Ecoregion-Based Conservation Planning in the Mediterranean: Dealing with Large-Scale Heterogeneity

Sylvaine Giakoumi,Tessa Mazor,Panagiotis Dendrinos,Alexandros A Karamanlidis,Jutta Beher,Stelios Katsanevakis,Eleni Voultsiadou,Vasilis Gerovasileiou,Chloë Webster,Ameer Abdulla,Andrej Jaklin,Hugh P Possingham,Argyro Zenetos,Maria Sini,P Panayotidis ,Melih Ertan Çınar ,Ali Cemal Gücü ,Petra Rodić ,Ergün Taşkın

doi:10.1371/journal.pone.0076449

Abstract

Spatial priorities for the conservation of three key Mediterranean habitats, i.e. seagrass Posidonia oceanica meadows, coralligenous formations, and marine caves, were determined through a systematic planning approach. Available information on the distribution of these habitats across the entire Mediterranean Sea was compiled to produce basin-scale distribution maps. Conservation targets for each habitat type were set according to European Union guidelines. Surrogates were used to estimate the spatial variation of opportunity cost for commercial, non-commercial fishing, and aquaculture. Marxan conservation planning software was used to evaluate the comparative utility of two planning scenarios: (a) a whole-basin scenario, referring to selection of priority areas across the whole Mediterranean Sea, and (b) an ecoregional scenario, in which priority areas were selected within eight predefined ecoregions. Although both scenarios required approximately the same total area to be protected in order to achieve conservation targets, the opportunity cost differed between them. The whole-basin scenario yielded a lower opportunity cost, but the Alboran Sea ecoregion was not represented and priority areas were predominantly located in the Ionian, Aegean, and Adriatic Seas. In comparison, the ecoregional scenario resulted in a higher representation of ecoregions and a more even distribution of priority areas, albeit with a higher opportunity cost. We suggest that planning at the ecoregional level ensures better representativeness of the selected conservation features and adequate protection of species, functional, and genetic diversity across the basin. While there are several initiatives that identify priority areas in the Mediterranean Sea, our approach is novel as it combines three issues: (a) it is based on the distribution of habitats and not species, which was rarely the case in previous efforts, (b) it considers spatial variability of cost throughout this socioeconomically heterogeneous basin, and (c) it adopts ecoregions as the most appropriate level for large-scale planning.

Highlights

Understanding the distribution of marine organisms and processes is of great importance for marine conservation planning [1]
The present study aims at identifying priority areas for the conservation of the seagrass P. oceanica, coralligenous formations, and marine caves across the entire Mediterranean Sea, considering concurrent ecoregional representation of habitats and opportunity cost
Delay in achieving the Aichi goals set by the Convention on Biological Diversity, Target 11 committing states to protect 10% of the Mediterranean Sea by 2020, has often been attributed to the lack or scarcity of data on biodiversity distribution [7,69]

Summary

Introduction

Understanding the distribution of marine organisms and processes is of great importance for marine conservation planning [1]. Obtaining detailed information for all species is time consuming and costly, practically impossible when time or resources are limited. To address this challenge, physical data or higher-taxon approaches (e.g., identification to genera or families) have often been used as surrogates for the distribution of species richness [2,3]. In the last decades the use of habitat surrogates in spatial prioritization has been applied both at a local and regional scale for marine systems (e.g., [5,6]). The utility of umbrella and flagship species as surrogates for regional biodiversity has been found to be limited and their use in conservation planning inappropriate [8]

Methods

Results

Conclusion