Swansea University scientists have been involved in a collaborative study which reveals for the first time that the world’s protected areas do benefit a broad range of species
The study, published by Nature Communications, led by the University of Sussex working together with the Natural History Museum, the UNEP - World Conservation Monitoring Centre and Swansea University, is the largest ever analysis of globally protected areas.
Analysing biodiversity samples from 1,939 sites inside and 4,592 sites outside 359 protected areas, scientists have discovered the protected area samples contain 15 percent more individuals and 11 percent more species compared to samples from unprotected sites. The research used the new PREDICTS global biodiversity database which contains data for approximately over one percent of all known species and spans 48 countries and 101 ecoregions - the most comprehensive biodiversity sample of terrestrial protected areas.
Swansea University Biosciences Associate Professor Luca Börger said: “Protected areas are considered a quintessential measure for biodiversity conservation and many nations have committed to increase them to cover at least 17% of the terrestrial area (‘Aichi biodiversity targets’ of the Convention on Biological Diversity). It was hence timely to carry out a comprehensive global evaluation of the effectiveness of protected areas.”
Co-lead author of the study, Dr Claudia Gray, from the University of Sussex said: “Previously, regional or global studies of protected areas have mostly used information from satellite photos, to look at changes in forest cover. Instead, we used a particularly exciting new dataset, which brings together information collected on the ground by hundreds of scientists all over the world.
“We have been able to show for the first-time how protection affects thousands of species, including plants, mammals, birds and insects. This has provided us with important insights into these areas - which previous studies were not able to do.”
From the study, scientists also discovered protection is most effective when human use of land for crops, pasture and plantations is minimised. The results suggest that better management across the existing protected area network could more than double its effectiveness.
Dr Jörn Scharlemann, from the University of Sussex, said: “Protected areas are widely considered essential for biodiversity conservation, but our results show for the first-time that they do actually benefit a wide range of species.
“Our results reinforce recent commitments by governments for increased support and recognition of the importance of protected areas worldwide.
“We cannot deny the global importance of these areas and we must ensure that governments across the world recognise their significance and work to improve their effectiveness.
“Protected areas do not currently benefit all species – but what we have shown in our study is they have the potential to help us conserve some of the most biodiverse areas on Earth - which is why they vitally need increased global support.”
Prof Andy Purvis, one of the paper’s authors from the Natural History Museum, said: “This study shows how important questions in conservation biology can be tackled by joining forces. Hundreds of scientists from dozens of countries have generously shared their hard-earned data with us. Each one of those data sets is like a piece of a jigsaw: the overall picture only becomes clear when you have all the pieces and can put them together.”
Dr Samantha Hill from the UNEP – World Conservation Monitoring Centre, said: “Humanity faces difficult decisions as to how best to protect biodiversity while providing for the needs of our ever-growing population. This study provides new understanding into the biodiversity found at the intersection of protected areas and human land-uses.
“This research relied upon the data collated in the World Database on Protected Areas (WDPA) - the most complete dataset detailing the world’s terrestrial and marine protected areas. The WDPA is a joint product of the United Nations Environment Programme and the International Union for Conservation of Nature (IUCN) and made publicly-available by the UNEP-World Conservation Monitoring Centre atwww.protectedplanet.net.”
The Paper entitled, “Local biodiversity is higher inside than outside terrestrial protected areas worldwide” is published in Nature Communications at 10:00am on Thursday 28th July 2016 and once published can be found here http://nature.com/articles/doi:10.1038/NCOMMS12306
Graphic: Global diversity infographic (University of Sussex)
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