European bee diversity: Taxonomic and phylogenetic patterns

Nicolas Leclercq; Leon Marshall; Geoffrey Caruso; Kerry Schiel; Timothy Weekers; Luísa G. Carvalheiro; Holger H. Dathe; Michael Kuhlmann; Denis Michez; Simon G. Potts; Pierre Rasmont; Stuart P. M. Roberts; Guy Smagghe; Peter Vandamme; Nicolas J. Vereecken

doi:10.1111/jbi.14614

European bee diversity: Taxonomic and phylogenetic patterns

Nicolas Leclercq, Leon Marshall, Geoffrey Caruso, Kerry Schiel, Timothy Weekers, Luísa G. Carvalheiro, Holger H. Dathe, Michael Kuhlmann, Denis Michez, Simon G. Potts, Pierre Rasmont, Stuart P. M. Roberts, Guy Smagghe, Peter Vandamme, Nicolas J. Vereecken

Urban Development & Mobility

Research output: Contribution to journal › Article › peer-review

Abstract

Aim: Wild bees still face striking shortfalls in knowledge of biodiversity in key regions of the world. This includes Europe, where despite a long tradition of data gathering, the continental scale distribution patterns of wild bees have not been systematically analysed to date. This study aims to characterise large-scale biodiversity patterns to: (i) understand spatial–temporal heterogeneity in large-scale databases, (ii) locate genuine diversity hotspots and their relationship with biogeographical patterns or habitats of interests and (iii) identify understudied species and areas to further design conservation actions for most at risk species in key regions.

Location: Europe.

Taxon: Bees.

Methods: We present a continental and standardised study of bee taxonomic and phylogenetic diversity patterns in Europe, using a large compilation of occurrence records of nearly three million validated occurrence records for 1515 wild bee species.

Results: Southern and eastern Europe suffer from the largest gaps in data availability while northern and western regions benefit from better historical coverage. Our models show that higher wild bee diversity in Europe is hosted in xeric, warm areas, as highlighted by a clear latitudinal gradient. However, phylogenetic diversity is predicted to be more homogenous across Europe than taxonomic diversity, suggesting that policies and strategies targeted to protect species richness may differ from those targeting greater phylogenetic diversity.

Main conclusions: This study represents a significant advance in the characterisation of wild bee distribution patterns across Europe and is an important stepping stone towards the design of more targeted survey efforts and conservation actions of this key group of pollinators. This, in turn, will provide the data necessary to improve the spatiotemporal coverage in a context of ongoing and future Europe-wide monitoring schemes, to ultimately develop cost-effective, coordinated and evidence-based conservation actions and tailored habitat management actions that can be implemented on a smaller scale.

Original language	English
Pages (from-to)	1244-1256
Number of pages	13
Journal	Journal of Biogeography
Volume	50
Issue number	7
Early online date	31 Mar 2023
DOIs	https://doi.org/10.1111/jbi.14614
Publication status	Published - Jul 2023

Bibliographical note

Funding Information:
The FNRS/FWO joint programme ‘EOS—Excellence of Science’ for the project ‘CliPS: Climate change and its effects on Pollination Services (project 30947854)’ and the ‘Fonds Van Buuren & Fondation Jaumotte Demoulin’ funded this study. We thank all people who collected and maintained the databases used in this study and that were obtained from: (i) the European Commission Framework Programme (FP) 7 via the Status and Trends of European Pollinators (STEP) collaborative project (grant no. 244090, www.STEP‐project.net ); (ii) the Bees, Wasps and Ants Recording Society (BWARS, www.bwars.com ); (iii) the Banque de Données Fauniques Gembloux‐Mons (BDFGM, www.atlashymenoptera.net ); (iv) the National Biodiversity Data Centre (NBDC, www.biodiversityireland.ie ); and (v) the Global Biodiversity Information Facility (GBIF, www.gbif.org ). No permits were needed for this study.

Publisher Copyright:
© 2023 John Wiley & Sons Ltd.

