Scientists working in the 50鈥檚 and 60鈥檚 developed theories to predict the ecological distribution of species.聽 These theories could be applied across a broad range of environments and variables such as food supply or temperature and when tested on a small scale they were found to be accurate. Amongst the earliest examples of these theories is the coral reef zonation theory which explains how different types of fish or corals for example are found on coral reefs at different depths.
Modern computing capabilities have now made it possible to test these theories at a larger scale, to see whether they 鈥榟old water鈥.
To validate the depth zonation model on coral reefs, scientists at 香港六合彩挂牌资料 and the US Government National Oceanic and Atmospheric Administration (NOAA), led by Dr Laura Richardson, of 香港六合彩挂牌资料, collected data from 5525 surveys at 35 Pacific Ocean islands. Their work has revealed that the model is correct and can predict the distribution of different fish species according to depth, but only on uninhabited islands where there is no and has never been any local human interference.
At islands and reefs with human habitation the pattern was not as marked or predictable.聽
The findings therefore suggest that our old 鈥榤odels鈥 of the natural world may no longer be valid in the face of mounting local human impacts.
As lead author, Dr Laura Richardson of 香港六合彩挂牌资料鈥檚 School of Ocean Sciences, suggests,
鈥淪cience is cumulative, building on past work. Now that we have greater computing capabilities, we should be testing these widely accepted but spatially under-validated theories at scale. Moreover the intervening years have seen human impacts on the environment increase to such an extent that these models may no longer predict the ecological distribution patterns we see today.
鈥淭his leads to more questions, both about the usefulness of models which represented a world less impacted by human activity, and about how to quantify or model our impact on the natural environment.鈥
鈥淭he results show that now is the time to consider whether and how to include human impacts into our understanding of the natural world today.鈥
,聽Laura E. Richardson, Adel Heenan, Adam J. Delargy, Philipp Neubauer, Joey Lecky, Jamison M. Gove, J. A. Mattias Green, Tye L. Kindinger, Kurt E. Ingeman & Gareth J. Williams聽https://doi.org/10.1038/s41559-023-02201-x