A Mechanistic Approach to Evaluation of Umbrella Species as Conservation Surrogates

Ozaki, Kenichi; Isono, Masahiro; Kawahara, Takayuki; Iida, S.; Kudo, Takuma; Fukuyama, Kenji

doi:10.1111/j.1523-1739.2006.00444.x

Cited by 94 publications

(88 citation statements)

References 57 publications

(63 reference statements)

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“…In contrast, the relatively high occurrence for generalist owls across all sites makes them less reliable surrogates. This result for the generalist owl is similar with patterns suggested by Ozaki et al (2006) for Accipiter gentilis, who found that this raptor was not an efficient biodiversity surrogate because it often used anthropogenically degraded habitat that were poor in taxonomic diversity. The latter study, however, did not account for the detectability of both the surrogate candidate and target biodiversity, and it did not test for other dimensions of target biodiversity such as endemism or functional diversity.…”

Section: Evidence For a Reliable Surrogacy Relationshipsupporting

confidence: 77%

“…Therefore, stand-level structural complexity may be the driver of a positive association between the surrogate candidate and target biodiversity (Drever et al 2008, Lindenmayer et al 2014a). Furthermore, it can expected that not all members of the top predator guild will be reliable surrogates because those that are habitatgeneralists may be able to adapt to degraded habitats (Ozaki et al 2006, Rodríguez-Estrella et al 2008. Studies identifying the potentially contrasting role of specialist and generalist predators as surrogates for functional diversity and endemism will contribute significantly to applied ecology (Martin et al 2015).…”

Section: Introductionmentioning

confidence: 99%

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Beyond species richness: an empirical test of top predators as surrogates for functional diversity and endemism

Ibarra

Martin

2015

Ecosphere

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Abstract. Using surrogate species to monitor the status of target biodiversity in areas undergoing exceptional habitat loss requires extending the traditional assessment of surrogates for taxonomic diversity to validating surrogates for functional diversity. This validation will be critical to inform about broader ecosystem processes and stability. We compared the surrogacy reliability of the habitat-specialist Rufouslegged Owl (Strix rufipes) and the habitat-generalist Austral Pygmy-Owl (Glaucidium nana), and we examined potential underlying mechanisms for surrogacy relationships in Andean temperate forests, a global biodiversity hotspot in southern Chile. During 2011-2013, we conducted 1,145 owl surveys, 505 vegetation surveys, and 505 avian point-transect surveys across 101 sites comprising a range of conditions from degraded forest habitat to structurally complex old-growth forest stands. The habitat-specialist S. rufipes was a reliable surrogate for all avian biodiversity measures, including avian endemism and functional diversity measures (degree of community specialization and density of large-tree users, understory users, and cavity-nesters). On the contrary, the habitat-generalist G. nana did not function as a surrogate. With increasing occurrence of S. rufipes, the density of target specialized biodiversity (species, guilds, and communities) increased nonlinearly and peaked at the least degraded sites. This specialist aggregation might be driven by stand structural complexity available in older, more stable, forests. These results suggest that management actions tailored to promote occurrence of habitat-specialist owls, such as the S. rufipes, may result in enhanced density of endemic species, specialized communities, and likely ecosystem stability.

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Section: Evidence For a Reliable Surrogacy Relationshipsupporting

confidence: 77%

Section: Introductionmentioning

confidence: 99%

Beyond species richness: an empirical test of top predators as surrogates for functional diversity and endemism

Ibarra

Martin

2015

Ecosphere

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“…Roberge and Angelstam (2004) proposed that the idea of umbrella species could be used to assess minimum size but also to help in selecting the locations of potential reserves and to determine the composition, structure and processes of ecosystems. Other authors think in a simpler way that umbrella species are large and often wide-ranging animals whose requirements encompass those of many other species (Groom et al 2006) and whose protection, even if they are invertebrates, offers protection to other species sharing the same habitat (Ozaki et al 2006).…”

Section: Discussionmentioning

confidence: 99%

Rediscovering the ‘umbrella species’ candidateCucujus cinnaberinus(Scopoli, 1763) in Southern Italy (Coleoptera Cucujidae), and notes on bionomy

Mazzei

Bonacci

Contarini³

et al. 2011

Italian Journal of Zoology

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During the monitoring of protected species for the management plan of the Sila National Park (Calabria), abundant populations of the saproxylic beetle Cucujus cinnaberinus were recorded in some pSCI forest sites with a well-developed Pinus nigra laricio tree layer. The beetle was rediscovered in Calabria after 49 years of unsuccessful attempts (since 1960) in 7 of the 21 stands investigated; it seems to be concentrated in good quality biotopes marked by a high availability of fallen pine trunks at least 30 cm in diameter. In May and June, the population is represented mostly by aged larvae (III, IV instar), and pupae have been obtained in the laboratory starting from July. The observed feeding habits are predatory on maggots and on larvae of other saproxylic beetles; thus, C. cinnaberinus can be defined as a very active 'large spectrum predator of saproxylic arthropods'. Chopped veal could be an alternative larval food in the laboratory. Climatic oscillations (annual precipitation) may be involved in the reappearance of the beetle. A preliminary list of the associated saproxylic fauna is presented and the potential role of C. cinnaberinus as an umbrella species is discussed.

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“…Several species assemblages have been selected as surrogates based on characteristics that include, among others, their functional role, distribution, threat status or charismatic value (e.g., Bonn et al, 2002Bonn et al, , 2004Ozaki et al, 2006). Still, taxonomic groups are the most commonly applied surrogates.…”

Section: Introductionmentioning

confidence: 99%

Arthropods as surrogates of diversity at different spatial scales

Gaspar

Gaston

Borges

2010

Biological Conservation

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a b s t r a c tThis study evaluates the effectiveness of taxonomic, colonization and trophic groups of arthropods from native forests of the Azores archipelago as surrogates of the diversity of other arthropod groups and of the remaining arthropods. Consistency in the performance of surrogates was tested across three spatial scales and using two measures of diversity. Pitfall and beating samples from 109 transects, 18 forest fragments and seven islands were analysed. The results showed that Araneae, Hemiptera and small orders taxonomic groups; native, endemic and introduced colonization groups; and the herbivores trophic group were consistent surrogates of the remaining diversity across the three spatial scales analysed, for both alpha and dissimilarity diversities. However, none of the subsets considered was significantly related with all of the other subsets at any of the three spatial scales. The effectiveness of surrogacy was dependent on the spatial level considered, and groups behaved inconsistently depending on the measure of diversity used. The value of a group as a diversity surrogate should be evaluated for a study area for a given spatial scale and diversity measure, in accordance with the scale and measure that will be used for biodiversity assessments and monitoring programs in that area.

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A Mechanistic Approach to Evaluation of Umbrella Species as Conservation Surrogates

Cited by 94 publications

References 57 publications

Beyond species richness: an empirical test of top predators as surrogates for functional diversity and endemism

Beyond species richness: an empirical test of top predators as surrogates for functional diversity and endemism

Rediscovering the ‘umbrella species’ candidateCucujus cinnaberinus(Scopoli, 1763) in Southern Italy (Coleoptera Cucujidae), and notes on bionomy

Arthropods as surrogates of diversity at different spatial scales

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