Summary
This project will investigate pollinator distribution, spillover, colony fitness, and individual navigation capacity in the agricultural landscape and their relationships with small- vs. large-scale agriculture, forest proximity, and crop type (wheat vs. oilseed rape). The project is divided into four work packages (WPs). In WP1 I will conduct a meta-analysis following a systematic review on how abundances of different pollinator species are related to the gradient from the field edge towards field centre (the edge effect). In WP2 I will study bumblebee colony traffic rate, colony growth rate, queen brood cells, and pollen baskets (consumed food diversity) using DNA meta-barcoding. In WP3 I will use a novel approach combining marking bumblebees with RFID tags with a homing experiment to increase understanding of pollinator movements and navigation capacity in the agricultural landscape. In WP4 I will communicate the ongoing work and results of the project via scientific and popular-science articles, as well as blog posts and other information-sharing channels.
The major innovation of this proposal is the combination of methods used in agroecology, movement ecology and landscape ecology. My project includes large-scale fieldwork studies in Hungary and Austria. The study results will enable me to draw more robust conclusions about pollinator distribution, fitness, movements, agroecology, food production, and target the highest-level ecological and multidisciplinary journals. I will target my project results to communicate my findings to a wide audience including consultation with policy makers, stakeholders, agricultural producers and the general public. The project results will also have implications for increasing the effectiveness of agri-environment schemes for biodiversity.
The major innovation of this proposal is the combination of methods used in agroecology, movement ecology and landscape ecology. My project includes large-scale fieldwork studies in Hungary and Austria. The study results will enable me to draw more robust conclusions about pollinator distribution, fitness, movements, agroecology, food production, and target the highest-level ecological and multidisciplinary journals. I will target my project results to communicate my findings to a wide audience including consultation with policy makers, stakeholders, agricultural producers and the general public. The project results will also have implications for increasing the effectiveness of agri-environment schemes for biodiversity.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101027920 |
| Start date: | 01-01-2022 |
| End date: | 31-12-2023 |
| Total budget - Public funding: | 139 850,88 Euro - 139 850,00 Euro |
Cordis data
Original description
This project will investigate pollinator distribution, spillover, colony fitness, and individual navigation capacity in the agricultural landscape and their relationships with small- vs. large-scale agriculture, forest proximity, and crop type (wheat vs. oilseed rape). The project is divided into four work packages (WPs). In WP1 I will conduct a meta-analysis following a systematic review on how abundances of different pollinator species are related to the gradient from the field edge towards field centre (the edge effect). In WP2 I will study bumblebee colony traffic rate, colony growth rate, queen brood cells, and pollen baskets (consumed food diversity) using DNA meta-barcoding. In WP3 I will use a novel approach combining marking bumblebees with RFID tags with a homing experiment to increase understanding of pollinator movements and navigation capacity in the agricultural landscape. In WP4 I will communicate the ongoing work and results of the project via scientific and popular-science articles, as well as blog posts and other information-sharing channels.The major innovation of this proposal is the combination of methods used in agroecology, movement ecology and landscape ecology. My project includes large-scale fieldwork studies in Hungary and Austria. The study results will enable me to draw more robust conclusions about pollinator distribution, fitness, movements, agroecology, food production, and target the highest-level ecological and multidisciplinary journals. I will target my project results to communicate my findings to a wide audience including consultation with policy makers, stakeholders, agricultural producers and the general public. The project results will also have implications for increasing the effectiveness of agri-environment schemes for biodiversity.
Status
CLOSEDCall topic
MSCA-IF-2020Update Date
28-04-2024
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