![]() This same pattern of difference was also shown in bacteria and protists - demonstrating consistency in the biodiversity of life for each region.įurthermore, the scientists found that among the variables examined temperature had the greatest impact on determining the diversity of animals and bacteria, whereas protists were associated more with chlorophyll concentration in the water. Results showed a broad range of animals living in the sea along the whole length of coast, but with differences in the exact species in warm, cold and intermediate regions. The samples were filtered, had environmental DNA extracted and underwent sophisticated lab analysis to indicate the diverse range of organisms found in particular locations. ![]() The team took seawater samples in numerous locations along the length of the South African coast, from the warmer seas of the east, to the cooler waters of the west and the intermediate temperatures in the south. We discovered remarkably consistent biogeographic groupings for the three across the coastline - consistent with previously studied patterns, driven by regional currents."įindings are published in the journal Nature Ecology and Evolution. Studying animals, protist and bacteria together - organisms vastly different in size, separated by billions of years of evolution - gave us the opportunity to take a broader view of the marine ecosystem. Lead researcher and postgraduate student at the University of Southampton, Luke Holman explains: "Typically, biodiversity and biogeography studies focus on one group of species at a time, often animals. Researchers at the University's School of Ocean and Earth Science, working with colleagues at the universities of Bangor, Sydney and Johannesburg and the UK's National Oceanography Centre, undertook a survey of marine animals, protists (single cellular organisms) and bacteria along the coastline of South Africa. ![]()
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