16 results on '"Traugott, Michael"'
Search Results
2. A simple and cost-effective molecular method to track predation on Drosophila suzukii in the field
- Author
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Wolf, Sarah, Zeisler, Christiane, Sint, Daniela, Romeis, Jörg, Traugott, Michael, and Collatz, Jana
- Published
- 2018
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3. Secondary predation by omnivores: Cereal aphid consumption bears no risk of misinterpretation in DNA‐based diet analysis.
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Neidel, Veronika, Wallinger, Corinna, and Traugott, Michael
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PLANT DNA ,APHIDS ,OMNIVORES ,PREDATION ,GROUND beetles ,DNA primers ,GRAIN - Abstract
Many omnivorous arthropods act as important pest control agents in agroecosystems. Assessing their prey choices helps to better understand their biocontrol potential in different environmental settings. To this end, multi‐target approaches of molecular gut content analysis allow studying their prey choices. Yet, DNA‐based analysis of trophic interactions is challenged by the question of whether the detected food DNA was ingested primarily as direct prey, or secondarily via the gut content of a consumed animal. Experimental data are needed to understand the potential bias derived through secondary predation. Here we address this issue for a phloem‐feeding aphid consumed by omnivorous carabids. In feeding experiments, Pseudoophonus rufipes beetles were offered grain aphids Sitobion avenae as primary prey, which had fed on barley seedlings. Gut content samples of carabids collected after 0, 3, 9, 12, 24, 32 or 64 h of digestion time and whole‐body aphids were screened for the presence of aphid and plant DNA. Samples positive for plant DNA were subsequently tested with Poaceae‐specific primers. None of the 7.8% gut content samples that tested positive for general plant DNA amplified with the Poaceae primers. Moreover, none of the whole‐body extracted aphids tested positive for plant DNA, neither with general nor with family‐specific primers. We, therefore, conclude that the plant DNA detections in our experiment can be ascribed to remnants of plant material in the guts of the field‐collected carabids. Our findings demonstrate that these phloem‐feeding aphids are an unlikely cause of false trophic link assignment because no secondarily consumed plant DNA, derived either from aphid gut content or host‐plant environmental DNA on aphid bodies, could be detected in carabid gut content samples. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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4. Habitat heterogeneity induces rapid changes in the feeding behaviour of generalist arthropod predators
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Staudacher, Karin, Rennstam Rubbmark, Oskar, Birkhofer, Klaus, Malsher, Gerard, Sint, Daniela, Jonsson, Mattias, and Traugott, Michael
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Community Ecology ,food webs ,fungi ,molecular diet analysis ,specialization index ,habitat complexity ,Research Article ,habitat microstructure ,trophic interactions - Abstract
The “habitat heterogeneity hypothesis” predicts positive effects of structural complexity on species coexistence. Increasing habitat heterogeneity can change the diversity (number of species, abundances) and the functional roles of communities. The latter, however, is not well understood as species and individuals may respond very differently and dynamically to a changing environment.Here, we experimentally test how habitat heterogeneity affects generalist arthropod predators, including epigaeic spiders, carabid and staphylinid beetles, under natural conditions by assessing their diversity and directly measuring their trophic interactions (which provide a proxy for their functional roles). The experiment was conducted in spring barley fields in Southern Sweden where habitat heterogeneity was manipulated by increasing within‐field plant diversity.Increased habitat heterogeneity triggered rapid changes in the feeding behaviour of generalist predators characterized by lower trophic specialization at both network (H2’, degree of interaction specialization in the entire network) and species level (d’, degree of interaction specialization at the species level). We presume that this is because spatial separation resulted in relaxed competition and allowed an increased overlap in resources used among predator species. Predators collected from heterogenous habitats also showed greater individual‐level dietary variability which might be ascribed to relaxed intraspecific competition.Our results provide conclusive evidence that habitat heterogeneity can induce rapid behavioural responses independent of changes in diversity, potentially promoting the stability of ecosystem functions. A plain language summary is available for this article.
