Bioscientists from Durham University, UK and Senckenberg Biodiversity and Climate Research Centre, Germany have predicted in their latest research that bird communities will change worldwide in 2080 due to climate change, largely as result of shifting their ranges.
For the projections of the bird communities to the year 2080, the team of scientists related past bird distributions to climate data and then applied these relationships to two future climate scenarios – based on low and medium greenhouse gas emissions – to predict changes in species distributions.
The team looked not only at changes in numbers of species in areas but also at the types of species that would occur. To summarise changes in species types they calculated something called phylogenetic diversity that summarises how many different types of birds would occur.
For example, a community that had a lot of closely-related species, such as insect-eating songbirds, would have a much lower phylogenetic diversity score than a community that included a mix of more distantly-related species, for example songbirds plus other species such as birds of prey, partridges or gulls.
They investigated how the communities of birds all over the world could change in the future and discovered that that climate change will not only affect species numbers but will also have profound effects on phylogenetic diversity and community composition.
Examples of bird species that are currently increasing phylogenetic diversity in the UK, probably largely driven by climate change, include European bee-eaters, a type of insect-eating bird, black-winged stilts and spoonbills, all of which normally breeds further south in Europe but now occasionally breeds in the UK. Bee-eaters are only distantly related to other current UK-breeding bird species. Similarly, newly breeding species such as spoonbills and black-winged stilts have added to the phylogenetic diversity of birds in the UK in recent years.
The researchers evaluated data for a total of 8,768 bird species globally to predict how many different lineages could be lost regionally, or added, as species respond to climate change by shifting their distributions.
Although the researchers project species losses to be most common in tropical and subtropical areas, phylogenetic restructuring of species communities is expected to occur around the world.
Their study emphasise that preservation of local phylogenetic diversity can be a key to the resilience of biological diversity to environmental changes.
Their full study has been published in the journal Proceedings of the Royal Society B.
“In our study, we examined the effects of global warming on the regional distribution of terrestrial birds around the world. The focus was on the effects on species richness as well as on various aspects of phylogenetic diversity, primarily how closely related the species are to each other”, said lead author of the study, Dr. Alke Voskamp of Senckenberg Biodiversity and Climate Research Centre.
Co-author of the study, Professor Stephen Willis of Durham University, said: “The diversity of lineages is very often related to the diversity of traits that species possess and thus to their roles and functions in ecosystems. For example, species from more distant lineages often have different beak types, and hence eat different types of food. Change means that the ecosystem functions that birds perform in an area may also change in the future, with potential consequences for food webs, seed dispersal and plant pollination.”
The research highlights the importance of considering diverse measures in climate impact assessments. It has been funded by the German Federal Ministry of Education and Research, the Bavarian State Ministry of Science and Arts, German Research Foundation and Leibniz Association and stems from initial work funded by Durham University.
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‘Projected climate change impacts on the phylogenetic diversity of the world's terrestrial birds: more than species numbers’, (2022), A. Voskamp, C. Hof, M. Biber, K. Böhning-Gaese, T. Hickler, A. Niamir, S. Willis and S. Fritz, Proceedings of the Royal Society B.
Full paper can be accessed here: https://royalsocietypublishing.org/doi/10.1098/rspb.2021.2184
Associated image is available via the following link: https://www.dropbox.com/sh/qs8ftp9nu8bkwqb/AAD_qxoC4a-yluR3zet12djea?dl=0
Credit: Kieran Lawrence
Useful Web Links
Professor Stephen Willis staff profile: https://www.durham.ac.uk/staff/s-g-willis/
Department of Biosciences: https://www.durham.ac.uk/departments/academic/biosciences/
Senckenberg Biodiversity and Climate Research Centre: https://www.senckenberg.de/en/institutes/sbik-f/
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Proceedings of the Royal Society B Biological Sciences
Subject of Research