Global Urban Evolution Project

From HandWiki
Short description: Project studying urban evolution


The Global Urban Evolution Project is an international collaborative project which was started by Marc T. J. Johnson at the Centre for Urban Environments of the University of Toronto Mississauga (UTM).[1] It includes partners from at least 5 continents, 26 countries, and 160 cities.[2][3] As a field study of evolution, and as a global study of the effects of urbanization on evolution, its scale is unprecedented.[4] It has been described as "the best replicated test of parallel evolution, on the largest scale ever attempted".[5]

The project uses white clover as a model organism for studying global urbanization and urban evolution.[2] White clover was chosen because it already grew in most cities worldwide.[4] It examines the plant's production of hydrogen cyanide (HCN) in urban and more rural environments ("urban-rural clines"[6]). Hydrogen cyanide deters herbivores and increases clover's tolerance for water stress.[7] [2]

The project has demonstrated that urban environments are altering the ways in which plants evolve locally, and that similar changes are occurring globally, a demonstration of parallel evolution. It enables researchers to better understand the nature of urban environments, the adaptive capacity of species, and their ability to deal with rapid global environmental changes.[8][9][10]

Project history

In 2018, lead scientist Marc Johnson announced the project by tweeting "We are seeking collaborators to participate in the Global Urban Evolution (GLUE) project, a global study that seeks to understand whether urbanization drives parallel evolution in cities around the world."[11] Co-leaders of the project were Rob Ness and PhD student James Santangelo, all three at University of Toronto Mississauga.[4]

The resulting project has involved 287 scientists[11] and over 550 people at various academic levels worldwide.[12] It is an example of inclusive science with a team including equal numbers of women and men from around the world.[4] Sonja Knapp categorizes it as an experimental network and a global experiment with a shared methodology.[13]

Results

The project has collected over 110,000 clover samples and sequenced over 2,500 clover genomes, creating a huge dataset for the study of the species around the globe.[4]

Analyzing urban-rural clines, scientists found that cyanide production tended to increase with distance from the center of cities, suggesting that clover populations were adapting to factors commonly found in urban centers worldwide. Possible factors could include temperature (freezing is related to cyanide content), herbivory pressures, and drought stress. The research suggests that the downtowns of cities such as Boston may more closely resemble far-flung cities such as Beijing as clover habitats than they resemble rural areas located nearby.[2][3][14]

References

  1. "Global Urban Evolution Project (GLUE Project) - Projects - CE3C". https://ce3c.ciencias.ulisboa.pt/research/projects/ver.php?id=158. 
  2. 2.0 2.1 2.2 2.3 Bender, Eric (21 March 2022). "Urban evolution: How species adapt to survive in cities". Knowable Magazine (Annual Reviews). doi:10.1146/knowable-031822-1. https://knowablemagazine.org/article/living-world/2022/urban-evolution-species-adapt-survive-cities. Retrieved 31 March 2022. 
  3. 3.0 3.1 Santangelo, James S. et al. (18 March 2022). "Global urban environmental change drives adaptation in white clover". Science 375 (6586): 1275–1281. doi:10.1126/science.abk0989. ISSN 0036-8075. PMID 35298255. Bibcode2022Sci...375.1275S. https://www.science.org/doi/10.1126/science.abk0989. Retrieved 1 April 2022. 
  4. 4.0 4.1 4.2 4.3 4.4 "Urban Evolution in Clover Study Published in Science" (in en). University of Denver. 22 March 2022. https://www.du.edu/news/urban-evolution-clover-study-published-science. 
  5. Deligiannis, Eleftherios; Karousou, Rengina; Gkelis, Spyridon (2018). "Cyanogenesis of white clover (Trifolium repens) populations in the urbanization gradient of Thessaloniki (Greece)". 7th Balkan Botanical Congress, Novi Sad - Serbia. http://ikee.lib.auth.gr/record/300591?ln=en. Retrieved 2 April 2022. 
  6. "Urban Evolution Goes Global: Main findings from the Global Urban Evolution Project". 17 March 2022. https://urbanevolution-litc.com/2022/03/17/urban-evolution-goes-global-main-findings-from-the-global-urban-evolution-project/. 
  7. "Urbanization is driving evolution of plants: Sudbury study" (in en-CA). Sudbury Star. March 22, 2022. https://www.thesudburystar.com/news/local-news/urbanization-is-driving-evolution-of-plants-study. 
  8. Eckart, Kim (March 18, 2022). "Urbanization is driving evolution of plants globally, study finds" (in en). UW News (University of Washington). https://www.washington.edu/news/2022/03/18/urbanization-is-driving-evolution-of-plants-globally-study-finds/. 
  9. Bosman, Alison (March 17, 2022). "Humans change the evolution of life around us" (in en). Earth.com. https://www.earth.com/news/humans-change-the-evolution-of-life-around-us/. 
  10. "Hendrix Faculty, Alumni Co-Author Paper on Global Urban Evolution Following Participation in Study Spanning 26 Countries" (in en). Hendrix College. March 18, 2022. https://www.hendrix.edu/global-urban-evolution-research-2022/. 
  11. 11.0 11.1 Stewart, John (March 23, 2022). "UTM is the GLUE uniting evolutionary researchers" (in en-CA). Mississauga. https://www.mississauga.com/opinion-story/10591765-utm-is-the-glue-uniting-evolutionary-researchers/. 
  12. Rivkin, L. Ruth; Santangelo, James S.; Alberti, Marina; Aronson, Myla F. J.; de Keyzer, Charlotte W.; Diamond, Sarah E.; Fortin, Marie‐Josée; Frazee, Lauren J. et al. (14 December 2018). "A roadmap for urban evolutionary ecology". Evolutionary Applications 12 (3): 384–398. doi:10.1111/eva.12734. ISSN 1752-4571. PMID 30828362. 
  13. Knapp, Sonja; Aronson, Myla F J; Carpenter, Ela; Herrera-Montes, Adriana; Jung, Kirsten; Kotze, D Johan; La Sorte, Frank A; Lepczyk, Christopher A et al. (1 March 2021). "A Research Agenda for Urban Biodiversity in the Global Extinction Crisis". BioScience 71 (3): 268–279. doi:10.1093/biosci/biaa141. 
  14. Diamond, Sarah E.; Martin, Ryan A. (2 November 2021). "Evolution in Cities" (in en). Annual Review of Ecology, Evolution, and Systematics 52 (1): 519–540. doi:10.1146/annurev-ecolsys-012021-021402. ISSN 1543-592X. https://www.annualreviews.org/doi/pdf/10.1146/annurev-ecolsys-012021-021402. Retrieved 1 April 2022. 

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