- Published
- 2018
5. A multiplex PCR assay for detecting slug species common in European arable land in the diet of carabid beetles.
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Guenay-Greunke, Yasemin, Bohan, David A., Traugott, Michael, and Wallinger, Corinna
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CYTOCHROME oxidase ,GROUND beetles ,ARABLE land ,RIBOSOMAL RNA ,BIOLOGICAL pest control agents ,POLYMERASE chain reaction - Abstract
DNA-based diet analysis of natural enemies is a valuable tool for unravelling the food choice of predators in agroecosystems. It enables the rapid identification of potential biocontrol agents of invertebrate pests. Here, we present a new multiplex PCR system for the identification of pest slug species in the diet of their natural enemies such as carabid beetles. It comprises three species-specific primers targeting the mitochondrial cytochrome c oxidase subunit I (COI) gene to detect DNA of the common garden slug, Arion distinctus (Stylommatophora: Arionidae), the Iberian slug, Arion lusitanicus (Stylommatophora: Arionidae) and the grey field slug Deroceras reticulatum (Stylommatophora: Agriolimacidae). We also include (super)family-specific primers for Arionidae and Limacoidea, which amplify parts of the 28S gene for ribosomal RNA (rRNA) in order to identify a wider range of slugs. The amplicons for Arionidae can be assigned to a total of seven Central European slug species of this family and the amplicons for Limacoidea to ten species. The multiplex assay showed high specificity against DNA extracts of field-collected slugs and co-occurring invertebrates. The assay also exhibited high sensitivity, which was confirmed by testing it with 223 dietary samples from field-collected carabids as potential natural enemies of slugs in agroecosystems. This methodology represents a new, cost-effective, highly sensitive and specific approach for the identification of common Central European slug species as well as for analysing trophic interactions to identify natural enemies for further biological control development. It can also be applied in any study where a rapid and reliable identification of slugs is needed. [ABSTRACT FROM AUTHOR]
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- 2022
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6. When to use next generation sequencing or diagnostic PCR in diet analyses.
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Rennstam Rubbmark, Oskar, Sint, Daniela, Cupic, Sandra, and Traugott, Michael
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DIET ,NUCLEOTIDE sequencing ,DIAGNOSTIC use of polymerase chain reaction ,GENETIC barcoding ,FOOD chains - Abstract
Next‐generation sequencing (NGS) is increasingly used for diet analyses; however, it may not always describe diet samples well. A reason for this is that diet samples contain mixtures of food DNA in different amounts as well as consumer DNA which can reduce the food DNA characterized. Because of this, detections will depend on the relative amount and identity of each type of DNA. For such samples, diagnostic PCR will most likely give more reliable results, as detection probability is only marginally dependent on other copresent DNA. We investigated the reliability of each method to test (a) whether predatory beetle regurgitates, supposed to be low in consumer DNA, allow to retrieve prey sequences using general barcoding primers that co‐amplify the consumer DNA, and (b) to assess the sequencing depth or replication needed for NGS and diagnostic PCR to give stable results. When consumer DNA is co‐amplified, NGS is better suited to discover the range of possible prey, than for comparing co‐occurrences of diet species between samples, as retested samples were repeatedly different in prey detections with this approach. This shows that samples were incompletely described, as prey detected by diagnostic PCR frequently were missed by NGS. As the sequencing depth needed to reliably describe the diet in such samples becomes very high, the cost‐efficiency and reliability of diagnostic PCR make diagnostic PCR better suited for testing large sample‐sets. Especially if the targeted prey taxa are thought to be of ecological importance, as diagnostic PCR gave more nested and consistent results in repeated testing of the same sample. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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7. Resolving the predator first paradox: Arthropod predator food webs in pioneer sites of glacier forelands.
