Jim J. Groombridge scite author profile

Analysing DNA that organisms release into the environment (environmental DNA, or eDNA) has enormous potential for assessing rare and cryptic species. At present the method is only reliably used to assess the presence-absence of species in natural environments, as seasonal influences on eDNA in relation to presence, abundance, life stages and seasonal behaviours are poorly understood. A naturally colonised, replicated pond system was used to show how seasonal changes in eDNA were influenced by abundance of adults and larvae of great crested newts (Triturus cristatus). Peaks in eDNA were observed in early June when adult breeding was coming to an end, and between mid-July and mid-August corresponding to a peak in newt larval abundance. Changes in adult body condition associated with reproduction also influenced eDNA concentrations, as did temperature (but not rainfall or UV). eDNA concentration fell rapidly as larvae metamorphosed and left the ponds. eDNA concentration may therefore reflect relative abundance in different ponds, although environmental factors can affect the concentrations observed. Nevertheless, eDNA surveys may still represent an improvement over unadjusted counts which are widely used in population assessments but have unreliable relationships with population size.

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Leadership and conservation effectiveness: finding a better way to lead

Black

Groombridge

Jones

2011

132

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Conservation practitioners and academics have highlighted leadership as an important component for conservation programs, but the attributes of effective leaders are not yet clearly defined. We identify a leadership approach that enables a conservation organization to be more effective in achieving positive results. An analysis of successful and unsuccessful species conservation programs consistently reveals contrasting leadership approaches. Successful approaches resonate strongly with both the characteristics of species conservation and established leadership theory in mainstream management literature. We describe the practices identified in successful species conservation programs to provide the basis for a new understanding of conservation leadership using established management theory. The traits of a successful conservation leader include: an ability to share a clear, long-term vision; orientation toward "hands-on" management; an ability to switch thinking between the big picture and the detail; and a willingness to encourage learning, improvement, and receptiveness to alternative solutions. Activities in the conservation sector are typically influenced by factors beyond the control of managers. Conversely, a leadership approach is under managers' direct control and has an impact on attainment of results. Effective leadership is one factor that should not be left to chance but should be considered seriously for its impact on achievement in biodiversity conservation.

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‘Ghost’ alleles of the Mauritius kestrel

Groombridge

Jones

Bruford

et al. 2000

Nature

199

116

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Birds as tourism flagship species: a case study of tropical islands

Veríssimo

Fraser

Groombridge

et al. 2009

Animal Conservation

123

106

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Species selected as flagships to promote conservation activities around the world are typically well known and charismatic mega-fauna. Unfortunately this limits the scope for applying the concept as some critical areas for biodiversity conservation, such as tropical islands, lack such species. In this study, we explore the potential to apply the concept of 'tourism flagship species' to tropical island birds of the Seychelles, an archipelago of considerable importance for conservation that is highly dependent on international tourism. In particular we wish to identify which species attributes are most influential with regard to their potential for fundraising among international tourists. Using a choice experiment approach and using state-of-the-art econometric methods, we found that conservation attributes and physical appearance of the bird species are both important in terms of raising funds for conservation. Nevertheless, conservation attributes ranked higher in the respondents preferences. Our results suggest that there is considerable potential for a variety of species to effectively act as flagships in developing nations that are dependent on international tourism and rich in biodiversity but lack charismatic fauna.

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Seasonal variation in environmental DNA detection in sediment and water samples

2018

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The use of aquatic environmental DNA (eDNA) to detect the presence of species depends on the seasonal activity of the species in the sampled habitat. eDNA may persist in sediments for longer than it does in water, and analysing sediment could potentially extend the seasonal window for species assessment. Using the great crested newt as a model, we compare how detection probability changes across the seasons in eDNA samples collected from both pond water and pond sediments. Detection of both aquatic and sedimentary eDNA varied through the year, peaking in the summer (July), with its lowest point in the winter (January): in all seasons, detection probability of eDNA from water exceeded that from sediment. Detection probability of eDNA also varied between study areas, and according to great crested newt habitat suitability and sediment type. As aquatic and sedimentary eDNA show the same seasonal fluctuations, the patterns observed in both sample types likely reflect current or recent presence of the target species. However, given the low detection probabilities found in the autumn and winter we would not recommend using either aquatic or sedimentary eDNA for year-round sampling without further refinement and testing of the methods.

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