Avian extinctions have been relatively well documented in modern history,and in the past millennia,more bird species are known to have gone extinct than species in any other vertebrate class.We examined the biological...Avian extinctions have been relatively well documented in modern history,and in the past millennia,more bird species are known to have gone extinct than species in any other vertebrate class.We examined the biological correlates of extinction timing among 216 bird species that recently were either observed to go extinct or dis-appeared since 1500 CE,performing a novel analysis for examining the extinction trends of birds by modelling traits against the number of years since present day during which species have been extinct.We analyzed a broad range of traits and characteristics that have previously been associated with extinction and extinction risk in birds and compared the effects of these traits simultaneously against one another.In order to provide a more comprehensive and robust assessment of trait-based drivers of global bird loss in comparison to prior studies,we included extinct species recognized by any of the three major avian taxonomies as well as those birds that lack recent confirmed sightings and are at least functionally extinct.We found that insular,flightless,larger-bodied,ecologically specialized species,as well as those with high aspect ratio wings,were likely to go extinct earlier in time.Besides identifying the key locations and time periods over the past five centuries where birds have gone extinct,and highlighting specific extinction-prone taxonomic groups,we provide a complete and unified dataset of traits used in this study that helps address the lack of extensive public data on modern extinct species.展开更多
Recent studies have revealed concerning declines in bird populations in Europe and other parts of the world.In understudied but biodiverse regions,especially those that are located along key migratory flyways,there is...Recent studies have revealed concerning declines in bird populations in Europe and other parts of the world.In understudied but biodiverse regions,especially those that are located along key migratory flyways,there is an unmet need to evaluate the status of resident and migratory birdlife for avian conservation ecology.This is especially urgent at a time when recent regional studies have highlighted the scale of the decline of the European and Palearctic avifauna.Rapidly growing community science datasets may help bridge the gaps in our understanding of long-term regional avifaunal trends.In this study,we used eBird data submitted by observers in Türkiye to undertake the first long-term assessment of the state of the country’s birds from 2001 to 2022.We evaluated population trends based on presence-absence data of species to determine if any birds have significantly increased or decreased in the country so far this century.We provide a list of trends for 418 bird species that had large enough sample sizes of eBird observations from Türkiye,and highlight which species have significantly declined or increased.We found that 63 species have significantly declined in detection while 120 have significantly increased during the study period.Our findings provide a baseline for the future monitoring of Türkiye’s birds and help contextualize population changes of birds in Türkiye against those occurring at the continental(Palearctic)scale.Additionally,we include movement classifications for all of the bird species in this study.We also provide a framework to effectively use eBird data to assess long-term avifaunal changes at the country-level in other understudied regions.Finally,we highlight ways in which eBirders in Türkiye and elsewhere can strengthen the quality and value of community ornithology data for population assessments and avian conservation ecology.展开更多
文摘Avian extinctions have been relatively well documented in modern history,and in the past millennia,more bird species are known to have gone extinct than species in any other vertebrate class.We examined the biological correlates of extinction timing among 216 bird species that recently were either observed to go extinct or dis-appeared since 1500 CE,performing a novel analysis for examining the extinction trends of birds by modelling traits against the number of years since present day during which species have been extinct.We analyzed a broad range of traits and characteristics that have previously been associated with extinction and extinction risk in birds and compared the effects of these traits simultaneously against one another.In order to provide a more comprehensive and robust assessment of trait-based drivers of global bird loss in comparison to prior studies,we included extinct species recognized by any of the three major avian taxonomies as well as those birds that lack recent confirmed sightings and are at least functionally extinct.We found that insular,flightless,larger-bodied,ecologically specialized species,as well as those with high aspect ratio wings,were likely to go extinct earlier in time.Besides identifying the key locations and time periods over the past five centuries where birds have gone extinct,and highlighting specific extinction-prone taxonomic groups,we provide a complete and unified dataset of traits used in this study that helps address the lack of extensive public data on modern extinct species.
文摘Recent studies have revealed concerning declines in bird populations in Europe and other parts of the world.In understudied but biodiverse regions,especially those that are located along key migratory flyways,there is an unmet need to evaluate the status of resident and migratory birdlife for avian conservation ecology.This is especially urgent at a time when recent regional studies have highlighted the scale of the decline of the European and Palearctic avifauna.Rapidly growing community science datasets may help bridge the gaps in our understanding of long-term regional avifaunal trends.In this study,we used eBird data submitted by observers in Türkiye to undertake the first long-term assessment of the state of the country’s birds from 2001 to 2022.We evaluated population trends based on presence-absence data of species to determine if any birds have significantly increased or decreased in the country so far this century.We provide a list of trends for 418 bird species that had large enough sample sizes of eBird observations from Türkiye,and highlight which species have significantly declined or increased.We found that 63 species have significantly declined in detection while 120 have significantly increased during the study period.Our findings provide a baseline for the future monitoring of Türkiye’s birds and help contextualize population changes of birds in Türkiye against those occurring at the continental(Palearctic)scale.Additionally,we include movement classifications for all of the bird species in this study.We also provide a framework to effectively use eBird data to assess long-term avifaunal changes at the country-level in other understudied regions.Finally,we highlight ways in which eBirders in Türkiye and elsewhere can strengthen the quality and value of community ornithology data for population assessments and avian conservation ecology.