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Sint, Daniela, Kaufmann, Ruediger, Mayer, Rebecca, and Traugott, Michael
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PREDATORY insects ,GROUND beetles ,WOLF spiders ,LINYPHIIDAE ,GLACIERS ,PREDATION - Abstract
Primary succession on bare ground surrounded by intact ecosystems is, during its first stages, characterized by predator‐dominated arthropod communities. However, little is known on what prey sustains these predators at the start of succession and which factors drive the structure of these food webs. As prey availability can be extremely patchy and episodic in pioneer stages, trophic networks might be highly variable. Moreover, the importance of allochthonous versus autochthonous food sources for these pioneer predators is mostly unknown. To answer these questions, the gut content of 1,832 arthropod predators, including four species of carabid beetles, two lycosid and several linyphiid spider species caught in early and late pioneer stages of three glacier forelands, was screened molecularly to track intraguild and extraguild trophic interactions among all major prey groups occurring in these systems. Two‐thirds of the 2,310 identified food detections were collembolans and intraguild prey, while one‐third were allochthonous flying insects. Predator identity and not successional stage or valley had by far the strongest impact on the trophic interaction patterns. Still, the variability of prey spectra increased significantly from early to late pioneer stage, as did the niche width of the predators. As such the structure of pioneer arthropod food webs in recently deglaciated Alpine habitats seems to be driven foremost by predator identity while site and early successional effects contribute to a lesser extent to food web variability. Our findings also suggest that in these pioneer sites, predatory arthropods depend less on allochthonous aeolian prey but are mainly sustained by prey of local production. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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8. Comparing three types of dietary samples for prey DNA decay in an insect generalist predator.
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Kamenova, Stefaniya, Plantegenest, Manuel, Mayer, Rebecca, Rubbmark, Oskar R., Traugott, Michael, and Coissac, Eric
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DNA damage ,INVERTEBRATE behavior ,PREDATORY animals ,GROUND beetles ,TENEBRIO molitor - Abstract
Abstract: The rapidly growing field of molecular diet analysis is becoming increasingly popular among ecologists, especially when investigating methodologically challenging groups, such as invertebrate generalist predators. Prey DNA detection success is known to be affected by multiple factors; however, the type of dietary sample has rarely been considered. Here, we address this knowledge gap by comparing prey DNA detection success from three types of dietary samples. In a controlled feeding experiment, using the carabid beetle Pterostichus melanarius as a model predator, we collected regurgitates, faeces and whole consumers (including their gut contents) at different time points postfeeding. All dietary samples were analysed using multiplex PCR, targeting three different length DNA fragments (128, 332 and 612 bp). Our results show that both the type of dietary sample and the size of the DNA fragment contribute to a significant part of the variation found in the detectability of prey DNA. Specifically, we observed that in both regurgitates and whole consumers, prey DNA was detectable significantly longer for all fragment sizes than for faeces. Based on these observations, we conclude that prey DNA detected from regurgitates and whole consumers DNA extracts are comparable, whereas prey DNA detected from faeces, though still sufficiently reliable for ecological studies, will not be directly comparable to the former. Therefore, regurgitates and faeces constitute a useful, nonlethal source for dietary information that could be applied to field studies in situations when invertebrate predators should not be killed. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
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9. Evaluation of an automated protocol for efficient and reliable DNA extraction of dietary samples.
- Author
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Wallinger, Corinna, Staudacher, Karin, Sint, Daniela, Thalinger, Bettina, Oehm, Johannes, Juen, Anita, and Traugott, Michael
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NUCLEIC acid isolation methods ,NUCLEOTIDE sequencing ,POLYMERASE chain reaction ,CETYLTRIMETHYLAMMONIUM bromide ,INVERTEBRATES - Abstract
Molecular techniques have become an important tool to empirically assess feeding interactions. The increased usage of next-generation sequencing approaches has stressed the need of fast DNA extraction that does not compromise DNA quality. Dietary samples here pose a particular challenge, as these demand high-quality DNA extraction procedures for obtaining the minute quantities of short-fragmented food DNA. Automatic high-throughput procedures significantly decrease time and costs and allow for standardization of extracting total DNA. However, these approaches have not yet been evaluated for dietary samples. We tested the efficiency of an automatic DNA extraction platform and a traditional CTAB protocol, employing a variety of dietary samples including invertebrate whole-body extracts as well as invertebrate and vertebrate gut content samples and feces. Extraction efficacy was quantified using the proportions of successful PCR amplifications of both total and prey DNA, and cost was estimated in terms of time and material expense. For extraction of total DNA, the automated platform performed better for both invertebrate and vertebrate samples. This was also true for prey detection in vertebrate samples. For the dietary analysis in invertebrates, there is still room for improvement when using the high-throughput system for optimal DNA yields. Overall, the automated DNA extraction system turned out as a promising alternative to labor-intensive, low-throughput manual extraction methods such as CTAB. It is opening up the opportunity for an extensive use of this cost-efficient and innovative methodology at low contamination risk also in trophic ecology. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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10. Trophic and Non-Trophic Interactions in a Biodiversity Experiment Assessed by Next-Generation Sequencing.
