Your search keyword '"Lardner, Bjorn"' showing total 11 results

1. Supplementary material 1 from: Amburgey SM, Yackel Adams AA, Gardner B, Lardner B, Knox AJ, Converse SJ (2021) Tools for increasing visual encounter probabilities for invasive species removal: a case study of brown treesnakes. NeoBiota 70: 107-122. https://doi.org/10.3897/neobiota.70.71379

Author

Amburgey, Staci M., primary, Yackel Adams, Amy A., additional, Gardner, Beth, additional, Lardner, Bjorn, additional, Knox, Adam J., additional, and Converse, Sarah J., additional

Published

2021

2. Tools for increasing visual encounter probabilities for invasive species removal: a case study of brown treesnakes

Author

Amburgey, Staci M., primary, Yackel Adams, Amy A., additional, Gardner, Beth, additional, Lardner, Bjorn, additional, Knox, Adam J., additional, and Converse, Sarah J., additional

Published

2021

3. Supplementary material 2 from: Amburgey SM, Yackel Adams AA, Gardner B, Lardner B, Knox AJ, Converse SJ (2021) Tools for increasing visual encounter probabilities for invasive species removal: a case study of brown treesnakes. NeoBiota 70: 107-122. https://doi.org/10.3897/neobiota.70.71379

Author

Amburgey, Staci M., primary, Yackel Adams, Amy A., additional, Gardner, Beth, additional, Lardner, Bjorn, additional, Knox, Adam J., additional, and Converse, Sarah J., additional

Published

2021

4. Female call preferences in tree-hole frogs: Why are there so many unattractive males?

Author

Lardner, Bjorn and Lakim, Marklarin B.

Subjects

Hyla -- Behavior, Animal sounds -- Research, Courtship of animals -- Research, Zoology and wildlife conservation

Abstract

An investigation of both the variation in male call frequency and the females' preferences for call frequency is conducted to infer the consequences for attracting mates of males calling with frequencies different from those of their neighbors. The observations suggest that a high-frequency call is most likely to attract females due to the resonance effect, whereas females prefer low-frequency calls.

Published

2004

5. Tools for increasing visual encounter probabilities for invasive species removal: a case study of brown treesnakes.

Author

Amburgey, Staci M., Adams, Amy A. Yackel, Gardner, Beth, Lardner, Bjorn, Knox, Adam J., and Converse, Sarah J.

Subjects

INTRODUCED species, POPULATION density, MICE

Abstract

Early detection and rapid response (EDRR) are essential to identifying and decisively responding to the introduction or spread of an invasive species, thus avoiding population establishment and improving the probability of achieving eradication. However, detection can be challenging at the onset of a species invasion as low population densities can reduce the likelihood of detection and conceal the true extent of the situation until the species is well established. This is doubly challenging if the invading species displays cryptic behavior or is nocturnal, thus further limiting opportunities for its discovery. Survey methods that maximize a searcher's ability to detect an incipient population are therefore critical for successful EDRR. Brown treesnakes (Boiga irregularis) on Guåhan are a classic cautionary example of the dangers of not detecting an invasion early on, and the risk of their introduction to other islands within the Marianas, Hawai'i and beyond remains. Nocturnal visual surveys are known to detect brown treesnakes of all sizes and are the primary detection tool used by the Brown Treesnake Rapid Response Team, but detection probability remains low in complex forest habitats. As such, we investigated the use of two potential enhancements to nocturnal visual surveys - a live mouse lure and spray scent attractant - that may create hotspots of increased detection probability during surveys. We found that, while brown treesnake detection probabilities were low for all surveys, visual surveys conducted on transects with live mouse lures resulted in detection probabilities that were 1.3 times higher than on transects without live mouse lures. Conversely, the spray scent attractant did not increase the probability of detecting brown treesnakes compared to transects without scent, and in fact had detection probabilities that were 0.66 times lower, though the reasons for this phenomenon are unclear. Unlike scent attractants, live mouse lures likely provide both visual and olfactory cues that attract brown treesnakes to transects and thus provide more opportunities to detect and capture them. These enhancements were trialed on Guåhan, where prey populations are depressed. It remains unclear whether live mouse lures will be as effective for EDRR applications in preyrich settings. [ABSTRACT FROM AUTHOR]

