Plenderleith, Fiona AnnePalmer, StephenTravis, JustinLancaster, LesleyStockan, JenniMitchell, Ruth2023-04-242023-04-242022-12Plenderleith, F A, Palmer, S, Travis, J, Lancaster, L, Stockan, J & Mitchell, R 2022, 'The consequences of tree disease and pre-emptive felling on functional and genetic connectivity for woodland invertebrates', Ecological Informatics, vol. 72, 101820. https://doi.org/10.1016/j.ecoinf.2022.1018201574-9541https://hdl.handle.net/2164/20534Funding FAP was funded by the Macaulay Development Trust and the Woodland Trust. RJM and JAS were supported by the Scottish Government’s Rural and Environment Research and Analysis Directorate 2016-2021 strategic research programme. Development by SCFP of the landscape genetics capability in the customised version of RangeShifter was funded by programme Blanc of l’Agence nationale de la recherche. JMJT was supported by NERC grant NE/T006935/1 ‘Wildlife Corridors: Do they work and who benefits?’ Acknowledgments We thank the Macaulay Development Trust and the Woodland Trust for funding FAP, the Scottish Government’s Rural and Environment Research and Analysis Directorate for funding RJM and JAS, programme Blanc of l’Agence nationale de la recherche for funding SCFP, and NERC for funding JT. We thank the Woodland Trust for access to the National Canopy Map for England and Wales124750434engConnectivityFraxinus excelsiorIndividual-based modelsLandscape geneticsRangeShifterTrees outside woodlandsQH301 BiologyNatural Environment Research Council (NERC)NE/T006935/1OtherSupplementary DataSupplementary InformationQH301Journal article10.1016/j.ecoinf.2022.10182072