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Aceves-Bueno, E., L. Davids, J. A. Rodriguez-Valencia, A. M. Jaramillo-Legorreta, E. Nieto-Garcia, G. Cárdenas-Hinojosa, E. Hidalgo-Pla, A. Bonilla-Garzón, A. J. Diaz-de-Leon, L. Rojas-Bracho, and M. A. Cisneros-Mata (2023). Derelict gear from an illegal fishery: Lessons from gear retrieval efforts in the Upper Gulf of California. Marine Policy 147:105387.
Allen, M. C., J. L. Lockwood, and O. J. Robinson (2023). Integrating habitat models for threatened species with landownership information to inform coastal resiliency and conservation planning. Environmental Conservation 50:31–39.
Bailey, R. L., L. Larson, and D. N. Bonter (2023). NestWatch: An open-access, long-term data set on avian reproductive success. Ecology n/a:e4230.
Baiz, M. D., A. Benavides C., E. T. Miller, A. W. Wood, and D. P. L. Toews (2023). Gut microbiome composition better reflects host phylogeny than diet diversity in breeding wood‐warblers. Molecular Ecology 32:518–536.
Baker, C. S., D. Claridge, C. Dunn, T. Fetherston, D. N. Baker, H. Klinck, and D. Steel (2023). Quantification by droplet digital PCR and species identification by metabarcoding of environmental (e)DNA from Blainville's beaked whales, with assisted localization from an acoustic array. PLOS ONE 18:e0291187.
Barlow, D. R., H. Klinck, D. Ponirakis, T. A. Branch, and L. G. Torres (2023). Environmental conditions and marine heatwaves influence blue whale foraging and reproductive effort. Ecology and Evolution 13:e9770.
Becker-Klein, R., C. Davis, T. B. Phillips, V. D. Bianco, A. G. Nelson, and E. C. Ronning (2023). Using shared embedded assessment tools to understand participant skills: processes and lessons learned. Citizen Science: Theory and Practice 8:20.
Berberi, I., E. T. Miller, and R. Dakin (2023). The effect of sociality on competitive interactions among birds. Proceedings of the Royal Society B: Biological Sciences 290:20221894.
Bianco, V. D., K. Peterman, R. Becker-Klein, C. M. Davis, A. Grover, and T. Phillips (2023). Cross-project analysis of volunteers' scientific observation skills. Citizen Science: Theory and Practice 8:54.
Binley, A. D., J. R. Bennett, R. Schuster, A. D. Rodewald, F. A. La Sorte, D. Fink, B. Zuckerberg, and S. Wilson (2023). Species traits drive responses of forest birds to agriculturally‐modified habitats throughout the annual cycle. Ecography 2023:e06457.
Boersma, J., E. D. Enbody, S. Ketaloya, H. E. Watts, J. Karubian, and H. Schwabl (2023). Does capacity to elevate androgens underlie variation in female ornamentation and territoriality in White-shouldered Fairywren (Malurus alboscapulatus)? https://doi.org/10.1101/2023.02.16.528857
Boersma, J., D. J. Thrasher, J. F. Welklin, D. T. Baldassarre, W. E. Feeney, and M. S. Webster (2023). Plural breeding among unrelated females and other insights on complex social structure in the cooperatively breeding Variegated Fairywren. Emu - Austral Ornithology 123:232–243.
Bonter, D. N., V. Y. Martin, E. I. Greig, and T. B. Phillips (2023). Participant retention in a continental-scale citizen science project increases with the diversity of species detected. BioScience 73:433–440.
Brooks, W. E., J. Boersma, N. Paprocki, P. Wimberger, and S. Hotaling (2023). Community science for enigmatic ecosystems: using eBird to assess avian biodiversity on glaciers and snowfields. Journal of Field Ornithology 94.
Brunk, K. M., R. J. Gutiérrez, M. Z. Peery, C. A. Cansler, S. Kahl, and C. M. Wood (2023). Quail on fire: changing fire regimes may benefit mountain quail in fire-adapted forests. Fire Ecology 19:19.
Bukowski, B., L. Campagna, M. J. Rodríguez‐Cajarville, G. S. Cabanne, P. L. Tubaro, and D. A. Lijtmaer (2023). The role of glaciations in the evolutionary history of a widely distributed Neotropical open habitat bird. Journal of Biogeography:jbi.14738.
Burns, M. D., J. H. Knouft, and C. B. Dillman (2023). The role of abiotic and biotic factors in the unequal body shape diversification of a Gondwanan fish radiation (Otophysi: Characiformes). Evolution:qpad203.
