located in the southern Apennines and Balkans. In contrast, no evidence for the importance of other east European plains as refugial regions has been found. The distribution of mtDNA and Ncx-1 variation suggests the presence of local refugia near the Black Sea for B. bombina; however, coalescent simulations did not allow to distinguish whether one or two refugia were present in the region. Strong genetic drift apparently accompanied postglacial expansions reducing diversity in the colonization areas. Extended sampling, coupled with the multilocus isolation with migration analysis, revealed a limited and geographically restricted gene flow from the Balkan to Carpathian populations of B. variegata. However, despite proximity of inferred B. bombina and B. variegata refugia, gene exchange between them was not detected.
T2  - Molecular Ecology
T1  - Nuclear and mitochondrial phylogeography of the European fire-bellied toads Bombina bombina and Bombina variegata supports their independent histories
IS  - 16
VL  - 20
EP  - 3398
UR  - https://hdl.handle.net/21.15107/rcub_ibiss_1276
ER  - 

@article{
author = "Fijarczyk, Anna and Nadachowska, Krystyna and Hofman, Sebastian and Litvinchuk, Spartak N and Babik, Wieslaw and Stuglik, Michal and Gollmann, Guenter and Choleva, Lukas and Cogalniceanu, Dan and Vukov, Tanja and Džukić, Georg V. and Szymura, Jacek M",
year = "2011",
abstract = "Exact location and number of glacial refugia still remain unclear for many European cold-blooded terrestrial vertebrates. We performed a fine-scaled multilocus phylogeographic analysis of two Bombina species combining mitochondrial variation of 950 toads from 385 sites and nuclear genes (Rag-1, Ncx-1) from a subset of samples to reconstruct their colonization and contemporary variation patterns. We identified the lowlands northwest of the Black Sea and the Carpathians to be important refugial areas for B. bombina and B. variegata, respectively. This result emphasizes the importance of Central European refugia for ectothermic terrestrial species, far north of the Mediterranean areas regarded as exclusive glacial refugia for the animals. Additional refugia for B. variegata have been located in the southern Apennines and Balkans. In contrast, no evidence for the importance of other east European plains as refugial regions has been found. The distribution of mtDNA and Ncx-1 variation suggests the presence of local refugia near the Black Sea for B. bombina; however, coalescent simulations did not allow to distinguish whether one or two refugia were present in the region. Strong genetic drift apparently accompanied postglacial expansions reducing diversity in the colonization areas. Extended sampling, coupled with the multilocus isolation with migration analysis, revealed a limited and geographically restricted gene flow from the Balkan to Carpathian populations of B. variegata. However, despite proximity of inferred B. bombina and B. variegata refugia, gene exchange between them was not detected.",
journal = "Molecular Ecology",
title = "Nuclear and mitochondrial phylogeography of the European fire-bellied toads Bombina bombina and Bombina variegata supports their independent histories",
number = "16",
volume = "20",
pages = "3398",
url = "https://hdl.handle.net/21.15107/rcub_ibiss_1276"
}

Fijarczyk, A., Nadachowska, K., Hofman, S., Litvinchuk, S. N., Babik, W., Stuglik, M., Gollmann, G., Choleva, L., Cogalniceanu, D., Vukov, T., Džukić, G. V.,& Szymura, J. M.. (2011). Nuclear and mitochondrial phylogeography of the European fire-bellied toads Bombina bombina and Bombina variegata supports their independent histories. in Molecular Ecology, 20(16).
https://hdl.handle.net/21.15107/rcub_ibiss_1276

Fijarczyk A, Nadachowska K, Hofman S, Litvinchuk SN, Babik W, Stuglik M, Gollmann G, Choleva L, Cogalniceanu D, Vukov T, Džukić GV, Szymura JM. Nuclear and mitochondrial phylogeography of the European fire-bellied toads Bombina bombina and Bombina variegata supports their independent histories. in Molecular Ecology. 2011;20(16):null-3398.
https://hdl.handle.net/21.15107/rcub_ibiss_1276 .

Fijarczyk, Anna, Nadachowska, Krystyna, Hofman, Sebastian, Litvinchuk, Spartak N, Babik, Wieslaw, Stuglik, Michal, Gollmann, Guenter, Choleva, Lukas, Cogalniceanu, Dan, Vukov, Tanja, Džukić, Georg V., Szymura, Jacek M, "Nuclear and mitochondrial phylogeography of the European fire-bellied toads Bombina bombina and Bombina variegata supports their independent histories" in Molecular Ecology, 20, no. 16 (2011),
https://hdl.handle.net/21.15107/rcub_ibiss_1276 .