Published

2021

6. Purifying and Testing Gecko Skin Compounds, a Promising Attractant for Small Brown Treesnakes

Author

Savidge, Julie A., primary, Schupp, Peter J., primary, and Lardner, Bjorn, primary

Published

2012

7. THE INFLUENCE OF MULTIPLE INTRODUCED PREDATORS ON A LITTORAL POND COMMUNITY

Author

NYSTROM, PER, SVENSSON, OLA, LARDNER, BJORN, BRONMARK, CHRISTER, and GRANELI, WILHELM

Subjects

Pond ecology -- Research, Crayfish -- Environmental aspects, Rainbow trout -- Environmental aspects, Predation (Biology) -- Environmental aspects, Food chains (Ecology) -- Research, Frogs -- Environmental aspects, Biomass -- Research, Biological sciences, Environmental issues

Abstract

In a replicated field experiment we studied the effects of natural densities of two exotic consumers, the predatory and herbivorous signal crayfish (Pacifastacus leniusculus) and the predatory rainbow trout (Oncorhynchus mykiss), on multiple trophic levels of a pond community. The goals were to: (1) determine the individual and combined effects of predators on macroinvertebrates, macrophytes, and periphytic algae; (2) evaluate the strength of direct and indirect interactions in a food web influenced by omnivores; and (3) evaluate the relative importance of direct and indirect predator effects on mortality and growth of a native frog species, Rana temporaria. The experiment showed that both signal crayfish and rainbow trout had strong effects on multitrophic levels of a littoral pond community, through direct consumption and indirect effects on lower trophic levels. Crayfish had weak but significant negative effects on the biomass of predatory invertebrates and greatly reduced the biomass of snails, the most abundant invertebrate grazers. Although the number of active herbivorous tadpoles tended to be higher in crayfish cages relative to control cages, the proportion of surviving froglets was lower in crayfish cages than in control cages, possibly due to crayfish predation on injured tadpoles. The size of surviving froglets did not differ from controls, but tadpoles in crayfish cages often suffered tail injuries. Macrophyte coverage decreased as a result of crayfish consumption and nonconsumptive fragmentation. However, the biomass of periphyton increased in crayfish cages relative to controls, probably due to reduced grazing from snails. In contrast, trout had strong negative effects on the biomass of both predatory invertebrates and insect grazers, whereas trout had less effect on snail biomass than did crayfish. Also, in contrast to crayfish cages, the number of active tadpoles in trout cages was lower than in controls, probably due to a combination of trout predation and trout-induced reduced tadpole activity. Trout had a strong negative impact on froglet survival, and froglets in trout cages metamorphosed at a smaller size and had reduced growth rates compared to froglets in crayfish and control cages. As with crayfish, the biomass of periphyton increased in trout cages relative to controls, which may be due to a combination of both density and trait-mediated trout effects on tadpole grazing. In treatments with multiple predators the effects of crayfish and trout on caged communities were independent, and there were few interactions. Mostly effects of combined predators reflected those in single predator cages. Our results demonstrate that noninteracting, introduced multiple predators can have strong direct and indirect effects on multiple trophic levels in pond communities. Trophic cascades may develop in aquatic food webs even with omnivores such as crayfish, and in complex habitats with trout. These strong indirect effects are mediated through both predation on important grazers (i.e., the crayfish--snail--periphyton link) and a combination of density and behavioral responses of grazers to predators (i.e., the trout-tadpole-periphyton link). When two noninteracting predators have strong but different effects on prey survival or activity, their combined effects on intermediate trophic levels reflect responses to the more dangerous predator. Key words: exotic species; freshwater pond; grazers; growth rate; littoral pond; omnivory; Oncorhynchus mykiss; Pacifastacus leniusculus; predators, multiple; Rana temporaria; Sweden; trophic cascade.