Cai, Z., F. A. La Sorte, Y. Chen, and J. Wu (2023). The surface urban heat island effect decreases bird diversity in Chinese cities. Science of The Total Environment 902:166200.
Cañas, J. S., M. P. Toro-Gómez, L. S. M. Sugai, H. D. Benítez Restrepo, J. Rudas, B. Posso Bautista, L. F. Toledo, S. Dena, A. H. R. Domingos, F. L. de Souza, S. Neckel-Oliveira, et al. (2023). A dataset for benchmarking Neotropical anuran calls identification in passive acoustic monitoring. Scientific Data 10:1–12.
Capurucho, J. M. G., L. J. Musher, A. Lees, M. A. Rego, G. Del-Rio, A. Aleixo, V. E. Luzuriaga-Aveiga, M. Ferreira, C. C. Ribas, and G. Thom (2023). Amazonian avian biogeography: Broadscale patterns, microevolutionary processes, and habitat-specific models revealed by multidisciplinary approaches. Ornithology:ukad051.
Chaplin-Kramer, R., R. A. Neugarten, R. P. Sharp, P. M. Collins, S. Polasky, D. Hole, R. Schuster, M. Strimas-Mackey, M. Mulligan, C. Brandon, S. Diaz, et al. (2023). Mapping the planet’s critical natural assets. Nature Ecology & Evolution 7:51–61.
Clink, D. J., I. Kier, A. H. Ahmad, and H. Klinck (2023). A workflow for the automated detection and classification of female gibbon calls from long-term acoustic recordings. Frontiers in Ecology and Evolution 11.
Cohen, J. M., D. Fink, and B. Zuckerberg (2023). Spatial and seasonal variation in thermal sensitivity within North American bird species. Proceedings of the Royal Society B: Biological Sciences 290:20231398.
Cohen, R. E., K. E. Frasier, S. Baumann-Pickering, and J. A. Hildebrand (2023). Spatial and temporal separation of toothed whales in the western North Atlantic. Marine Ecology Progress Series 720:1–24.
Cooper, N. W., B. C. Dossman, L. E. Berrigan, J. M. Brown, A. R. Brunner, H. E. Chmura, D. A. Cormier, C. Bégin-Marchand, A. D. Rodewald, P. D. Taylor, C. M. Tonra, et al. (2023). Songbirds initiate migratory flights synchronously relative to civil dusk. Movement Ecology 11:24.
Cooper, N. W., B. C. Dossman, L. E. Berrigan, J. M. Brown, D. A. Cormier, C. Bégin-Marchand, A. D. Rodewald, P. D. Taylor, J. A. Tremblay, and P. P. Marra (2023). Atmospheric pressure predicts probability of departure for migratory songbirds. Movement Ecology 11:23.
D'Agostino, J., S. Spehar, A. Abdullah, and D. J. Clink (2023). Evidence for Vocal Flexibility in Wild Siamang (Symphalangus syndactylus) Ululating Scream Phrases. International Journal of Primatology:1–22.
Davis, C., and T. Phillips (2023). What are the intended IMPACTS of YOUR community science project?
Davis, C. L., R. P. Guralnick, and E. F. Zipkin (2023). Challenges and opportunities for using natural history collections to estimate insect population trends. Journal of Animal Ecology 92:237–249.
Davis, C. L., D. J. Muñoz, S. M. Amburgey, C. R. Dinsmore, E. W. Teitsworth, and D. A. W. Miller (2023). Multistate model to estimate sex‐specific dispersal rates and distances for a wetland‐breeding amphibian population. Ecosphere 14.
Davis, C. L., S. C. Walls, W. J. Barichivich, M. E. Brown, and D. A. W. Miller (2023). Disentangling direct and indirect effects of extreme events on coastal wetland communities. Journal of Animal Ecology 92:1135–1148.
Davis, C. L., Y. Bai, D. Chen, O. Robinson, V. Ruiz‐Gutierrez, C. P. Gomes, and D. Fink (2023). Deep learning with citizen science data enables estimation of species diversity and composition at continental extents. Ecology 104:e4175.
Dayer, A. A., P. C. Pototsky, R. J. Hall, D. M. Hawley, T. B. Phillips, D. N. Bonter, A. M. Dietsch, E. Greig, and W. M. Hochachka (2023). Birds are not the only ones impacted by guidance to cease bird feeding. People and Nature n/a.
