https://researchdata.se/en/catalogue Search results en We evaluated 27 candidate plant species for their ability to host functionally important above- and below-ground organisms — pollinators, natural enemies, herbivores, and decomposers — and assessed how the plant traits floral area, timing of peak bloom, life cycle, and plant cover affect these groups. The study was conducted during two years in two sites. Pollinators (hoverflies and wild bees - including bumblebees and solitary bees) were surveyed with visual observations for 60s twice a week while the plot was in bloom. Leaf-dwelling arthropods (predators, parasitic wasps and herbivores) were collected using vacuum sampling (30s in a 1m by 1m quadrat) of the plots with open flowers. As below-ground organisms, nematodes (predators, herbivores and decomposers) were sampled at the end of each survey season taking a composite sample consisting on three samples per plot (2cm diameter, 15cm depth). All data were summed on the plot level per site and year. For the plant traits, floral area and plant cover surveys were recorded weekly in a 1m by 1m quadrat, within 2 days of sampling pollinators and leaf-dwelling arthropods. The timing of peak bloom for each plant species was defined as the average week number between the two consecutive weeks with the highest number of open floral units. The life cycles of the plant species were classified as annual or perennial (perennial and biennial). For further information, see methods in the manuscript Rodríguez-Gasol et al. ’Plant identity determines pollinator, natural enemy, herbivore and decomposer abundances in flower plantings’. Tue, 21 Oct 2025 14:13:45 GMT https://researchdata.se/en/catalogue/dataset/2024-616 https://researchdata.se/en/catalogue/dataset/2024-616 Swedish University of Agricultural Sciences Neus Rodríguez-Gasol Fabian Boetzl Elodie Chapurlat Johan A. Stenberg Mattias Jonsson Ola Lundin Maria Viketoft This study makes part of the research project GINFRA – green rights-of-way infrastructure for biodiversity and ecosystem services. The aim of the project was to quantify whether linear infrastructure habitats (road verges and power-line corridors) support biodiversity by assessing the influence of the area of these habitats in the landscape, their contribution to landscape connectivity and population persistence. The linked data was collected by surveying butterflies, bumblebees, and vascular plants in five types of prevalent grasslands (pastures, road verges along small gravel roads, road verges along big paved roads, power line corridors, and field borders). These grasslands were embedded in 32 landscapes with area 4 km² each, that differed in the area of linear infrastructure habitats (road verges and power line corridors) and semi-natural grasslands of high nature value, while other land-use types were kept constant. The landscapes were dominated by forest. Within each grassland habitat, the surveyor established a 200 m transect and then identified all butterflies and bumblebees along it. For plants, a 1 x 1 m quadrat was established at the centre of a 50 m section in each transect, i.e. each transect had four plots in which all plant species were identified. Denna studie är en del av projektet GINFRA – green rights-of-way infrastructure for biodiversity and ecosystem services. Projektets huvudsyfte var att kvantifiera om linjära infrastrukturmiljöer (vägkanter och kraftledningsgator) bidrar till mångfalden av växter och insekter i olika rumsliga skalor. Detta gjordes genom att uppskatta hur linjära infrastrukturmiljöers mängd i landskapet bidrar till mångfalden samt hur mycket de bidrar till landskapets konnektivitet. Datan samlades genom att inventera dagfjärilar, humlor, och växter i fem typer av gräsmarker (betesmarker, vägrenar längs enskilda vägar, vägrenar längs allmänna vägar, kraftledningsgator, och åkerkanter). Alla dessa habitat typer fanns inom 32 landskap med area 4 km2 som skilde sig i areal av linjära infrastrukturmiljöer (vägrenar och kraftledningsgator) och ängs-och betesmarker. Arealen av andra markanvändningar var konstanta mellan landskap och alla landskap var skogsdominerade. Thu, 04 Apr 2024 09:16:47 GMT https://researchdata.se/en/catalogue/dataset/2023-23-1 https://researchdata.se/en/catalogue/dataset/2023-23-1 Swedish University of Agricultural Sciences Juliana Dániel-Ferreira Yoan Fourcade Riccardo Bommarco Jörgen Wissman Erik Öckinger