Publications
NIBIOs employees contribute to several hundred scientific articles and research reports every year. You can browse or search in our collection which contains references and links to these publications as well as other research and dissemination activities. The collection is continously updated with new and historical material.
2023
Authors
Liv Gilpin Dag Røen Marian Schubert Jahn Davik Kimmo Rumpunen Kristina Alme Gardli Stein Harald Hjeltnes Muath K AlsheikhAbstract
Commercial fruit production in Norway is located at around latitude 60° north, demanding a careful choice of adapted cultivars. The most comprehensive collection of apple genetic resources in Norway is being kept in the Norwegian Apple Collection (NAC) at the Njøs Fruit and Berry Centre (NJØS). The collection contains around 350 accessions and was recently genotyped with a single nucleotide polymorphism (SNP) array. Curated SNP data were used for the assessment of structure and diversity, pedigree confirmation, and core collection development. In the following SNP analysis, we identified several duplicates and parent-child relationships. Across the geographic regions represented, the collection was equally diverse. Different methods for analyzing population structure were applied. K-means clustering and a Bayesian modeling approach with prior assumptions of the data revealed five subpopulations associated with geographic breeding centers. The collection has a distinct genetic structure and low relatedness among the accessions; hence, two core collections with 100 accessions in each were created. These new core collections will allow breeders and researchers to use the NAC efficiently. The results from this study suggest that several of the accessions in the Norwegian Apple Collection could be of high importance for breeding purposes.
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Norwegian apple production is a highly variable affair, and even more so facing the changing climate. Knowledge about which role the pollinator communities play in these systems may bring us closer to understanding why the between year variation is so large, and how to mitigate it. In this particular study we will use state of the art genetic methods (Genotyping-by-sequencing) to investigate how the genes are transported within the orchards, and how this is affected by variations in bee species diversity. In turn, we will look into how the fruit quality and seed set is affected by the observed gene flow.
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Authors
N. Leclercq L. Marshall T. Weekers P. Basu D. Benda D. Bevk R. Bhattacharya P. Bogusch A. Bontšutšnaja L. Bortolotti N. Cabirol E. Calderón-Uraga R. Carvalho S. Castro S. Chatterjee La De La Cruz Alquicira Miranda de Miranda T. Dirilgen A. Dorchin K. Dorji B. Drepper S. Flaminio J. Gailis M. Galloni H. Gaspar M.W. Gikungu Bjørn Arild Hatteland I. Hinojosa-Diaz L. Hostinská B.G. Howlett K.-L.J. Hung L. Hutchinson R.O. Jesus N. Karklina M.S. Khan J. Loureiro X. Men J.-M. Molenberg S. Mudri-Stojnić P. Nikolic E. Normandin J. Osterman F. Ouyang Åsne Skjøtskift Øygarden L. Ozolina-Pole N. Ozols A. Parra Saldivar R.J. Paxton T. Pitts-Singer K. Poveda K. Prendergast M. Quaranta S.F.J. Read Stefanie Reinhardt M. Rojas-Oropeza C. Ruiz M. Rundlöf A. Sade C. Sandberg F. Sgolastra S.F. Shah M.A. Shebl V. Soon D.A. Stanley J. Straka P. Theodorou E. Tobajas J.L. Vaca-Uribe A. Vera C.A. Villagra M.-K. Williams M. Wolowski T.J. Wood Z. Yan Q. Zhang N.J. VereeckenAbstract
An essential prerequisite to safeguard pollinator species is characterisation of the multifaceted diversity of crop pollinators and identification of the drivers of pollinator community changes across biogeographical gradients. The extent to which intensive agriculture is associated with the homogenisation of biological communities at large spatial scales remains poorly understood. In this study, we investigated diversity drivers for 644 bee species/morphospecies in 177 commercial apple orchards across 33 countries and four global biogeographical biomes. Our findings reveal significant taxonomic dissimilarity among biogeographical zones. Interestingly, despite this dissimilarity, species from different zones share similar higher-level phylogenetic groups and similar ecological and behavioural traits (i.e. functional traits), likely due to habitat filtering caused by perennial monoculture systems managed intensively for crop production. Honey bee species dominated orchard communities, while other managed/manageable and wild species were collected in lower numbers. Moreover, the presence of herbaceous, uncultivated open areas and organic management practices were associated with increased wild bee diversity. Overall, our study sheds light on the importance of large-scale analyses contributing to the emerging fields of functional and phylogenetic diversity, which can be related to ecosystem function to promote biodiversity as a key asset in agroecosystems in the face of global change pressures.
Authors
Helene Müller Haugan Joseph Chipperfield Bjørn Arild Hatteland Alexander Dumbrell Rakel BlaalidAbstract
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Authors
Monica Sanden Eirill Ager-Wick Johanna Eva Bodin Nur Duale Anne-Marthe Ganes Jevnaker Kristian Prydz Ville Erling Sipinen Volha Shapaval Tage ThorstensenAbstract
No abstract has been registered