TY  - JOUR
AU  - Eggert, C
AU  - Cogalniceanu, Dan
AU  - Veith, M
AU  - Džukić, Georg V.
AU  - Taberlet, P
PY  - 2006
UR  - https://radar.ibiss.bg.ac.rs/handle/123456789/1648
AB  - Populations of the European Spadefoot toad (Pelobates fuscus) have experienced recent declines all over Europe, but these appear to be more intense in north and western Europe. Due to the toad's fossorial nature and specific habitat requirements, environmental conditions have played a major role in structuring current populations. We examined the phylogeographic structure in P. fuscus from 16 localities throughout Europe using mitochondrial cytochrome b gene sequence analysis. Sequence divergence among haplotypes was low (0.54 +/- 0.15%). Three very closely related haplotypes occupy northern and western parts of Europe whereas 12 others were observed among samples from south-eastern Europe, including the Balkans. Our results suggest that toads only recently colonized the northern and western parts of Europe following glacial retreat. This expansion probably took place in steppic-like areas during the younger Dryas cold interval, about 12,900-11,500 years ago. Restricted gene flow with an isolation-by-distance population structure characterises a major part of its distribution range. Based on our results we suggest that the northern and western lineages should be considered as distinct conservation units, while the south-eastern populations from the refugial areas, where nearly all genetic polymorphism occurs and populations appear less vulnerable, should receive special attention.
T2  - Conservation Genetics
T1  - The declining Spadefoot toad, Pelobates fuscus (Pelobatidae): paleo and recent environmental changes as a major influence on current population structure and status
IS  - 2
VL  - 7
EP  - 195
UR  - https://hdl.handle.net/21.15107/rcub_ibiss_1648
ER  - 

@article{
author = "Eggert, C and Cogalniceanu, Dan and Veith, M and Džukić, Georg V. and Taberlet, P",
year = "2006",
abstract = "Populations of the European Spadefoot toad (Pelobates fuscus) have experienced recent declines all over Europe, but these appear to be more intense in north and western Europe. Due to the toad's fossorial nature and specific habitat requirements, environmental conditions have played a major role in structuring current populations. We examined the phylogeographic structure in P. fuscus from 16 localities throughout Europe using mitochondrial cytochrome b gene sequence analysis. Sequence divergence among haplotypes was low (0.54 +/- 0.15%). Three very closely related haplotypes occupy northern and western parts of Europe whereas 12 others were observed among samples from south-eastern Europe, including the Balkans. Our results suggest that toads only recently colonized the northern and western parts of Europe following glacial retreat. This expansion probably took place in steppic-like areas during the younger Dryas cold interval, about 12,900-11,500 years ago. Restricted gene flow with an isolation-by-distance population structure characterises a major part of its distribution range. Based on our results we suggest that the northern and western lineages should be considered as distinct conservation units, while the south-eastern populations from the refugial areas, where nearly all genetic polymorphism occurs and populations appear less vulnerable, should receive special attention.",
journal = "Conservation Genetics",
title = "The declining Spadefoot toad, Pelobates fuscus (Pelobatidae): paleo and recent environmental changes as a major influence on current population structure and status",
number = "2",
volume = "7",
pages = "195",
url = "https://hdl.handle.net/21.15107/rcub_ibiss_1648"
}

Eggert, C., Cogalniceanu, D., Veith, M., Džukić, G. V.,& Taberlet, P.. (2006). The declining Spadefoot toad, Pelobates fuscus (Pelobatidae): paleo and recent environmental changes as a major influence on current population structure and status. in Conservation Genetics, 7(2).
https://hdl.handle.net/21.15107/rcub_ibiss_1648

Eggert C, Cogalniceanu D, Veith M, Džukić GV, Taberlet P. The declining Spadefoot toad, Pelobates fuscus (Pelobatidae): paleo and recent environmental changes as a major influence on current population structure and status. in Conservation Genetics. 2006;7(2):null-195.
https://hdl.handle.net/21.15107/rcub_ibiss_1648 .

Eggert, C, Cogalniceanu, Dan, Veith, M, Džukić, Georg V., Taberlet, P, "The declining Spadefoot toad, Pelobates fuscus (Pelobatidae): paleo and recent environmental changes as a major influence on current population structure and status" in Conservation Genetics, 7, no. 2 (2006),
https://hdl.handle.net/21.15107/rcub_ibiss_1648 .