- Author
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Tiede, Julia, Wemheuer, Bernd, Traugott, Michael, Daniel, Rolf, Tscharntke, Teja, Ebeling, Anne, and Scherber, Christoph
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BIODIVERSITY ,NUCLEOTIDE sequencing ,PLANT diversity ,GROUND beetles ,EUKARYOTES ,DNA primers - Abstract
Plant diversity affects species richness and abundance of taxa at higher trophic levels. However, plant diversity effects on omnivores (feeding on multiple trophic levels) and their trophic and non-trophic interactions are not yet studied because appropriate methods were lacking. A promising approach is the DNA-based analysis of gut contents using next generation sequencing (NGS) technologies. Here, we integrate NGS-based analysis into the framework of a biodiversity experiment where plant taxonomic and functional diversity were manipulated to directly assess environmental interactions involving the omnivorous ground beetle Pterostichus melanarius. Beetle regurgitates were used for NGS-based analysis with universal 18S rDNA primers for eukaryotes. We detected a wide range of taxa with the NGS approach in regurgitates, including organisms representing trophic, phoretic, parasitic, and neutral interactions with P. melanarius. Our findings suggest that the frequency of (i) trophic interactions increased with plant diversity and vegetation cover; (ii) intraguild predation increased with vegetation cover, and (iii) neutral interactions with organisms such as fungi and protists increased with vegetation cover. Experimentally manipulated plant diversity likely affects multitrophic interactions involving omnivorous consumers. Our study therefore shows that trophic and non-trophic interactions can be assessed via NGS to address fundamental questions in biodiversity research. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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11. Additive effects of predator diversity on pest control caused by few interactions among predator species.
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ROUBINET, EVE, STRAUB, CORY, JONSSON, TOMAS, STAUDACHER, KARIN, TRAUGOTT, MICHAEL, EKBOM, BARBARA, and JONSSON, MATTIAS
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GENETIC speciation ,PREDATION ,BIODIVERSITY ,BIOLOGICAL classification ,PEST control - Abstract
1. Studies of the impact of predator diversity on biological pest control have shown idiosyncratic results. This is often assumed to be as a result of differences among systems in the importance of predator-predator interactions such as facilitation and intraguild predation. The frequency of such interactions may be altered by prey availability and structural complexity. A direct assessment of interactions among predators is needed for a better understanding of the mechanisms affecting prey abundance by complex predator communities. 2. In a field cage experiment, the effect of increased predator diversity (single species vs. three-species assemblage) and the presence of weeds (providing structural complexity) on the biological control of cereal aphids were tested and the mechanisms involved were investigated using molecular gut content analysis. 3. The impact of the three-predator species assemblages of aphid populations was found to be similar to those of the single-predator species treatments, and the presence or absence of weeds did not alter the patterns observed. This suggests that both predator facilitation and intraguild predation were absent or weak in this system, or that these interactions had counteracting effects on prey suppression. Molecular gut content analysis of predators provided little evidence for the latter hypothesis: predator facilitation was not detected and intraguild predation occurred at a low frequency. 4. The present study suggests additive effects of predators and, therefore, that predator diversity per se neither strengthens nor weakens the biological control of aphids in this system. [ABSTRACT FROM AUTHOR]
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- 2015
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12. Intraguild predation in pioneer predator communities of alpine glacier forelands.