Published

2001

8. The conservation status of the world’s reptiles

Author

Böhm, 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, García, Andrés, Aguilar, César, Ajtic, Rastko, Akarsu, Ferdi, Alencar, Laura R. V., Allison, Allen, Ananjeva, Natalia, Anderson, Steve, Andrén, Claes, Ariano-Sánchez, Daniel, Arredondo, Juan Camilo, Auliya, Mark, Austin, Christopher C., Avci, Aziz, Baker, Patrick J., Barreto-Lima, André F., Barrio-Amorós, César L., Basu, Dhruvayothi, Bates, Michael F., Batistella, Alexandre, Bauer, Aaron, Bennett, Daniel, Böhme, Wolfgang, Broadley, Don, Brown, Rafe, Burgess, Joseph, Captain, Ashok, Carreira, Santiago, Castañeda, Maria del Rosario, Castro, Fernando, Catenazzi, Alessandro, Cedeño-Vázquez, José 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-Isailovic, Jelka, Crochet, Pierre-André, Crother, Brian, Cruz, Felix, Daltry, Jennifer C., Daniels, R. J. Ranjit, Das, Indraneil, de Silva, Anslem, Diesmos, Arvin C., Dirksen, Lutz, Doan, Tiffany M., Dodd Jr, C. Kenneth, Doody, J. Sean, Dorcas, Michael E., Duarte de Barros Filho, Jose, Egan, Vincent T., El Mouden, El Hassan, Embert, Dirk, Espinoza, Robert E., Fallabrino, Alejandro, Feng, Xie, Feng, Zhao-Jun, Fitzgerald, Lee, Flores-Villela, Oscar, França, Frederico G. R., Frost, Darrell, Gadsden, Hector, Gamble, Tony, Ganesh, S. R., Garcia, Miguel A., García-Pérez, 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, Jaksic, Fabian M., Jenkins, Richard, Joger, Ulrich, Jose, Reizl, Kaska, Yakup, Kaya, Uğur, Keogh, J. Scott, Köhler, Gunther, Kuchling, Gerald, Kumlutaş, Yusuf, Kwet, Axel, La Marca, Enrique, Lamar, William, Lane, Amanda, Lardner, Bjorn, Latta, Craig, Latta, Gabrielle, Lau, Michael, Lavin, Pablo, Lawson, Dwight, LeBreton, Matthew, Lehr, Edgar, Limpus, Duncan, Lipczynski, Nicola, Lobo, Aaron S., López-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., Márquez, Rafael, Martins, Marcio, Masterson, Gavin, Mateo, José A., Mathew, Rosamma, Mathews, Nixon, Mayer, Gregory, McCranie, James R., Measey, G. John, Mendoza-Quijano, Fernando, Menegon, Michele, Métrailler, Sébastien, Milton, David A., Montgomery, Chad, Morato, Sérgio A. A., Mott, Tami, Muñoz-Alonso, Antonio, Murphy, John, Nguyen, Truong Q., Nilson, Göran, Nogueira, Cristiano, Núñez, Herman, Orlov, Nikolai, Ota, Hidetoshi, Ottenwalder, José, Papenfuss, Theodore, Pasachnik, Stesha, Passos, Paulo, Pauwels, Olivier S. G., Pérez-Buitrago, Néstor, Pérez-Mellado, Valentín, Pianka, Eric R., Pleguezuelos, Juan, Pollock, Caroline, Ponce-Campos, Paulino, Powell, Robert, Pupin, Fabio, Quintero Díaz, 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., Rödel, Mark-Oliver, Rodríguez 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, Sy, Emerson, Temple, Helen J., Tognelli, Marcelo F., Tolley, Krystal, Tolson, Peter J., Tuniyev, Boris, Tuniyev, Sako, Üzüm, Nazan, van Buurt, Gerard, Van Sluys, Monique, Velasco, Alvaro, Vences, Miguel, Veselý, 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, Böhm, 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, García, Andrés, Aguilar, César, Ajtic, Rastko, Akarsu, Ferdi, Alencar, Laura R. V., Allison, Allen, Ananjeva, Natalia, Anderson, Steve, Andrén, Claes, Ariano-Sánchez, Daniel, Arredondo, Juan Camilo, Auliya, Mark, Austin, Christopher C., Avci, Aziz, Baker, Patrick J., Barreto-Lima, André F., Barrio-Amorós, César L., Basu, Dhruvayothi, Bates, Michael F., Batistella, Alexandre, Bauer, Aaron, Bennett, Daniel, Böhme, Wolfgang, Broadley, Don, Brown, Rafe, Burgess, Joseph, Captain, Ashok, Carreira, Santiago, Castañeda, Maria del Rosario, Castro, Fernando, Catenazzi, Alessandro, Cedeño-Vázquez, José 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-Isailovic, Jelka, Crochet, Pierre-André, Crother, Brian, Cruz, Felix, Daltry, Jennifer C., Daniels, R. J. Ranjit, Das, Indraneil, de Silva, Anslem, Diesmos, Arvin C., Dirksen, Lutz, Doan, Tiffany M., Dodd Jr, C. Kenneth, Doody, J. Sean, Dorcas, Michael E., Duarte de Barros Filho, Jose, Egan, Vincent T., El Mouden, El Hassan, Embert, Dirk, Espinoza, Robert E., Fallabrino, Alejandro, Feng, Xie, Feng, Zhao-Jun, Fitzgerald, Lee, Flores-Villela, Oscar, França, Frederico G. R., Frost, Darrell, Gadsden, Hector, Gamble, Tony, Ganesh, S. R., Garcia, Miguel A., García-Pérez, 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, Jaksic, Fabian M., Jenkins, Richard, Joger, Ulrich, Jose, Reizl, Kaska, Yakup, Kaya, Uğur, Keogh, J. Scott, Köhler, Gunther, Kuchling, Gerald, Kumlutaş, Yusuf, Kwet, Axel, La Marca, Enrique, Lamar, William, Lane, Amanda, Lardner, Bjorn, Latta, Craig, Latta, Gabrielle, Lau, Michael, Lavin, Pablo, Lawson, Dwight, LeBreton, Matthew, Lehr, Edgar, Limpus, Duncan, Lipczynski, Nicola, Lobo, Aaron S., López-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., Márquez, Rafael, Martins, Marcio, Masterson, Gavin, Mateo, José A., Mathew, Rosamma, Mathews, Nixon, Mayer, Gregory, McCranie, James R., Measey, G. John, Mendoza-Quijano, Fernando, Menegon, Michele, Métrailler, Sébastien, Milton, David A., Montgomery, Chad, Morato, Sérgio A. A., Mott, Tami, Muñoz-Alonso, Antonio, Murphy, John, Nguyen, Truong Q., Nilson, Göran, Nogueira, Cristiano, Núñez, Herman, Orlov, Nikolai, Ota, Hidetoshi, Ottenwalder, José, Papenfuss, Theodore, Pasachnik, Stesha, Passos, Paulo, Pauwels, Olivier S. G., Pérez-Buitrago, Néstor, Pérez-Mellado, Valentín, Pianka, Eric R., Pleguezuelos, Juan, Pollock, Caroline, Ponce-Campos, Paulino, Powell, Robert, Pupin, Fabio, Quintero Díaz, 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., Rödel, Mark-Oliver, Rodríguez 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, Sy, Emerson, Temple, Helen J., Tognelli, Marcelo F., Tolley, Krystal, Tolson, Peter J., Tuniyev, Boris, Tuniyev, Sako, Üzüm, Nazan, van Buurt, Gerard, Van Sluys, Monique, Velasco, Alvaro, Vences, Miguel, Veselý, 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, and Zug, George

