Your search keyword '"Traugott, Michael"' showing total 60 results

51. Correction to: Molecular analysis indicates high levels of carabid weed seed consumption in cereal fields across Central Europe.

Author

Frei, Britta, Guenay, Yasemin, Bohan, David A., Traugott, Michael, and Wallinger, Corinna

Subjects

*WEED seeds, *CAPILLARY electrophoresis

Abstract

Error: All PCR products were analysed using the QIAxcel capillary electrophoresis system (Qiagen) as described in Wallinger et al. (2015), with the exception that the method AM3201 was used. This should be changed to: The 10 µl reactions contained 2.5 µl DNA extract, 0.5 µl BSA (10 mg/ml), 5 µl 2xKAPA2G (KAPA Biosystems, Wilmington, MA, USA), 1 µl PCR-grade water and 1 µl primer mix in their respective concentrations (Table 1). 2. [Extracted from the article]

Published

2022

52. Molecular prey identification in Central European piscivores.

Author

Thalinger, Bettina, Oehm, Johannes, Mayr, Hannes, Obwexer, Armin, Zeisler, Christiane, and Traugott, Michael

Subjects

*ALCEDO atthis, *LUTRA lutra, *MOLECULAR biology, *PHALACROCORAX carbo sinensis, *PISCIVOROUS birds, *FOOD chains

Abstract

Diet analysis is an important aspect when investigating the ecology of fish-eating animals and essential for assessing their functional role in food webs across aquatic and terrestrial ecosystems. The identification of fish remains in dietary samples, however, can be time-consuming and unsatisfying using conventional morphological analysis of prey remains. Here, we present a two-step multiplex PCR system, comprised of six assays, allowing for rapid, sensitive and specific detection of fish DNA in dietary samples. This approach encompasses 78 fish and lamprey species native to Central European freshwaters and enables the identification of 31 species, six genera, two families, two orders and two fish family clusters. All targeted taxa were successfully amplified from 25 template molecules, and each assay was specific when tested against a wide range of invertebrates and vertebrates inhabiting aquatic environments. The applicability of the multiplex PCR system was evaluated in a feeding trial, wherein it outperformed morphological prey analysis regarding species-specific prey identification in faeces of Eurasian otters. Additionally, a wide spectrum of fish species was detected in field-collected faecal samples and regurgitated pellets of Common Kingfishers and Great Cormorants, demonstrating the broad applicability of the approach. In conclusion, this multiplex PCR system provides an efficient, easy to use and cost-effective tool for assessing the trophic ecology of piscivores in Central Europe. Furthermore, the multiplex PCRs and the primers described therein will be applicable wherever DNA of the targeted fish species needs to be detected at high sensitivity and specificity. [ABSTRACT FROM AUTHOR]

Published

2016

53. Additive effects of predator diversity on pest control caused by few interactions among predator species.

Author

ROUBINET, EVE, STRAUB, CORY, JONSSON, TOMAS, STAUDACHER, KARIN, TRAUGOTT, MICHAEL, EKBOM, BARBARA, and JONSSON, MATTIAS

Subjects

*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]

Published

2015

54. Sparing spiders: faeces as a non-invasive source of DNA.

Author

Sint, Daniela, Thurner, Isabella, Kaufmann, Ruediger, and Traugott, Michael

Subjects

*ARACHNIDA, *SPIDERS, *DEOXYRIBOSE, *DNA, *NUCLEIC acids

Abstract

Introduction: Spiders are important arthropod predators in many terrestrial ecosystems, and molecular tools have boosted our ability to investigate this taxon, which can be difficult to study with conventional methods. Nonetheless, it has typically been necessary to kill spiders to obtain their DNA for molecular applications, especially when studying their diet. Results: We successfully tested the novel approach of employing spider faeces as a non-invasive source of DNA for species identification and diet analysis. Although the overall concentration of DNA in the samples was very low, consumer DNA, suitable for species identification, was amplified from 84% of the faecal pellets collected from lycosid spiders. Moreover, the most important prey types detected in the gut content of the lycosids were also amplified from the faecal samples. Conclusion: The ability to amplify DNA from spider faeces with specific and general primers suggests that this sample type can be used for diagnostic PCR and sequence-based species and prey identification such as DNA barcoding and next generation sequencing, respectively. These findings demonstrate that faeces provide a non-invasive alternative to full-body DNA extracts for molecular studies on spiders when killing or injuring the animal is not an option. [ABSTRACT FROM AUTHOR]

