Agricultural land-use and landscape composition: Response of wild bee species in relation to their characteristic traits

In the past centuries, farmland has undergone a fundamental transformation through changed farming practices, such as the use of agrochemicals and advanced machine processing. Particularly since the 1970s, agriculturally driven land-use change has caused destruction of natural and semi-natural habit...

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Published in:Agriculture, ecosystems & environment ecosystems & environment, 2023-09, Vol.353, p.108540, Article 108540
Main Authors: Ockermüller, Esther, Kratschmer, Sophie, Hainz-Renetzeder, Christa, Sauberer, Norbert, Meimberg, Harald, Frank, Thomas, Pascher, Kathrin, Pachinger, Bärbel
Format: Article
Language:English
Subjects:
agricultural land
agricultural landscapes
agriculture
agrochemicals
Anthophila
Austria
bees
BINATS
Biodiversity
Colletidae
environment
family
Farmland
flowers
Functional trait
grasslands
habitats
intensive farming
land cover
land use change
Landscape composition
species
species richness
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Summary:In the past centuries, farmland has undergone a fundamental transformation through changed farming practices, such as the use of agrochemicals and advanced machine processing. Particularly since the 1970s, agriculturally driven land-use change has caused destruction of natural and semi-natural habitats, and as a consequence, severe loss of biodiversity. Hence, identifying landscape patterns and habitats that enhance species richness, and detecting species and traits that are most vulnerable to intensive land-use are prerequisites for conservation. To evaluate the effects of agricultural land-use and landscape composition on wild bees, we investigated 340 cross-transects in 34 test areas in the main agricultural regions of Austria within the framework of the biodiversity monitoring program BINATS. Using multivariate models (GLM, DCA), wild bees and potential explanatory parameters (e.g. Shannon landscape diversity index, plant diversity, flower cover) were documented, and their interrelationships analyzed. We found strong negative effects of increased agricultural land cover on species richness, abundance and functional richness. Species richness was positively correlated with an increasing area of semi-natural elements (e.g. extensive grassland, hedgerows, fallows) and the number of different habitat types, while wild bee abundance was best explained by the presence of semi-natural habitats and flower cover. Colletidae were significantly associated with the area of semi-natural elements, and were especially sensitive to agricultural intensification. Many species from communities that are present in complex landscapes disappeared in intensively managed farmland, and the majority of species decreased in response to simplified landscapes. A few species, however, even benefited. Our results emphasize the importance of diverse semi-natural elements and high regional flower cover within farmland for maintaining and enhancing species richness and abundance, and for promoting a positive spillover effect of pollinators to the surrounding agricultural landscape. Especially members of the family Colletidae, with a high proportion of specialized species, will benefit from diverse semi-natural habitat types. Given the unique importance of wild bees as pollinators of wildflowers and crops, it is crucial to improve and expand agri-environmental schemes to combat ongoing biodiversity loss in farmland. •Agricultural land-use had negative effects on species richness and abu
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2023.108540