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Advisor(s)
Abstract(s)
Beekeeping provides a livelihood for hundreds of thousands of beekeepers in the
Mediterranean area. This activity relies on a number of different indigenous subspecies,
adapted to the very diverse and harsh conditions of the region. Climate change is expected
to increase the stress factors affecting bees, especially in this region, reducing both
pollination efficiency and production potential. Unfortunately, our ability to address this
problem is limited by the incomplete knowledge of the natural adaptation mechanisms
developed by the different subspecies. In order to increase the knowledge base for future
selection programs to improve bee populations for environmental changes, the MEDIBEES
project is being developed. It includes 9 partners from 8 Mediterranean countries on all
three shores of the Mediterranean, covering 10 local subspecies of A. mellifera, which
represents a remarkable and poorly known proportion of the genetic diversity. The project
aims to: a) unravel the differential genetic background of Mediterranean subspecies, b)
understand their adaptation to local conditions, and c) characterize their resistance to
climate change. To achieve the objectives, colonies belonging to the local subspecies will
be studied phenotypically to determine their behavior under environmental conditions,
covering survival, sensitivity to pests/pathogens, behavior, physiology and reproduction
which will be completed by gene expression and transcriptomic assays. In addition,
complete genomes of field and laboratory samples will be sequenced to find genes
putatively involved in adaptation and to develop new genetic tools to characterize honey
bee populations according to their resistance to environmental stress factors. This effort
will encourage the use of local subspecies, to make them more attractive and avoid
importing foreign breeds, and will lay the foundation for future selection programs.
Besides, the valorization of honey by both promoting its use and developing quality labels,
and the evaluation of beekeeping by-products as modifiers of soil fertility and biota are
also approached to help the beekeepers improve the sustainability of their farms in an
economical and environmental sound manner.
Description
Keywords
Climate change adaptations Honeybee conservation Resistance to stressors
Citation
Martín-Hernández, Raquel; Nanetti, Antonio; Pinto, M. Alice; Adjlane, Noureddine; Haddad, Nizar; Chadi, Hosri; Necati, Mustafa; Mangion, Marion Zammit; Ahmad, Yousef Daour; Soledad, Sagastume (2022). Subspecies and their resilience to climate change for the improvement of sustainable agro-ecosystems. In Eurbee 9: 9th European Conference of Apidology. Belgrade
Publisher
Estonian University of Life Science