Florian Hertenstein scite author profile

Florian Hertenstein

3Publications

33Citation Statements Received

83Citation Statements Given

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Effect of the colour of pitfall traps on their capture efficiency of carabid beetles (Coleoptera: Carabidae), spiders (Araneae) and other arthropods

Buchholz¹,

Jess²,

Hertenstein³

et al. 2010

Eur. J. Entomol.

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Abstract. Pitfall trapping is one of the most commonly used methods of sampling ground-dwelling arthropods. There are many studies on the effect of design of pitfall traps on their capture efficiency but, so far, none on the influence of the colour of the pitfall trap. In this study the abundances of seven invertebrate groups (Apidae, Araneae, Carabidae, Diptera, Formicidae, Isopoda, Vespinae) caught in pitfall traps of different colours (white, yellow, green, brown) at a dense and dry grassland site in Northwestern Germany were determined. White and yellow pitfall traps caught by far the highest numbers of individuals of Apidae, Araneae, Carabidae, Diptera and Formicidae. Isopoda were most abundant in the catches of green and brown traps. Differences among numbers caught were significant for Apidae, Araneae, Carabidae and Diptera. The effect of colour on the catches did not differ significantly between sites. Knowledge of the variation in the catching efficiency of differently coloured pitfall traps is important for designing invertebrate surveys, both from a scientific and ethical point of view.

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The invasion of Bromus erectus alters species diversity of vascular plants and leafhoppers in calcareous grasslands

Poniatowski

Hertenstein²,

Raude³

et al. 2018

Insect Conserv Diversity

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1. The most common mechanism of biological invasions is an increase in competition, which usually results in the loss of biodiversity. The invasion of Bromus erectus (Syn. Bromopsis erecta) in calcareous grasslands of western and central Europe is well-documented. Although, it is largely unknown to what extent this development affects biodiversity.2. In this study, we analysed the effects of B. erectus invasion on vascular plant and leafhopper assemblages of calcareous grasslands. At each of the 15 randomly selected sites, we compared one plot with stands of Bromus (presence) and one without (absence) (paired sampling design).3. The invasion of B. erectus affected vegetation structure as well as vascular plant and leafhopper assemblages. Despite similar abiotic site characteristics, Bromus plots had a higher turf height, vegetation density, and litter cover. Additionally, we recorded a much lower species richness in Bromus plots than in absence plots in all analysed groups of vascular plants. A similar pattern was found for leafhoppers. Absence plots exhibited a higher species richness of habitat and diet specialists than Bromus plots. The overall abundance of all leafhopper species was highest in presence plots, whereas that of diet specialists peaked in absence plots.4. We conclude that the ongoing invasion of B. erectus will lead to a strong structural homogenisation with negative effects on plant and insect diversity. One possible management tool might be a goal-driven rough grazing with sheep especially in spring when B. erectus is much more palatable than in summer and autumn.

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Die schuldrechtliche Regelungsbefugnis der Tarifvertragsparteien

Hertenstein¹

2017

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