Leeds Ecosystem, Atmosphere & Forest (LEAF) Centre

Biodiversity estimates ‘coming of age’

February 12, 2018

An international competition to estimate the diversity of plants across the whole of Britain has shown that mathematical modelling techniques are ‘coming of age’.

Models are widely used by scientists to estimate the biological diversity of particular habitats, regions, countries and even continents, and to assess how this might be changing over time. Using models, researchers can begin to understand whether efforts to conserve the natural world are succeeding.

However, models are often tested against different criteria, making it difficult to compare them with one another and be confident in any given model. Generally, models are limited to estimating the biodiversity of an area two orders of magnitude larger than that sampled – the equivalent of estimating the number of species in an area of 100 m2 from a 1 m2 sample.

A new project led by the University of Leeds challenged the global research community to test the accuracy of their modelling techniques by applying them all to the same dataset – the 1999 Great Britain Countryside Survey.

Researchers were asked to make an estimate for the number of plant species present across Britain, based on small samples from the Great Britain Countryside Survey. Predictions from their models were then tested against data from the Biological Records Centre – the national database of British plant species. This provided the ‘true’ species-area relationship for British plants, enabling the research team to determine the best modelling technique.

This task required estimating the biodiversity of an area five orders of magnitude larger than the total area sampled – equivalent to estimating the species richness of the land plants across the entire globe based on samples that cover only 3,000 km2.

Professor Bill Kunin, from the University of Leeds’ Faculty of Biological Sciences, who launched the competition, said: “Policymakers are often concerned with the preservation of biodiversity at national, continental or global scales, but most biodiversity monitoring is conducted at very fine scales.

“This mismatch between the scales of our policies and of our data creates serious challenges, especially when assessing biodiversity change.”

More than a dozen methods belonging to five conceptual groups were tested and the findings published in the paper ‘Upscaling biodiversity: estimating the species-area relationship from small samples’, in Ecological Monographs. Entries came from researchers around the world, including Canada, the Czech Republic, South Africa, Taiwan and the USA.

The single best method for estimating the species-area relationship was proposed by Professor Cang Hui from Stellenbosch University, South Africa, based on his concept of species’ occupancy ranking, published for the first time in this paper.

Other models performed less well; while there are around 2,300 plant species in Britain, some models’ up-scaled species richness estimates were far off the mark, ranging from 62 to 11,593.

Professor Kunin says while there remains substantial room for improvement in upscaling methods, the results suggest that several existing methods have the potential for practical application to estimate species richness at coarse spatial scales.

“We have shown that mathematical modelling of biodiversity upscaling has come of age. These methods will greatly facilitate biodiversity estimation in poorly-studied taxa and regions, and the monitoring of biodiversity change at multiple spatial scales,” he concludes.

Read the full University of Leeds press release here.