Monday, March 02, 2020

The flower strip at Fockensteinstraße as an example of the urban context of the flower strips studied here. Credit: Susanne S. Renner
Insects rely on a mix of floral resources for survival. Populations of bees, butterflies, and flies are currently rapidly decreasing due to the loss of flower-rich meadows. In order to deal with the widespread loss of fauna, the European Union supports "greening" measures, for example, the creation of flower strips.
A group of scientists from the University of Munich, led by Prof. Susanne S. Renner, has conducted the first quantitative assessment of the speed and distance over which urban flower strips attract wild bees, and published the results of the study in the open-access Journal of Hymenoptera Research.
Flower strips are human-made patches of flowering plants that provide resources for flower-visiting insects and insect- and seed-feeding birds. Previous experiments have proved their conservation value for enhancing biodiversity in agricultural landscapes.
The success of flower strips in maintaining populations of solitary bees depends on the floristic composition, distance from suitable nesting sites, and distance from other habitats maintaining stable populations of bees. To study the attractiveness of the flower strips in urban landscapes, the scientists used an experimental set-up of nine 1,000 sq. meters flower strips recently established in Munich by a local bird conservation agency.
"We identified and counted the bees visiting  on each strip and then related these numbers to the total diversity of Munich's bee fauna and to the diversity at different distances from the strips. Our expectation was that newly planted flower strips would attract a small subset of mostly generalist, non-threatened species and that oligolectic species (species using pollen from a taxonomically restricted set of plants) would be underrepresented compared to the city's overall species pool," shared Prof. Susanne S. Renner.

The nine flower strips monitored for this study (modified from https://www.openstreetmap.org, using QGIS 3.8.2 (QGIS Development Team 2019), (c) OpenStreetmap Contributors) and Munich's bee records (sightings and/or specimen) between 1997 and 2017. Credit: Susanne S. Renner (modified from https://www.openstreetmap.org, using QGIS 3.8.2 (QGIS Development Team 2019), (c) OpenStreetmap Contributors)
Bees need time to discover new habitats, but the analysis showed that the city's  managed to do that in just one year so that the one-year-old flower strips attracted one-third of the 232 species recorded in Munich between 1997 and 2017.
Surprisingly, the flower strips attracted a random subset of Munich's bee species in terms of pollen specialization. At the same time, as expected, the first-year flower-strip visitors mostly belonged to common, non-threatened .
The results of the study support that flower strip plantings in cities provide extra support for pollinators and act as an effective conservation measure. The authors therefore strongly recommend the flower strip networks implemented in the upcoming Common Agricultural Policy (CAP) reform in the European Union.
How flowers adapt to their pollinators

More information: Michaela M. Hofmann et al, One-year-old flower strips already support a quarter of a city's bee species, Journal of Hymenoptera Research (2020). DOI: 10.3897/jhr.75.47507
Journal information: Journal of Hymenoptera Research 

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