Publications by authors named "Marina G Krivosheina"
Direct trophic links between aboveground and belowground animal communities are rarely considered in food web models. Most invertebrate animals inhabiting aboveground space eventually become prey of soil predators and scavengers forming a gravity-driven spatial subsidy to detrital food webs, but its importance remains unquantified. We used laboratory-grown N-labeled Collembola to trace the incorporation of arthropod rain into soil food webs.
View Article and Find Full Text PDFMycorrhizal fungi represent a potentially abundant carbon resource for soil animals, but their role in soil food webs remains poorly understood. To detect taxa that are trophically linked to the extraradical mycelium of mycorrhizal fungi, we used stable isotope (C) labelling of whole trees in combination with the in-growth mesh bag technique in two coniferous forests. This allowed us to detect the flux of carbon in the mycelium of mycorrhizal fungi, and consequently in the tissues of soil invertebrates.
View Article and Find Full Text PDFArticle Synopsis
- - The study explores "arthropod rain," which consists of invertebrates falling from the forest canopy to the ground, and its significance as a food source for other organisms in the litter layer.
- - Measurements showed that arthropod rain invertebrates had lower stable carbon (C) and nitrogen (N) isotopes than soil-dwelling animals, indicating their unique contribution to detrital food webs.
- - The differences in isotopic composition were mainly influenced by wingless arthropods like Collembola and aphids, while winged insects had isotopic profiles similar to those in the soil, suggesting a diverse source for these organisms in the ecosystem.