Deitsch, J. F., and S. A. Kaiser (2023). Artificial light at night increases top-down pressure on caterpillars: experimental evidence from a light-naive forest. Proceedings of the Royal Society B: Biological Sciences 290:20230153.
DeSaix, M. G., E. C. Anderson, C. M. Bossu, C. E. Rayne, T. M. Schweizer, N. J. Bayly, D. S. Narang, J. C. Hagelin, H. L. Gibbs, J. F. Saracco, T. W. Sherry, et al. (2023). Low-coverage whole genome sequencing for highly accurate population assignment: Mapping migratory connectivity in the American Redstart (Setophaga ruticilla). Molecular Ecology 32:5528–5540.
Dhondt, A. A. (2023). Effects of competition and predation operating at individual and population levels: an overview of results from a long-term field experiment. Oecologia 203:277–296.
Di Giacomo, A. S., C. Kopuchian, and L. Campagna (2023). Los enigmáticos capuchinos. Aves Argentinas 66:10–19.
Dossman, B. C., A. D. Rodewald, C. E. Studds, and P. P. Marra (2023). Migratory birds with delayed spring departure migrate faster but pay the costs. Ecology 104.
Dunham, K. D., P. K. Devers, A. J. Lawson, J. E. Lyons, C. P. McGowan, and J. A. Royle (2023). Strategic monitoring to minimize misclassification errors from conservation status assessments. Biological Conservation 286:110260.
Dunn, P. O., I. Ahmed, E. Armstrong, N. Barlow, M. A. Barnard, M. Belisle, T. J. Benson, L. L. Berzins, C. K. Boynton, T. A. Brown, M. Cady, et al. (2023). Extensive regional variation in the phenology of insects and their response to temperature across North America. Ecology. https://doi.org/https://doi.org/10.1002/ecy.4036
Eberts, E. R., G. J. Tattersall, P. J. Auger, M. Curley, M. I. Morado, E. G. Strauss, D. R. Powers, N. C. Soveral, B. W. Tobalske, and A. Shankar (2023). Free-living Allen's hummingbirds (Selasphorus sasin) rarely use torpor while nesting. Journal of Thermal Biology 112:103391.
Ellwood, E. R., W. Addink, J. Bates, A. Bentley, and J. Buschbom (2023). Connecting the dots: Aligning human capacity through networks toward a globally interoperable Digital Extended Specimen (DES) infrastructure - ProQuest. Biodiversity Information Science and Standards 7:978–987.
Ensanyar-Volle, O., J. Appoo, N. Bunbury, G. Clucas, N. Khan, G. Rocamora, C. Sanchez, and A. Fayet (2023). Differences in foraging range between white-tailed tropicbirds breeding on inner and outer Seychelles islands. Marine Ecology Progress Series 724:141–154.
Erb, W., and W. DePuy (2023). Hearing the forest through the trees: Sonic entanglements in Nusantara. Southeast Asia Program Bulletin Spring 2023:16–21.
Erb, W. M., E. J. Barrow, A. N. Hofner, J. L. Lecorchick, T. Mitra Setia, and E. R. Vogel (2023). Wildfire smoke linked to vocal changes in wild Bornean orangutans. iScience 26:107088.
Erb, W. M., W. Ross, H. Kazanecki, T. M. Setia, S. Madhusudhana, and D. J. Clink (2023). Vocal complexity in the long calls of Bornean orangutans. [Online.] Available at
Farrell, D. (2023). Conservation Bioacoustics- Listening to the Heartbeat of the Earth - Aaron N. Rice, Marissa L. Garcia, Laurel B. Symes, and Holger Klinck. Acoustics Today. [Online.] Available at
Fayet, A. L., C. Sanchez, J. Appoo, J. Constance, G. Clucas, L. A. Turnbull, and N. Bunbury (2023). Marked differences in foraging area use and susceptibility to predation between two closely-related tropical seabirds. Oecologia 203:167–179.
Fink, D., A. Johnston, M. Strimas‐Mackey, T. Auer, W. M. Hochachka, S. Ligocki, L. Oldham Jaromczyk, O. Robinson, C. Wood, S. Kelling, and A. D. Rodewald (2023). A Double machine learning trend model for citizen science data. Methods in Ecology and Evolution 14:2435–2448.
Flynn, C. M., T. Hart, G. V. Clucas, and H. J. Lynch (2023). Penguins in the anthropause: COVID-19 closures drive gentoo penguin movement among breeding colonies. Biological Conservation 286:110318.