In a forthcoming article Godinho et al. (2014) assess the occurrence and extension of hybridization in a pack of wolf–dog hybrids in northwestern Iberia, Godinho et al. compare the power of 52 nuclear markers implemented on tissue samples with a subset of 13 ancestry informative markers (AIMs) typed in noninvasive samples (NIS).
Godinho et al. (2014) find the 13 AIMs are as accurate as the 52 markers that were chosen without regard to the power to differentiate between wolves and dogs. The AIMs also having the advantage of being rapidly screened on noninvasive samples. The efficiency of AIMs significantly outperformed ten random sets of similar size and an additional commercial set of 18 markers.
Bayesian clustering analysis implemented on AIMs and NIS identified nine hybrids, two wolves and two dogs. Four hybrids were unambiguously assigned to F1 x Wolf backcrosses. The new approach (AIMs + NIS) overcomes previous difficulties related to sample availability and informative power of markers, allowing a quick identification of wolf–dog hybrids in the first phases of hybridization episodes. This provides managers with a reliable tool to evaluate hybridization and estimate the success of their actions. This approach may be easily adapted for other pairs of wild/domesticated species, thus improving our understanding of the introgression of domestication genes into natural populations.
The hybridization event at Barbanza started with a cross between a female wolf and a male dog, as inferred by the presence of an Iberian wolf mtDNA haplotype in all hybrids, corresponding to the typical direction of wolf–dog hybridization. Despite the uncertainty of the impact of these crosses in the genetic composition of wolf populations (for example, due to difficulties of hybrid integration in packs), the results do suggest that the Barbanza pack has quickly evolved towards a hybrid swarm, with a minimum of two generations of backcrossing to wolves. These findings are alarming because wolf packs in nonexpanding populations generally consist of related individuals, and thus, other unobserved individuals in the area may also exhibit admixed ancestries.
Identifying wolf–dog hybrids is crucial for conservation and management strategies, particularly in the first phases of an episode of hybridization, as well as to evaluate the success of the strategies that have been implemented. Assuming a minimum territory size of 100 km2 centered in the rendezvous site of the Barbanza pack, the area sampled covered a substantial portion of that territory (40%).
Moreover, the authors identified 11 wolf-like canids, 80% of the estimated population, which is fully compatible with the values reported in Iberia for pack size after reproduction, plus some floater animals, suggesting that the AIM’s method allows a comprehensive evaluation of hybridization in a given area. The goal to obtain a quick method to identify hybridization events was successful. Once there is the suspicion of a hybridization event, an estimate of about two months would be required to know the extent of the problem in an area equivalent to a pack territory.
Finally, the authors note that the logistic and economic investment to evaluate hybridization in this area was feasible (ca. 1500€ for the fieldwork – one person working 8 days – plus ca. 5000€ for laboratory work – one person working 3 weeks). Current management guidelines state that every practical measure should be implemented to remove obvious hybrids from the wild once an event of hybridization has been detected. This implies mainly lethal control, although keeping hybrids in captivity and sterilization have also been suggested. Nevertheless, the efficiency of removing hybrids from the wild remains very uncertain. Therefore, the methods shown here constitute a step forward towards the effective management of wolf–dog hybridization. The combination of NIS and AIMs may offer an opportunity to better understand the extension and persistence of hybridization between wolves and dogs at a global scale and its ecological, evolutionary and conservation consequences.
Finally, the authors note that the logistic and economic investment to evaluate hybridization in this area was feasible (ca. 1500€ for the fieldwork – one person working 8 days – plus ca. 5000€ for laboratory work – one person working 3 weeks). Current management guidelines state that every practical measure should be implemented to remove obvious hybrids from the wild once an event of hybridization has been detected. This implies mainly lethal control, although keeping hybrids in captivity and sterilization have also been suggested. Nevertheless, the efficiency of removing hybrids from the wild remains very uncertain. Therefore, the methods shown here constitute a step forward towards the effective management of wolf–dog hybridization. The combination of NIS and AIMs may offer an opportunity to better understand the extension and persistence of hybridization between wolves and dogs at a global scale and its ecological, evolutionary and conservation consequences.
Citation
Godinho, R., López‐Bao, J. V., Castro, D., Llaneza, L., Lopes, S., Silva, P., & Ferrand, N. (2014). Real‐time assessment of hybridization between wolves and dogs: combining noninvasive samples with ancestry informative markers. Molecular Ecology Resources. Early
On-line.
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