Keywords

GBIF
Hymenoptera
drivers of biodiversity change
latitudinal gradient

Access to Document

10.1111/jbi.14614

Cite this

@article{7e3d3471e1754e089d426e89ab874168,

title = "European bee diversity: Taxonomic and phylogenetic patterns",

abstract = "Aim: Wild bees still face striking shortfalls in knowledge of biodiversity in key regions of the world. This includes Europe, where despite a long tradition of data gathering, the continental scale distribution patterns of wild bees have not been systematically analysed to date. This study aims to characterise large-scale biodiversity patterns to: (i) understand spatial–temporal heterogeneity in large-scale databases, (ii) locate genuine diversity hotspots and their relationship with biogeographical patterns or habitats of interests and (iii) identify understudied species and areas to further design conservation actions for most at risk species in key regions. Location: Europe. Taxon: Bees. Methods: We present a continental and standardised study of bee taxonomic and phylogenetic diversity patterns in Europe, using a large compilation of occurrence records of nearly three million validated occurrence records for 1515 wild bee species. Results: Southern and eastern Europe suffer from the largest gaps in data availability while northern and western regions benefit from better historical coverage. Our models show that higher wild bee diversity in Europe is hosted in xeric, warm areas, as highlighted by a clear latitudinal gradient. However, phylogenetic diversity is predicted to be more homogenous across Europe than taxonomic diversity, suggesting that policies and strategies targeted to protect species richness may differ from those targeting greater phylogenetic diversity. Main conclusions: This study represents a significant advance in the characterisation of wild bee distribution patterns across Europe and is an important stepping stone towards the design of more targeted survey efforts and conservation actions of this key group of pollinators. This, in turn, will provide the data necessary to improve the spatiotemporal coverage in a context of ongoing and future Europe-wide monitoring schemes, to ultimately develop cost-effective, coordinated and evidence-based conservation actions and tailored habitat management actions that can be implemented on a smaller scale.",

keywords = "GBIF, Hymenoptera, drivers of biodiversity change, latitudinal gradient",

author = "Nicolas Leclercq and Leon Marshall and Geoffrey Caruso and Kerry Schiel and Timothy Weekers and Carvalheiro, {Lu{\'i}sa G.} and Dathe, {Holger H.} and Michael Kuhlmann and Denis Michez and Potts, {Simon G.} and Pierre Rasmont and Roberts, {Stuart P. M.} and Guy Smagghe and Peter Vandamme and Vereecken, {Nicolas J.}",

note = "Funding Information: The FNRS/FWO joint programme {\textquoteleft}EOS—Excellence of Science{\textquoteright} for the project {\textquoteleft}CliPS: Climate change and its effects on Pollination Services (project 30947854){\textquoteright} and the {\textquoteleft}Fonds Van Buuren & Fondation Jaumotte Demoulin{\textquoteright} funded this study. We thank all people who collected and maintained the databases used in this study and that were obtained from: (i) the European Commission Framework Programme (FP) 7 via the Status and Trends of European Pollinators (STEP) collaborative project (grant no. 244090, www.STEP‐project.net ); (ii) the Bees, Wasps and Ants Recording Society (BWARS, www.bwars.com ); (iii) the Banque de Donn{\'e}es Fauniques Gembloux‐Mons (BDFGM, www.atlashymenoptera.net ); (iv) the National Biodiversity Data Centre (NBDC, www.biodiversityireland.ie ); and (v) the Global Biodiversity Information Facility (GBIF, www.gbif.org ). No permits were needed for this study. Publisher Copyright: {\textcopyright} 2023 John Wiley & Sons Ltd.",

year = "2023",

month = jul,

doi = "10.1111/jbi.14614",

language = "English",

volume = "50",

pages = "1244--1256",

journal = "Journal of Biogeography",

issn = "0305-0270",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "7",

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TY - JOUR

T1 - European bee diversity: Taxonomic and phylogenetic patterns

AU - Leclercq, Nicolas

AU - Marshall, Leon

AU - Caruso, Geoffrey

AU - Schiel, Kerry

AU - Weekers, Timothy

AU - Carvalheiro, Luísa G.

AU - Dathe, Holger H.

AU - Kuhlmann, Michael

AU - Michez, Denis

AU - Potts, Simon G.

AU - Rasmont, Pierre

AU - Roberts, Stuart P. M.

AU - Smagghe, Guy

AU - Vandamme, Peter

AU - Vereecken, Nicolas J.