- Author
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Raso, Lorna, Sint, Daniela, Mayer, Rebecca, Plangg, Simon, Recheis, Thomas, Brunner, Silvia, Kaufmann, Rüdiger, and Traugott, Michael
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ARTHROPODA ,PREDATION ,GROUND beetles ,WOLF spiders ,COLLEMBOLA ,ALPINE glaciers - Abstract
Pioneer communities establishing themselves in the barren terrain in front of glacier forelands consist principally of predator species such as carabid beetles and lycosid spiders. The fact that so many different predators can co-inhabit an area with no apparent primary production was initially explained by allochthonous material deposited in these forelands. However, whether these populations can be sustained on allochthonous material alone is questionable and recent studies point towards this assumption to be flawed. Intraguild predation ( IGP) might play an important role in these pioneer predator assemblages, especially in the very early successional stages where other prey is scarce. Here, we investigated IGP between the main predator species and their consumption of Collembola, an important autochthonous alternative prey, within a glacier foreland in the Ötztal ( Austrian Alps). Multiplex PCR and stable isotope analysis were used to characterize the trophic niches in an early and late pioneer stage over 2 years. Results showed that intraguild prey was consumed by all invertebrate predators, particularly the larger carabid species. Contrary to our initial hypothesis, the DNA detection frequency of IGP prey was not significantly higher in early than in late pioneer stage, which was corroborated by the stable isotope analysis. Collembola were the most frequently detected prey in all of the predators, and the overall prey DNA detection patterns were consistent between years. Our findings show that IGP appears as a constant in these pioneer predator communities and that it remains unaffected by successional changes. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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13. Molecular Identification of Adult and Juvenile Linyphiid and Theridiid Spiders in Alpine Glacier Foreland Communities.
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Raso, Lorna, Sint, Daniela, Rief, Alexander, Kaufmann, Rüdiger, and Traugott, Michael
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LINYPHIIDAE ,COBWEB weavers ,ANIMAL young ,IDENTIFICATION of animals ,INVERTEBRATES ,MOUNTAIN animals ,GENETIC techniques - Abstract
In glacier forelands spiders constitute a large proportion of the invertebrate community. Therefore, it is important to be able to determine the species that can be found in these areas. Linyphiid and theridiid spider identification is currently not possible in juvenile specimens using traditional morphological based methods, however, a large proportion of the population in these areas are usually juveniles. Molecular methods permit identification of species at different life stages, making juvenile identification possible. In this study we tested a molecular tool to identify the 10 most common species of Linyphiidae and Theridiidae found in three glacier foreland communities of the Austrian Alps. Two multiplex PCR systems were developed and over 90% of the 753 field-collected spiders were identified successfully. The species targeted were found to be common in all three valleys during the summer of 2010. A comparison between the molecular and morphological data showed that although there was a slight difference in the results, the overall outcome was the same independently of the identification method used. We believe the quick and reliable identification of the spiders via the multiplex PCR assays developed here will aid the study of these families in Alpine habitats. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
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14. Advances in multiplex PCR: balancing primer efficiencies and improving detection success.
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Sint, Daniela, Raso, Lorna, and Traugott, Michael
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POLYMERASE chain reaction ,BIOLOGICAL research ,DNA ,GENOMES ,POPULATION genetics ,THERMOCYCLING - Abstract
1. Multiplex PCR is a valuable tool in many biological studies but it is a multifaceted procedure that has to be planned and optimised thoroughly to achieve robust and meaningful results. In particular, primer concentrations have to be adjusted to assure an even amplification of all targeted DNA fragments. Until now, total DNA extracts were used for balancing primer efficiencies; however, the applicability for comparisons between taxa or different multiple-copy genes was limited owing to the unknown number of template molecules present per total DNA. 2. Based on a multiplex system developed to track trophic interactions in high Alpine arthropods, we demonstrate a fast and easy way of generating standardised DNA templates. These were then used to balance the amplification success for the different targets and to subsequently determine the sensitivity of each primer pair in the multiplex PCR. 3. In the current multiplex assay, this approach led to an even amplification success for all seven targeted DNA fragments. Using this balanced multiplex PCR, methodological bias owing to variation in primer efficiency will be avoided when analysing field-derived samples. 4. The approach outlined here allows comparing multiplex PCR sensitivity, independent of the investigated species, genome size or the targeted genes. The application of standardised DNA templates not only makes it possible to optimise primer efficiency within a given multiplex PCR, but it also offers to adjust and/or to compare the sensitivity between different assays. Along with other factors that influence the success of multiplex reactions, and which we discuss here in relation to the presented detection system, the adoption of this approach will allow for direct comparison of multiplex PCR data between systems and studies, enhancing the utility of this assay type. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
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15. DNA-based analysis of regurgitates: a noninvasive approach to examine the diet of invertebrate consumers.