Published

2015

55. Sparing spiders: faeces as a non-invasive source of DNA.

Author

Sint, Daniela, Thurner, Isabella, Kaufmann, Ruediger, and Traugott, Michael

Subjects

*SPIDERS, *ARTHROPODA, *GENETIC barcoding, *DIET research, *WOLF spiders, *NUCLEIC acid isolation methods

Abstract

Introduction Spiders are important arthropod predators in many terrestrial ecosystems, and molecular tools have boosted our ability to investigate this taxon, which can be difficult to study with conventional methods. Nonetheless, it has typically been necessary to kill spiders to obtain their DNA for molecular applications, especially when studying their diet. Results We successfully tested the novel approach of employing spider faeces as a non-invasive source of DNA for species identification and diet analysis. Although the overall concentration of DNA in the samples was very low, consumer DNA, suitable for species identification, was amplified from 84% of the faecal pellets collected from lycosid spiders. Moreover, the most important prey types detected in the gut content of the lycosids were also amplified from the faecal samples. Conclusion The ability to amplify DNA from spider faeces with specific and general primers suggests that this sample type can be used for diagnostic PCR and sequence-based species and prey identification such as DNA barcoding and next generation sequencing, respectively. These findings demonstrate that faeces provide a non-invasive alternative to full-body DNA extracts for molecular studies on spiders when killing or injuring the animal is not an option. [ABSTRACT FROM AUTHOR]

Published

2015

56. Group-Specific Multiplex PCR Detection Systems for the Identification of Flying Insect Prey.

Author

Sint, Daniela, Niederklapfer, Bettina, Kaufmann, Ruediger, and Traugott, Michael

Subjects

*POLYMERASE chain reaction, *PREDATION, *INSECT ecology, *INSECT feeding & feeds, *DNA fingerprinting of insects, *AQUATIC habitats

Abstract

The applicability of species-specific primers to study feeding interactions is restricted to those ecosystems where the targeted prey species occur. Therefore, group-specific primer pairs, targeting higher taxonomic levels, are often desired to investigate interactions in a range of habitats that do not share the same species but the same groups of prey. Such primers are also valuable to study the diet of generalist predators when next generation sequencing approaches cannot be applied beneficially. Moreover, due to the large range of prey consumed by generalists, it is impossible to investigate the breadth of their diet with species-specific primers, even if multiplexing them. However, only few group-specific primers are available to date and important groups of prey such as flying insects have rarely been targeted. Our aim was to fill this gap and develop group-specific primers suitable to detect and identify the DNA of common taxa of flying insects. The primers were combined in two multiplex PCR systems, which allow a time- and cost-effective screening of samples for DNA of the dipteran subsection Calyptratae (including Anthomyiidae, Calliphoridae, Muscidae), other common dipteran families (Phoridae, Syrphidae, Bibionidae, Chironomidae, Sciaridae, Tipulidae), three orders of flying insects (Hymenoptera, Lepidoptera, Plecoptera) and coniferous aphids within the genus Cinara. The two PCR assays were highly specific and sensitive and their suitability to detect prey was confirmed by testing field-collected dietary samples from arthropods and vertebrates. The PCR assays presented here allow targeting prey at higher taxonomic levels such as family or order and therefore improve our ability to assess (trophic) interactions with flying insects in terrestrial and aquatic habitats. [ABSTRACT FROM AUTHOR]

Published

2014

57. Intraguild predation in pioneer predator communities of alpine glacier forelands.

Author

Raso, Lorna, Sint, Daniela, Mayer, Rebecca, Plangg, Simon, Recheis, Thomas, Brunner, Silvia, Kaufmann, Rüdiger, and Traugott, Michael

