John Baird scite author profile

Current restoration of stream and lotic freshwater systems to ‘good ecological status’ has focused on the creation of vegetated riparian buffer strips. Yet, despite this constituting a major land‐use change, surprisingly little is known about the effects of these strips on riparian organisms. We investigated the effect that widespread adoption of buffer strips may have on activity density, species diversity, and assemblage composition of ground beetles (Coleoptera, Carabidae). Over 2 years, we sampled carabids from 41 riparian margins within two river catchments in north‐east Scotland. We compared three types of riparian margin: unbuffered (i.e. ‘unimproved’), vegetated buffer strips, and wooded, the latter acting as reference sites. A range of site parameters including characteristics of soil, water, and vegetation were recorded and the extent to which they correlated with ground beetle assemblages was explored. Catchment and treatment effects were detected on ground beetle activity density and species diversity with unbuffered sites showing higher activity density and species richness. The assemblage structure differed according to catchment, treatment, and local characteristics. Multivariate analysis suggested that soil and vegetation parameters and stream width, together with buffer strip age and length were determinants of assemblage structure. Few riparian species were found in large numbers. This study shows that in intensively managed agricultural landscapes riparian buffer strips do not create the quality of habitat required by truly riparian species. They do, however, provide habitat for woodland and stenotopic species and with more careful planning could play a role in increasing habitat heterogeneity at a landscape scale.

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Long‐term changes in ground beetle (Coleoptera: Carabidae) assemblages in Scotland

Pozsgai

Baird

Littlewood

et al. 2015

Ecological Entomology

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1. One‐way, directional changes in both plant and animal associations are likely to be occurring as a result of changing climate. Current knowledge of long‐term cycles in insect communities is scarce, and therefore it is difficult to assess whether the observed changes in insect communities are the first part of a long‐term trend or parts of normal cycles.2. In this study multivariate methods were used to describe the trends in ground beetle (Coleoptera: Carabidae) assemblages over an 18‐year (1994–2011) period at two Scottish sites. In order to have a deeper insight into the underlying processes, both environmental factors and the species driving the detected changes were investigated.3. In four out of the six sample transects, insect community compositions showed trends rather than fluctuating patterns. Hierarchical cluster analysis also revealed a clear separation, after accounting for sampling location and broad habitat, between early and later years of sampling. Decreasing annual maximum temperatures and increasing precipitation were identified as the main environmental drivers. Although increased rainfall was expected to be beneficial for hygrophilous species, in the transects in this study generalist species increased in dominance.4. The increasing importance of generalists, in the communities studied here, underlines the vulnerability of the specialist species and urges greater effort in their conservation. Assemblage changes along different trajectories at the sites in the present study could only be tracked using multivariate methods; commonly used diversity indices proved to be unsatisfactory. Therefore, the exclusive use of simple diversity indices should be discouraged and multivariate methods should be preferred in environmental assessments and conservation planning.

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Interspecific networks in ground beetle (Coleoptera: Carabidae) assemblages

Pozsgai

Baird

Littlewood

et al. 2016

Ecological Indicators

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Reference gene selection and RNA preservation protocol in the cat flea, Ctenocephalides felis, for gene expression studies

et al. 2016

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The cat flea, Ctenocephalides felis, is a major pest species on companion animals thus of significant importance to the animal health industry. The aim of this study was to develop sampling and storage protocols and identify stable reference genes for gene expression studies to fully utilize the growing body of molecular knowledge of C. felis. RNA integrity was assessed in adult and larvae samples, which were either pierced or not pierced and stored in RNAlater at ambient temperature. RNA quality was maintained best in pierced samples, with negligible degradation evident after 10 days. RNA quality from non-pierced samples was poor within 3 days. Ten candidate reference genes were evaluated for their stability across four group comparisons (developmental stages, genders, feeding statuses and insecticide-treatment statuses). Glyceraldehyde 3 phosphate dehydrogenase (GAPDH), 60S ribosomal protein L19 (RPL19) and elongation factor-1α (Ef) were ranked highly in all stability comparisons, thus are recommended as reference genes under similar conditions. Employing just two of these three stable reference genes was sufficient for accurate normalization. Our results make a significant contribution to the future of gene expression studies in C. felis, describing validated sample preparation procedures and reference genes for use in this common pest.

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Phenological changes of the most commonly sampled ground beetle (Coleoptera: Carabidae) species in the UK environmental change network

et al. 2018

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Despite the important roles ground beetles (Coleoptera: Carabidae) play in ecosystems, the highly valued ecosystem services they provide, and ample descriptive documentation of their phenology, the relative impact of various environmental factors on carabid phenology is not well studied. Using the long-term pitfall trap capture data from 12 terrestrial Environmental Change Network (ECN) sites from the UK, we examined how changing climate influenced the phenology of common carabids, and the role particular climate components had on phenological parameters. Of the 28 species included in the analyses, 19 showed earlier start of their activity. This advance was particularly pronounced in the spring, supporting the view that early phenophases have a greater tendency to change and these changes are more directly controlled by temperature than later ones. Autumn activity extended only a few cases, suggesting a photoperiod-driven start of hibernation. No association was found between life-history traits and the ability of species to change their phenology. Air temperatures between April and June were the most important factors determining the start of activity of each species, whilst late season precipitation hastened the cessation of activity. The balance between the advantages and disadvantages of changing phenology on various levels is likely to depend on the species and even on local environmental criteria. The substantially changing phenology of Carabidae may influence their function in ecosystems and the ecosystem services they provide.

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John Baird

Effects of riparian buffer strips on ground beetles (Coleoptera, Carabidae) within an agricultural landscape

Long‐term changes in ground beetle (Coleoptera: Carabidae) assemblages in Scotland

Interspecific networks in ground beetle (Coleoptera: Carabidae) assemblages

Reference gene selection and RNA preservation protocol in the cat flea, Ctenocephalides felis, for gene expression studies

Phenological changes of the most commonly sampled ground beetle (Coleoptera: Carabidae) species in the UK environmental change network

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