Continental-scale conservation prioritization of African dragonflies

Indicators on the state of global biodiversity illustrate continued decline, while pressure on biodiversity keeps rising. This necessitates revisiting site prioritization and species protection for conservation. Patterns of richness and threat of four well-studied aquatic taxa, the fishes, crabs, mo...

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Bibliographic Details
Published in:Biological conservation 2013-01, Vol.157, p.245-254
Main Authors: Simaika, John P., Samways, Michael J., Kipping, Jens, Suhling, Frank, Dijkstra, Klaas-Douwe B., Clausnitzer, Viola, Boudot, Jean-Pierre, Domisch, Sami
Format: Article
Language:English
Subjects:
Africa
Animal and plant ecology
Animal, plant and microbial ecology
Anisoptera (Odonata)
Applied ecology
Aquatic biodiversity
basins
biodiversity
Biodiversity and Ecology
biogeography
Biological and medical sciences
BIOMOD or ensemble forecasting
computer software
conservation areas
Conservation planning
Conservation, protection and management of environment and wildlife
Continent
Continental interfaces, environment
crabs
Environmental Sciences
fish
Fresh water ecosystems
Freshwater
Fundamental and applied biological sciences. Psychology
habitats
Hotspots
Insecta
Invertebrates
landscapes
managers
molluscs
Odonata
Parks, reserves, wildlife conservation. Endangered species: population survey and restocking
planning
prioritization
Protected area
rain forests
Reserve networks
Sciences of the Universe
Species distribution modeling
swamps
Synecology
threatened species
woodlands
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Summary:Indicators on the state of global biodiversity illustrate continued decline, while pressure on biodiversity keeps rising. This necessitates revisiting site prioritization and species protection for conservation. Patterns of richness and threat of four well-studied aquatic taxa, the fishes, crabs, molluscs and dragonflies largely coincide at the continental scale, at least in Africa. For this study, we focus on dragonflies, for which there is a point locality database, as a surrogate taxon, modeling the species at the fine-scale, using species distribution modeling. With this approach, we built a protected areas network using spatial planning software. Priority areas for dragonfly conservation largely coincided with analyses of global biodiversity hotspots. The Zambian swamps and woodlands, as well as the rainforests of the Lower Guinea and Congo Basin are emphasized as hotspots of dragonfly diversity. Among globally threatened species, 72% were recorded at least once in a protected area. Although the current reserve network covers 10.7% of the landscape, the proportional representation of species geographic distributions in reserves is only 1.2%. The reserve network is therefore inefficient concerning freshwater species, and many areas of conservation priority that are not formally protected remain. The advantage of operating at the fine scale, while covering a large geographic area is that it shifts the focus from the large-scale hotspots to smaller priority areas within and beyond hotspots. Also, by operating at the fine-scale for a large geographical area, the potential exists for local conservation managers to consider campaigning for the inclusion of the priority areas that are not formally protected, while adjacent to the existing reserve networks. Where this is not possible, we recommend monitoring these areas to detect future threats to the habitats that these might face.
ISSN:0006-3207
1873-2917
DOI:10.1016/j.biocon.2012.08.039