- Author
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WALDNER, THOMAS and TRAUGOTT, MICHAEL
- Subjects
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INVERTEBRATES -- Food , *QUANTITATIVE research , *BEETLES , *RHIZOTROGUS , *FOOD chains , *NONINVASIVE diagnostic tests , *DIAGNOSTIC use of polymerase chain reaction - Abstract
DNA-based gut content analysis has become an important tool for unravelling feeding interactions in invertebrate communities under natural conditions. It usually implies killing of the consumer and extracting the DNA from its food, using either the whole animal or its dissected gut. This post-mortem approach, however, is not suitable for investigating the diet of rare or protected species and also prohibits tracking individual dietary preferences as each consumer can provide trophic information only once. Moreover, removing large numbers of consumers from a habitat for analysis might critically change population densities and affect species interactions. Here, we present DNA-based analysis of invertebrate regurgitates, a novel approach to overcome these limitations. Conducting feeding experiments where adult Poecilus cupreus (Coleoptera: Carabidae) were fed with larvae of Amphimallon solstitiale (Coleoptera: Scarabaeidae), we show that detection success in regurgitates compared to samples prepared from whole beetles was similar or significantly enhanced for small/medium and large prey DNA fragments, respectively. Prey DNA detection success remained high in regurgitates stored in ethanol for 21 months at room temperature prior to DNA extraction. We conclude that in those invertebrates where regurgitates can be obtained, examination of food DNA in regurgitates offers many advantages over conventional post-mortem gut content analysis. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
16. Molecular scatology: how to improve prey DNA detection success in avian faeces?
- Author
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OEHM, JOHANNES, JUEN, ANITA, NAGILLER, KARIN, NEUHAUSER, SIGRID, and TRAUGOTT, MICHAEL
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BIRD droppings ,BIRD food ,CARRION crow ,COCKCHAFERS ,DNA fingerprinting ,DNA ,SCATOLOGY - Abstract
The analysis of prey DNA in faeces is a non-invasive approach to examine the diet of birds. However, it is poorly known how gut transition time, environmental factors and laboratory treatments such as storage conditions or DNA extraction procedures affect the detection success of prey DNA. Here, we examined several of these factors using faeces from carrion crows fed with insect larvae. Faeces produced between 30 min and 4 h post-feeding tested positive for insect DNA, representing the gut transition time. Prey detection was not only possible in fresh but also in 5-day-old faeces. The type of surface the faeces were placed on for these 5 days, however, affected prey DNA detection success: samples placed on soil provided the lowest rate of positives compared to faeces left on leaves, on branches and within plastic tubes. Exposing faeces to sunlight and rain significantly lowered prey DNA detection rates (17% and 68% positives in exposed and protected samples, respectively). Storing faeces in ethanol or in the freezer did not affect molecular prey detection. Extracting DNA directly from larger pieces of faecal pellets resulted in significantly higher prey detection rates than when using small amounts of homogenized faeces. A cetyltrimethyl ammonium bromide-based DNA extraction protocol yielded significantly higher DNA detection rates (60%) than three commercial kits, however, for small amounts of homogenized faeces only. Our results suggest that collecting faeces from smooth, clean and non-absorbing surfaces, protected from sunlight and rain, improves DNA detection success in avian faeces. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
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