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.

Published

2013

9. Purifying and Testing Gecko Skin Compounds, a Promising Attractant for Small Brown Treesnakes

Author

COLORADO STATE UNIV FORT COLLINS, Savidge, Julie A, Schupp, Peter J, Lardner, Bjorn, COLORADO STATE UNIV FORT COLLINS, Savidge, Julie A, Schupp, Peter J, and Lardner, Bjorn

Abstract

The goal of this study was to identify one or a few chemical compounds that attract small (less than 700 mm snout-vent length) Brown Treesnakes (Boiga irregularis). Criteria for success include attraction of small snakes to the extract and qualitative characterization of the substances. These small snakes have proven very difficult to control with the methods used in operational, large-scale snake control on Guam, and logistics (and/or cost-effectiveness) prevent their favored gecko prey from being used for snake control on a large scale. If we could find a chemical compound (or possibly a cocktail of a few chemicals) that attracts small snakes and is either commercially available or can be synthesized in a cost-effective manner, the opportunities to control small Brown Treesnakes would increase dramatically. We therefore aimed at extracting gecko skin compounds and presenting them to small Brown Treesnakes in laboratory bioassays, using the crude extract as well as fractions from successive purification steps. We planned to investigate the number of, the relative quantities of, and the qualities of chemical compounds present in any bioactive fraction(s).