Subjects

*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

58. How generalist herbivores exploit belowground plant diversity in temperate grasslands.

Author

Wallinger, Corinna, Staudacher, Karin, Schallhart, Nikolaus, Mitterrutzner, Evi, Steiner, Eva‐Maria, Juen, Anita, and Traugott, Michael

Subjects

*HERBIVORES, *PLANT communities, *FOOD chains, *AGRIOTES, *BEETLES, *GRASSLANDS, *ECOLOGY

Abstract

Belowground herbivores impact plant performance, thereby inducing changes in plant community composition, which potentially leads to cascading effects onto higher trophic levels and ecosystem processes and productivity. Among soil-living insects, external root-chewing generalist herbivores have the strongest impact on plants. However, the lack of knowledge on their feeding behaviour under field conditions considerably hampers achieving a comprehensive understanding of how they affect plant communities. Here, we address this gap of knowledge by investigating the feeding behaviour of Agriotes click beetle larvae, which are common generalist external root-chewers in temperate grassland soils. Utilizing diagnostic multiplex PCR to assess the larval diet, we examined the seasonal patterns in feeding activity, putative preferences for specific plant taxa, and whether species identity and larval instar affect food choices of the herbivores. Contrary to our hypothesis, most of the larvae were feeding-active throughout the entire vegetation period, indicating that the grassland plants are subjected to constant belowground feeding pressure. Feeding was selective, with members of Plantaginaceae and Asteraceae being preferred; Apiaceae were avoided. Poaceae, although assumed to be most preferred, had an intermediate position. The food preferences exhibited seasonal changes, indicating a fluctuation in plant traits important for wireworm feeding choice. Species- and instar-specific differences in dietary choice of the Agriotes larvae were small, suggesting that species and larval instars occupy the same trophic niche. According to the current findings, the food choice of these larvae is primarily driven by plant identity, exhibiting seasonal changes. This needs to be considered when analysing soil herbivore-plant interactions. [ABSTRACT FROM AUTHOR]

Published

2014

59. Molecular Identification of Adult and Juvenile Linyphiid and Theridiid Spiders in Alpine Glacier Foreland Communities.

Author

Raso, Lorna, Sint, Daniela, Rief, Alexander, Kaufmann, Rüdiger, and Traugott, Michael

Subjects

*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

60. The resilience of weed seedbank regulation by carabid beetles, at continental scales, to alternative prey.

Author

Carbonne, Benjamin, Petit, Sandrine, Neidel, Veronika, Foffova, Hana, Daouti, Eirini, Frei, Britta, Skuhrovec, Jiří, Řezáč, Milan, Saska, Pavel, Wallinger, Corinna, Traugott, Michael, and Bohan, David A.

Subjects

*GROUND beetles, *PREDATORY animals, *ECOSYSTEMS, *PHYSIOLOGICAL control systems

Abstract

Carabids are generalist predators that contribute to the agricultural ecosystem service of seedbank regulation via weed seed predation. To facilitate adoption of this ecosystem services by farmers, knowledge of weed seed predation and the resilience of seedbank regulation with co-varying availability of alternative prey is crucial. Using assessments of the seedbank and predation on seed cards in 57 cereal fields across Europe, we demonstrate a regulatory effect on the soil seedbank, at a continental scale, by groups formed of omnivore, seed-eating (granivore + omnivore) and all species of carabids just prior to the crop-harvest. Regulation was associated with a positive relationship between the activity-density of carabids and seed predation, as measured on seed cards. We found that per capita seed consumption on the cards co-varied negatively with the biomass of alternative prey, i.e. Aphididae, Collembola and total alternative prey biomass. Our results underline the importance of weed seedbank regulation by carabids, across geographically significant scales, and indicate that the effectiveness of this biocontrol may depend on the availability of alternative prey that disrupt the weed seed predation. [ABSTRACT FROM AUTHOR]

Published

2020