Data from: Modelling landscape connectivity for greater horseshoe bat using an empirical quantification of resistance
datacite.RelatedIdentifier | https://doi.org/10.1111/1365-2664.13228 | |
datacite.RelatedIdentifier.relatedIdentifierType | DOI | |
datacite.RelatedIdentifier.relationType | IsSupplementTo | |
dc.contributor.author | Pinaud, David | |
dc.contributor.author | Claireau, Fabien | |
dc.contributor.author | Leuchtmann, Maxime | |
dc.contributor.author | Kerbiriou, Christian | |
dc.date.accessioned | 2018-07-09T13:29:55Z | |
dc.date.available | 2018-07-09T13:29:55Z | |
dc.date.issued | 2018-07-09 | |
dc.date.submitted | 2018 | |
dc.description.abstract | (1) Habitat fragmentation and isolation as a result of human activities have been recognized as great threats to population viability. Evaluating landscape connectivity in order to identify and protect linkages has therefore become a key challenge in applied ecology and conservation. (2) One useful approach to evaluate connectivity is Least‐Cost Path (LCP) analysis. However, several studies have highlighted importance of parameterization with empirical, biologically‐relevant proxies of factors affecting movements, as well as the need to validate the LCP model with an independent dataset. (3) We used LCP analysis incorporating quantitative, empirical data about behaviour of the greater horseshoe bat Rhinolophus ferrumequinum to build up a model of functional connectivity in relation to landscape connecting features. We then validated the accumulated costs surface from the LCP model with two independent datasets; one at an individual level with radio tracking data and one at a population level with acoustic data. (4) When defining resistance, we found that the probability of bat presence in a hedgerow is higher when the distance between hedgerows is below 38 m, and decrease rapidly when gaps are larger than 50 m. The LCP model was validated by both datasets: the independent acoustic data showed that the probability of bat presence was significantly higher in areas with lower accumulated costs, and the radio tracking data showed that foraging was more likely in areas where accumulated costs were significantly lower. (5) Synthesis and applications. Through our modelling approach, we recommend a maximum of 38m (and no more than 50m) between connecting features around colonies of greater horseshoe bats. Our quantitative study highlights the value of this framework for conservation: results are directly applicable in the field and the framework can be applied to other species sensitive to habitat loss, including other bats. Provided that it is parameterized with empirical, biologically‐relevant data, this modelling approach can be used for restoring and evaluating green networks in agri‐environmental schemes and management plans. | |
dc.identifier.doi | doi:10.5441/001/1.3pk82706 | |
dc.identifier.uri | https://datarepository.movebank.org/handle/10255/move.773 | |
dc.language.iso | eng | |
dc.relation | Journal of Applied Ecology | |
dc.relation.haspart | doi:10.5441/001/1.3pk82706/1 | |
dc.relation.haspart | doi:10.5441/001/1.3pk82706/2 | |
dc.relation.isreferencedby | doi:10.1111/1365‐2664.13228 | |
dc.rights | CC0 1.0 Universal | en |
dc.rights.uri | http://creativecommons.org/publicdomain/zero/1.0/ | |
dc.subject | Rhinolophus ferrumequinum | |
dc.subject | animal movement | |
dc.subject | animal tracking | |
dc.subject | bats | |
dc.subject | France | |
dc.subject | greater horseshoe bat | |
dc.subject | habitat fragmentation | |
dc.subject | landscape connectivity | |
dc.subject | radio telemetry | |
dc.subject | Rhinolophus ferrumequinum | |
dc.title | Data from: Modelling landscape connectivity for greater horseshoe bat using an empirical quantification of resistance | |
dc.type | Article | |
dspace.entity.type | Data package | |
dwc.ScientificName | Rhinolophus ferrumequinum | |
mdr.animal.count | 8 | |
mdr.citation.BibTex | @misc{001/1_3pk82706, title = {Data from: Modelling landscape connectivity for greater horseshoe bat using an empirical quantification of resistance}, author = {Pinaud, D and Claireau, F and Leuchtmann, M and Kerbiriou, C}, year = {2018}, URL = {http://dx.doi.org/10.5441/001/1.3pk82706}, doi = {doi:10.5441/001/1.3pk82706}, publisher = {Movebank data repository} } | |
mdr.citation.CSE | Pinaud D, Claireau F, Leuchtmann M, Kerbiriou C. 2018. Data from: Modelling landscape connectivity for greater horseshoe bat using an empirical quantification of resistance. Movebank Data Repository. https://doi.org/10.5441/001/1.3pk82706 | |
mdr.citation.RIS | TY - DATA ID - doi:10.5441/001/1.3pk82706 T1 - Data from: Modelling landscape connectivity for greater horseshoe bat using an empirical quantification of resistance AU - Pinaud, David AU - Claireau, Fabien AU - Leuchtmann, Maxime AU - Kerbiriou, Christian Y1 - 2018/07/09 KW - Rhinolophus ferrumequinum KW - animal foraging KW - animal movement KW - animal tracking KW - bats KW - France KW - greater horseshoe bat KW - habitat fragmentation KW - landscape connectivity KW - radio telemetry KW - Rhinolophus ferrumequinum KW - Rhinolophus ferrumequinum PB - Movebank data repository UR - http://dx.doi.org/10.5441/001/1.3pk82706 DO - doi:10.5441/001/1.3pk82706 ER - | |
mdr.journal.title | Journal of Applied Ecology | |
mdr.location.count | 57 | |
mdr.study.id | 494680989 | |
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sensor.name | Radio Transmitter |
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