Published

2012

10. The conservation status of the world’s reptiles

Author

Böhm, Monika, primary, Collen, Ben, additional, Baillie, Jonathan E.M., additional, Bowles, Philip, additional, Chanson, Janice, additional, Cox, Neil, additional, Hammerson, Geoffrey, additional, Hoffmann, Michael, additional, Livingstone, Suzanne R., additional, Ram, Mala, additional, Rhodin, Anders G.J., additional, Stuart, Simon N., additional, van Dijk, Peter Paul, additional, Young, Bruce E., additional, Afuang, Leticia E., additional, Aghasyan, Aram, additional, García, Andrés, additional, Aguilar, César, additional, Ajtic, Rastko, additional, Akarsu, Ferdi, additional, Alencar, Laura R.V., additional, Allison, Allen, additional, Ananjeva, Natalia, additional, Anderson, Steve, additional, Andrén, Claes, additional, Ariano-Sánchez, Daniel, additional, Arredondo, Juan Camilo, additional, Auliya, Mark, additional, Austin, Christopher C., additional, Avci, Aziz, additional, Baker, Patrick J., additional, Barreto-Lima, André F., additional, Barrio-Amorós, César L., additional, Basu, Dhruvayothi, additional, Bates, Michael F., additional, Batistella, Alexandre, additional, Bauer, Aaron, additional, Bennett, Daniel, additional, Böhme, Wolfgang, additional, Broadley, Don, additional, Brown, Rafe, additional, Burgess, Joseph, additional, Captain, Ashok, additional, Carreira, Santiago, additional, Castañeda, Maria del Rosario, additional, Castro, Fernando, additional, Catenazzi, Alessandro, additional, Cedeño-Vázquez, José R., additional, Chapple, David G., additional, Cheylan, Marc, additional, Cisneros-Heredia, Diego F., additional, Cogalniceanu, Dan, additional, Cogger, Hal, additional, Corti, Claudia, additional, Costa, Gabriel C., additional, Couper, Patrick J., additional, Courtney, Tony, additional, Crnobrnja-Isailovic, Jelka, additional, Crochet, Pierre-André, additional, Crother, Brian, additional, Cruz, Felix, additional, Daltry, Jennifer C., additional, Daniels, R.J. Ranjit, additional, Das, Indraneil, additional, de Silva, Anslem, additional, Diesmos, Arvin C., additional, Dirksen, Lutz, additional, Doan, Tiffany M., additional, Dodd, C. Kenneth, additional, Doody, J. Sean, additional, Dorcas, Michael E., additional, Duarte de Barros Filho, Jose, additional, Egan, Vincent T., additional, El Mouden, El Hassan, additional, Embert, Dirk, additional, Espinoza, Robert E., additional, Fallabrino, Alejandro, additional, Feng, Xie, additional, Feng, Zhao-Jun, additional, Fitzgerald, Lee, additional, Flores-Villela, Oscar, additional, França, Frederico G.R., additional, Frost, Darrell, additional, Gadsden, Hector, additional, Gamble, Tony, additional, Ganesh, S.R., additional, Garcia, Miguel A., additional, García-Pérez, Juan E., additional, Gatus, Joey, additional, Gaulke, Maren, additional, Geniez, Philippe, additional, Georges, Arthur, additional, Gerlach, Justin, additional, Goldberg, Stephen, additional, Gonzalez, Juan-Carlos T., additional, Gower, David J., additional, Grant, Tandora, additional, Greenbaum, Eli, additional, Grieco, Cristina, additional, Guo, Peng, additional, Hamilton, Alison M., additional, Hare, Kelly, additional, Hedges, S. Blair, additional, Heideman, Neil, additional, Hilton-Taylor, Craig, additional, Hitchmough, Rod, additional, Hollingsworth, Bradford, additional, Hutchinson, Mark, additional, Ineich, Ivan, additional, Iverson, John, additional, Jaksic, Fabian M., additional, Jenkins, Richard, additional, Joger, Ulrich, additional, Jose, Reizl, additional, Kaska, Yakup, additional, Kaya, Uğur, additional, Keogh, J. Scott, additional, Köhler, Gunther, additional, Kuchling, Gerald, additional, Kumlutaş, Yusuf, additional, Kwet, Axel, additional, La