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Biodiversity Intactness Index

The Biodiversity Intactness Index (BII) is a metric designed to assess the degree to which ecosystems are intact and functioning relative to their natural state. It measures the abundance and diversity of species in a given area compared to what would be expected in an undisturbed ecosystem. The BII accounts for various factors, including habitat loss, fragmentation, and degradation, providing a comprehensive view of biodiversity health. A higher BII value indicates a more intact ecosystem with greater species diversity and abundance, while a lower value suggests significant ecological disruption. The biodiversity intactness index is a complimentary indicator in the GBF.

Methods: The BII is created by the Natural History Museum and uses their PREDICTS database, which aggregates data from studies comparing terrestrial biodiversity at sites experiencing varying levels of human pressure. It currently contains over 3 million records from more than 26,000 sites across 94 countries, representing a diverse array of over 45,000 plant, invertebrate, and vertebrate species. The BII uses the PREDICTS database to establish a reference state using the biodiversity patterns in habitats with minimal disturbance levels. Then, it assigns sensitivity scores to each species based on their vulnerability to human pressure. Intactness is calculated by comparing the observed species abundance in a given area to what is expected under reference conditions with low human impact.

The BON in a Box pipeline: The Natural History Museum has created raster layers of BII since the year 2000. BON in a Box has a pipeline to calculate summary statistics and plot a time series from these layers in a country, region, or custom study area of interest. The pipeline has the following inputs:

The pipeline has the following outputs:

See an example BII output here

Contributors:

Citations: Adriana De Palma; Sara Contu; Gareth E Thomas; Connor Duffin; Sabine Nix; Andy Purvis (2024). The Biodiversity Intactness Index developed by The Natural History Museum, London, v2.1.1 (Open Access, Limited Release) [Data set]. Natural History Museum. https://doi.org/10.5519/k33reyb6

Newbold, T., Hudson, L. N., Arnell, A. P., Contu, S., De Palma, A., Ferrier, S., Hill, S. L. L., Hoskins, A. J., Lysenko, I., Phillips, H. R. P., Burton, V. J., Chng, C. W. T., Emerson, S., Gao, D., Pask-Hale, G., Hutton, J., Jung, M., Sanchez-Ortiz, K., Simmons, B. I., … Purvis, A. (2016). Has land use pushed terrestrial biodiversity beyond the planetary boundary? A global assessment. Science, 353(6296), 288–291. https://doi.org/10.1126/science.aaf2201