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W Sheet n°290 - March 2008 Conservation of freshwater fish biodiversity : a challenge for the countries of the South P sent and move around rapidly on all the continents, human activity has become a significant vector for the spread of species beyond the range of their native ecosystem. However, no global-scale scientific study had yet managed to measure the human influence involved in the establishment of a complete group of non-native species within a given natural environment. Work recently published by an international team1, including research scientists from the University Paul Sabatier of Toulouse, the IRD and the CNRS, yielded the first global-scale appreciation of the processes leading to freshwater fish invasion in river basins. The investigation, conducted on over 1000 rivers harbouring 10 000 freshwater fish species, showed that the colonization by non-native species stemmed mainly from human activities. This phenomenon affects predominantly all river ecosystems of countries of the Northern hemisphere. However, in the context of economic growth developing countries are now experiencing, their river basins, home to the greater part of freshwater fish biodiversity, are at risk of the same fate unless vigilance is applied. © Onema / F. Storck ver since humans E have had technology enabling them to be pre- Originating from North America, the pumpkinseed sunfish (Lepomis gibbosus) is now present in most of Europe’s river systems. Humans have regularly been introducing exotic species into natural environments in order to provide for their nutritional necessities or meet less indispensable purposes such as horticulture, fishing or hunting. However, the particular environments are not always adapted for hosting new arrivals. Past introduction attempts, such as that of wild rabbit into Australia or brown fario trout into Southern hemisphere water courses, led to an awareness that these different species, qualified by scientists as none-native, have the power to upset an ecosystem. The 2002 Convention on Biodiversity recognized that the species introductions can cause regression of biological diversity, following destruction of natural habitats. Although it has long seemed likely that human activity plays a major role in such effects, no scientific study had yet yielded measurements of its involvement at planetary scale for a given group of species. An international research team comprising IRD, CNRS and University of Toulouse scientists recently published a study that gave the first real demonstration that human activity is the main driving factor behind the establishment of exotic fish species populations in river ecosystems. Examination of data on presence of around 10 000 freshwater fish in 1055 river basins covering both 80% immersed lands and 80% of globally recorded freshwater fish species allowed identification of seven species-invasion hot-spots : the Pacific coast of North America and Central America, Patagonia, southern and western Europe, South Africa and Madagascar, central Asia, the South of Australia and New Zealand (See Map). These regions are characterized by river basins where non-native species make up more than one quarter of the freshwater fish species recorded. Moreover, they are superimposed on biodiversity hot-spots which correspond to geographical zones a strong endemism rate and a very high total number of species. Institut de recherche pour le développement - 213, rue La Fayette - F-75480 Paris cedex 10 - France - www.ird.fr Retrouvez les photos de l'IRD concernant cette fiche, libres de droit pour la presse, sur www.ird.fr/indigo CONTACTS : FABIEN LEPRIEUR Laboratoire Evolution et diversité biologique Adresse : Université Paul Sabatier, bâtiment 4R3 115 route de Narbonne 331062 Toulouse cedex 4 France Tél : +33 (05) 61 55 67 47 [email protected] THIERRY OBERDORFF Directeur de recherche IRD Unité de recherche Approche macro-écologique de la biodiversité aquatique en zone continentale (AMAZONE) Adresse : MNHN 43 rue cuvier 75005 PARIS Tél : +33 (0)1 40 79 37 67 [email protected] REFERENCE : FABIEN LEPRIEUR, OLIVIER BEAUCHARD, SIMON BLANCHET, THIERRY OBERDORFF, SÉBASTIEN BROSSE, Fish Invasions in the World’s River Systems : When Natural Processes Are Blurred by Human Activities, PloS Biology, 2008, Vol. 6, No. 2, e28 doi : 10.1371/journal. pbio.0060028 KEY WORDS : The team also sought to determine the extent of the relative influence of the particular characteristics of each ecosystem and human activities on the diversity of the non-native fish species. Three hypotheses were tested : the “biotic resistance”, “biotic acceptance” and “human activity”. The first suggests that a high diversity of freshwater fish in the host ecosystem acts as a barrier to the establishment of non-native fish specie populations. The second postulates conversely that, for a given ecosystem, non-native species diversity follows that of native species because favourable ecological conditions for the latter are also suitable for the newly arrived species. As for the third, it takes account of the different indicators at river-basin scale (gross domestic product, percentage of land urbanized, population density), that can yield determination of the relation between anthropic pressure and non-native species diversity. The three hypotheses’ relative weight was measured using statistical methods. For the whole set of river basins investigated, the environmental conditions of fluvial ecosystems were found to have practically no influence on the exotic species diversity. On the contrary, it is the human factors, and especially the intensity of economic activities –measured by the GDP, which determine the number of nonnative species present in a river basin. These results thus suggest that the economic development foreseen in the developing countries should be accompanied by a rise in the number of nonnative freshwater fish species. Given that biological invasions are considered as one of the main causes of biodiversity loss, such a scenario would probably be detrimental to the aquatic biodiversity conservation of these regions. This study indicates that exceptional river ecosystems, like the Amazon Basin in South America or that of the Congo in central Africa, are still hardly affected by species introduction. For example, no more than 1% of the 3000 species of fish recorded in the River Amazon are non-native species. Just as a considerable number of countries of the South are seeing their economic growth take off, this kind of study should be useful in the future for setting up an effective watch system for the surveillance of the exotic species colonizing the most biodiversity-rich natural environments and make it possible to apply the principle of precaution before they become invasive. Grégory Fléchet – DIC Translation : Nicholas Flay 1. This research was conducted in conjunction with scientists from the Groupe de recherche sur la gestion des écosystèmes of Antwerp University (Belgium) and the Centre Interniversitaire de Recherche sur le Saumon atlantique (CIRSA) of Laval University (Canada). Non-native species, river basin, freshwater fish, invasion PRESS OFFICE : GAËLLE COURCOUX +33 (0)1 48 03 75 19 [email protected] INDIGO, IRD PHOTO LIBRARY : © Leprieur Fabien Sheet n°290 - March 2008 For further information DAINA RECHNER +33 (0)1 48 03 78 99 [email protected] www.ird.fr/indigo Percentage of non-native freshwater fish species in 1055 river basins covering more than 80% of the land. Grégory Fléchet, coordinator Délégation à l’information et à la communication Tél. : +33(0)1 48 03 76 07 - fax : +33(0)1 40 36 24 55 - [email protected]