Marca, Enrique, additional, Lamar, William, additional, Lane, Amanda, additional, Lardner, Bjorn, additional, Latta, Craig, additional, Latta, Gabrielle, additional, Lau, Michael, additional, Lavin, Pablo, additional, Lawson, Dwight, additional, LeBreton, Matthew, additional, Lehr, Edgar, additional, Limpus, Duncan, additional, Lipczynski, Nicola, additional, Lobo, Aaron S., additional, López-Luna, Marco A., additional, Luiselli, Luca, additional, Lukoschek, Vimoksalehi, additional, Lundberg, Mikael, additional, Lymberakis, Petros, additional, Macey, Robert, additional, Magnusson, William E., additional, Mahler, D. Luke, additional, Malhotra, Anita, additional, Mariaux, Jean, additional, Maritz, Bryan, additional, Marques, Otavio A.V., additional, Márquez, Rafael, additional, Martins, Marcio, additional, Masterson, Gavin, additional, Mateo, José A., additional, Mathew, Rosamma, additional, Mathews, Nixon, additional, Mayer, Gregory, additional, McCranie, James R., additional, Measey, G. John, additional, Mendoza-Quijano, Fernando, additional, Menegon, Michele, additional, Métrailler, Sébastien, additional, Milton, David A., additional, Montgomery, Chad, additional, Morato, Sérgio A.A., additional, Mott, Tami, additional, Muñoz-Alonso, Antonio, additional, Murphy, John, additional, Nguyen, Truong Q., additional, Nilson, Göran, additional, Nogueira, Cristiano, additional, Núñez, Herman, additional, Orlov, Nikolai, additional, Ota, Hidetoshi, additional, Ottenwalder, José, additional, Papenfuss, Theodore, additional, Pasachnik, Stesha, additional, Passos, Paulo, additional, Pauwels, Olivier S.G., additional, Pérez-Buitrago, Néstor, additional, Pérez-Mellado, Valentín, additional, Pianka, Eric R., additional, Pleguezuelos, Juan, additional, Pollock, Caroline, additional, Ponce-Campos, Paulino, additional, Powell, Robert, additional, Pupin, Fabio, additional, Quintero Díaz, Gustavo E., additional, Radder, Raju, additional, Ramer, Jan, additional, Rasmussen, Arne R., additional, Raxworthy, Chris, additional, Reynolds, Robert, additional, Richman, Nadia, additional, Rico, Edmund L., additional, Riservato, Elisa, additional, Rivas, Gilson, additional, da Rocha, Pedro L.B., additional, Rödel, Mark-Oliver, additional, Rodríguez Schettino, Lourdes, additional, Roosenburg, Willem M., additional, Ross, James P., additional, Sadek, Riyad, additional, Sanders, Kate, additional, Santos-Barrera, Georgina, additional, Schleich, Hermann H., additional, Schmidt, Benedikt R., additional, Schmitz, Andreas, additional, Sharifi, Mozafar, additional, Shea, Glenn, additional, Shi, Hai-Tao, additional, Shine, Richard, additional, Sindaco, Roberto, additional, Slimani, Tahar, additional, Somaweera, Ruchira, additional, Spawls, Steve, additional, Stafford, Peter, additional, Stuebing, Rob, additional, Sweet, Sam, additional, Sy, Emerson, additional, Temple, Helen J., additional, Tognelli, Marcelo F., additional, Tolley, Krystal, additional, Tolson, Peter J., additional, Tuniyev, Boris, additional, Tuniyev, Sako, additional, Üzüm, Nazan, additional, van Buurt, Gerard, additional, Van Sluys, Monique, additional, Velasco, Alvaro, additional, Vences, Miguel, additional, Veselý, Milan, additional, Vinke, Sabine, additional, Vinke, Thomas, additional, Vogel, Gernot, additional, Vogrin, Milan, additional, Vogt, Richard C., additional, Wearn, Oliver R., additional, Werner, Yehudah L., additional, Whiting, Martin J., additional, Wiewandt, Thomas, additional, Wilkinson, John, additional, Wilson, Byron, additional, Wren, Sally, additional, Zamin, Tara, additional, Zhou, Kaiya, additional, and Zug, George, additional

Published

2013

11. Animal communication: Tree-hole frogs exploit resonance effects

Author

Lardner, Bjorn and bin Lakim, Maklarin

Subjects

Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): Björn Lardner (corresponding author) [1]; Maklarin bin Lakim [2] Animal mating calls that exert a comparatively high sound pressure propagate over greater distances and generally have greater attractive power [...]

Published

2002