Data from: Repatriating leopards into novel landscapes of a South African province

When using this dataset, please cite the original article.

Power RJ, Venter L, Botha M-V, Bartels P. 2021. Repatriating leopards into novel landscapes of a South African province. Ecol Solut Evidence. e12046. doi:10.1002/2688-8319.12046

Additionally, please cite the Movebank data package:

Power RJ, Venter L (2021) Data from: Repatriating leopards into novel landscapes of a South African province. Movebank Data Repository. doi:10.5441/001/1.s6r7r28b
Cite | Share
Download the data package citation in the following formats:
   RIS (compatible with EndNote, Reference Manager, ProCite, RefWorks)
   BibTex (compatible with BibDesk, LaTeX)

Package Identifier doi:10.5441/001/1.s6r7r28b  
 
Abstract (1) Leopards are often translocated away from where they are caught as non-lethal human-wildlife conflict mitigation. It is alleged that leopards fail to settle where they are translocated to, owing to territoriality. We address the need to publish more accounts of successful repatriation of leopards, but also include novel applications aimed at orphans and confiscated leopards. (2) We satellite collared 16 leopards which included a mixture of relocated, and translocated leopards, of which the latter included conventional Damage Causing Animals (DCAs, viz 'problem animals'), orphans and confiscations. We determined standard home- range metrics and assessed home-range stabilisation as a means of determining site fidelity. Premature mortality and site infidelity, i.e homing back to origins, were considered failures. We looked at range stabilisation by examining successive monthly ranges against that of the preceeding month, i.e UDOIs. (3) Relocations turned out to be residents (~3 km, n=3), while they were immune to intervention, while translocations resulted in 50% success (n=12), which were invariably confiscated adults of unknown origin, and simulations of natal dispersals of orphans (~25 km, n =3). DCAs never settled where released (~90 km, n = 5). Resident leopards showed high monthly UDOIs, and for those translocated, a minimum of 0.15 was benchmarked to suggest range stability, which also reflected large spatial ranging. (4) Success in HR establishment was associated with landscapes which were unsaturated by other leopards, but anthropogenic threats still persisted, such that survival after a year was ~45%, but was not different to the normal background mortality of areas outside protected areas in the country. Operations are costly, particularly that to do with veterinary treatment, immobilisation, collars and temporary keeping, but such costs can be carried by public interest groups.
Keywords animal movement, animal tracking, Argos, conservation biology, leopard, Panthera pardus, urban ecology,

Daily satellite location data for leopard management in the North West Province, South Africa, 2014-2020 View File Details
Download: README.txt ( 12.35Kb )
Download: Daily satellite location data for leopard management in the North West Province, South Africa, 2014-2020.csv ( 422.9Kb )
To the extent possible under law, the authors have waived all copyright and related or neighboring rights to this data.  



Daily satellite location data for leopard management in the North West Province, South Africa, 2014-2020-reference-data View File Details
Download: README.txt ( 12.35Kb )
Download: Daily satellite location data for leopard management in the North West Province, South Africa, 2014-2020-reference-data.csv ( 6.49Kb )
To the extent possible under law, the authors have waived all copyright and related or neighboring rights to this data.  


Submission