N1 - Funding Information: The FNRS/FWO joint programme ‘EOS—Excellence of Science’ for the project ‘CliPS: Climate change and its effects on Pollination Services (project 30947854)’ and the ‘Fonds Van Buuren & Fondation Jaumotte Demoulin’ funded this study. We thank all people who collected and maintained the databases used in this study and that were obtained from: (i) the European Commission Framework Programme (FP) 7 via the Status and Trends of European Pollinators (STEP) collaborative project (grant no. 244090, www.STEP‐project.net ); (ii) the Bees, Wasps and Ants Recording Society (BWARS, www.bwars.com ); (iii) the Banque de Données Fauniques Gembloux‐Mons (BDFGM, www.atlashymenoptera.net ); (iv) the National Biodiversity Data Centre (NBDC, www.biodiversityireland.ie ); and (v) the Global Biodiversity Information Facility (GBIF, www.gbif.org ). No permits were needed for this study. Publisher Copyright: © 2023 John Wiley & Sons Ltd.

PY - 2023/7

Y1 - 2023/7

N2 - Aim: Wild bees still face striking shortfalls in knowledge of biodiversity in key regions of the world. This includes Europe, where despite a long tradition of data gathering, the continental scale distribution patterns of wild bees have not been systematically analysed to date. This study aims to characterise large-scale biodiversity patterns to: (i) understand spatial–temporal heterogeneity in large-scale databases, (ii) locate genuine diversity hotspots and their relationship with biogeographical patterns or habitats of interests and (iii) identify understudied species and areas to further design conservation actions for most at risk species in key regions. Location: Europe. Taxon: Bees. Methods: We present a continental and standardised study of bee taxonomic and phylogenetic diversity patterns in Europe, using a large compilation of occurrence records of nearly three million validated occurrence records for 1515 wild bee species. Results: Southern and eastern Europe suffer from the largest gaps in data availability while northern and western regions benefit from better historical coverage. Our models show that higher wild bee diversity in Europe is hosted in xeric, warm areas, as highlighted by a clear latitudinal gradient. However, phylogenetic diversity is predicted to be more homogenous across Europe than taxonomic diversity, suggesting that policies and strategies targeted to protect species richness may differ from those targeting greater phylogenetic diversity. Main conclusions: This study represents a significant advance in the characterisation of wild bee distribution patterns across Europe and is an important stepping stone towards the design of more targeted survey efforts and conservation actions of this key group of pollinators. This, in turn, will provide the data necessary to improve the spatiotemporal coverage in a context of ongoing and future Europe-wide monitoring schemes, to ultimately develop cost-effective, coordinated and evidence-based conservation actions and tailored habitat management actions that can be implemented on a smaller scale.

AB - Aim: Wild bees still face striking shortfalls in knowledge of biodiversity in key regions of the world. This includes Europe, where despite a long tradition of data gathering, the continental scale distribution patterns of wild bees have not been systematically analysed to date. This study aims to characterise large-scale biodiversity patterns to: (i) understand spatial–temporal heterogeneity in large-scale databases, (ii) locate genuine diversity hotspots and their relationship with biogeographical patterns or habitats of interests and (iii) identify understudied species and areas to further design conservation actions for most at risk species in key regions. Location: Europe. Taxon: Bees. Methods: We present a continental and standardised study of bee taxonomic and phylogenetic diversity patterns in Europe, using a large compilation of occurrence records of nearly three million validated occurrence records for 1515 wild bee species. Results: Southern and eastern Europe suffer from the largest gaps in data availability while northern and western regions benefit from better historical coverage. Our models show that higher wild bee diversity in Europe is hosted in xeric, warm areas, as highlighted by a clear latitudinal gradient. However, phylogenetic diversity is predicted to be more homogenous across Europe than taxonomic diversity, suggesting that policies and strategies targeted to protect species richness may differ from those targeting greater phylogenetic diversity. Main conclusions: This study represents a significant advance in the characterisation of wild bee distribution patterns across Europe and is an important stepping stone towards the design of more targeted survey efforts and conservation actions of this key group of pollinators. This, in turn, will provide the data necessary to improve the spatiotemporal coverage in a context of ongoing and future Europe-wide monitoring schemes, to ultimately develop cost-effective, coordinated and evidence-based conservation actions and tailored habitat management actions that can be implemented on a smaller scale.

KW - GBIF

KW - Hymenoptera

KW - drivers of biodiversity change

KW - latitudinal gradient

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VL - 50

SP - 1244

EP - 1256

JO - Journal of Biogeography

JF - Journal of Biogeography

IS - 7

ER -

European bee diversity: Taxonomic and phylogenetic patterns

Abstract

Bibliographical note

Keywords

Access to Document

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Cite this