Abstract
BackgroundHabitat loss and overexploitation are among the primary factors threatening populations of many mammal species. Recently, aquatic mammals have been highlighted as particularly vulnerable. Here we test (1) if aquatic mammals emerge as more phylogenetically urgent conservation priorities than their terrestrial relatives, and (2) if high priority species are receiving sufficient conservation effort. We also compare results among some phylogenetic conservation methods.Methodology/Principal FindingsA phylogenetic analysis of conservation priorities for all 620 species of Cetartiodactyla and Carnivora, including most aquatic mammals. Conservation priority ranking of aquatic versus terrestrial species is approximately proportional to their diversity. However, nearly all obligated freshwater cetartiodactylans are among the top conservation priority species. Further, ∼74% and 40% of fully aquatic cetartiodactylans and carnivores, respectively, are either threatened or data deficient, more so than their terrestrial relatives. Strikingly, only 3% of all ‘high priority’ species are thought to be stable. An overwhelming 97% of these species thus either show decreasing population trends (87%) or are insufficiently known (10%). Furthermore, a disproportional number of highly evolutionarily distinct species are experiencing population decline, thus, such species should be closely monitored even if not currently threatened. Comparison among methods reveals that exact species ranking differs considerably among methods, nevertheless, most top priority species consistently rank high under any method. While we here favor one approach, we also suggest that a consensus approach may be useful when methods disagree.Conclusions/SignificanceThese results reinforce prior findings, suggesting there is an urgent need to gather basic conservation data for aquatic mammals, and special conservation focus is needed on those confined to freshwater. That evolutionarily distinct—and thus ‘biodiverse’—species are faring relatively poorly is alarming and requires further study. Our results offer a detailed guide to phylogeny-based conservation prioritization for these two orders.
Highlights
The ongoing biodiversity crisis is significantly effecting mammals and between 21% and 36% of the 5,847 extant mammalian species are threatened [1]
Conservation Priorities based on heightened ’’ EDGE (HEDGE) We focus on the results of the preferred analysis, HEDGE of the
The top-30 priority cetartiodactylan species for conservation according with the HEDGE/pessimistic metric are shown in Lipotes vexillifer Hippopotamus amphibius Hexaprotodon liberiensis Pontoporia blainvillei Platanista minor Platanista gangetica Physeter catodon Pseudoryx nghetinhensis Hyemoschus aquaticus Cervus (Rusa) unicolor Moschus moschiferus Tragulus nigricans Moschus berezovskii Moschus anhuiensis Moschus chrysogaster Moschus fuscus Moschus leucogaster Moschus cupreus Budorcas taxicolor Catagonus wagneri Sus cebifrons Inia geoffrensis Saiga tatarica Pantholops hodgsoni Camelus bactrianus Boselaphus tragocamelus Tetracerus quadricornis Babyrousa babyrussa Babyrousa togeanensis Neophocaena phocaenoides
Summary
The ongoing biodiversity crisis is significantly effecting mammals and between 21% and 36% of the 5,847 extant mammalian species are threatened [1]. Schipper et al [1] proposed aquatic mammals as vulnerable to current threats to marine and freshwater environments including pollution, intense harvesting (e.g., of minke whales, harp seals) [4,5,6,7], climate change (e.g., polar bear, walrus, fur seals, and narwhals) [8,9,10,11,12] and high incidental mortality in fishing nets (e.g., small cetaceans, fur seals) [13,14,15,16,17,18] In light of such threats, and faced with limited resources, establishing conservation priorities for aquatic and terrestrial mammals is an urgent task.
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