Browsing by Author "Bruford, Michael W."
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- Effective Population Size Dynamics and the Demographic Collapse of Bornean Orang-UtansPublication . Sharma, Reeta; Arora, Natasha; Goossens, Benoit; Nater, Alexander; Morf, Nadja; Salmona, Jordi; Bruford, Michael W.; Van Schaik, Carel P.; Krützen, Michael; Chikhi, LounèsBornean orang-utans experienced a major demographic decline and local extirpations during the Pleistocene and Holocene due to climate change, the arrival of modern humans, of farmers and recent commercially-driven habitat loss and fragmentation. The recent loss of habitat and its dramatic fragmentation has affected the patterns of genetic variability and differentiation among the remaining populations and increased the extinction risk of the most isolated ones. However, the contribution of recent demographic events to such genetic patterns is still not fully clear. Indeed, it can be difficult to separate the effects of recent anthropogenic fragmentation from the genetic signature of prehistoric demographic events. Here, we investigated the genetic structure and population size dynamics of orang-utans from different sites. Altogether 126 individuals were analyzed and a full-likelihood Bayesian approach was applied. All sites exhibited clear signals of population decline. Population structure is known to generate spurious bottleneck signals and we found that it does indeed contribute to the signals observed. However, population structure alone does not easily explain the observed patterns. The dating of the population decline varied across sites but was always within the 200-2000 years period. This suggests that in some sites at least, orang-utan populations were affected by demographic events that started before the recent anthropogenic effects that occurred in Borneo. These results do not mean that the recent forest exploitation did not leave its genetic mark on orang-utans but suggests that the genetic pool of orang-utans is also impacted by more ancient events. While we cannot identify the main cause for this decline, our results suggests that the decline may be related to the arrival of the first farmers or climatic events, and that more theoretical work is needed to understand how multiple demographic events impact the genome of species and how we can assess their relative contributions.
- Genetic analyses favour an ancient and natural origin of elephants on BorneoPublication . Sharma, Reeta; Goossens, Benoit; Heller, Rasmus; Rasteiro, Rita; Othman, Nurzhafarina; Bruford, Michael W.; Chikhi, LounèsThe origin of the elephant on the island of Borneo remains elusive. Research has suggested two alternative hypotheses: the Bornean elephant stems either from a recent introduction in the 17th century or from an ancient colonization several hundreds of thousands years ago. Lack of elephant fossils has been interpreted as evidence for a very recent introduction, whereas mtDNA divergence from other Asian elephants has been argued to favor an ancient colonization. We investigated the demographic history of Bornean elephants using full-likelihood and approximate Bayesian computation analyses. Our results are at odds with both the recent and ancient colonization hypotheses, and favour a third intermediate scenario. We find that genetic data favour a scenario in which Bornean elephants experienced a bottleneck during the last glacial period, possibly as a consequence of the colonization of Borneo, and from which it has slowly recovered since. Altogether the data support a natural colonization of Bornean elephants at a time when large terrestrial mammals could colonise from the Sunda shelf when sea levels were much lower. Our results are important not only in understanding the unique history of the colonization of Borneo by elephants, but also for their long-term conservation.
- Genomics and the challenging translation into conservation practicePublication . Shafer, Aaron B.A.; Wolf, Jochen B.W.; Alves, Paulo C.; Bergström, Linnea; Bruford, Michael W.; Brännström, Ioana; Colling, Guy; Dalén, Love; De Meester, Luc; Ekblom, Robert; Fawcett, Katie D.; Fior, Simone; Hajibabaei, Mehrdad; Hill, Jason A.; Hoezel, A. Rus; Höglund, Jacob; Jensen, Evelyn L.; Krause, Johannes; Kristensen, Torsten N.; Krützen, Michael; McKay, John K.; Norman, Anita J.; Ogden, Rob; Österling, E. Martin; Ouborg, N. Joop; Piccolo, John; Popović, Danijela; Primmer, Craig R.; Reed, Floyd A.; Roumet, Marie; Salmona, Jordi; Schenekar, Tamara; Schwartz, Michael K.; Segelbacher, Gernot; Senn, Helen; Thaulow, Jens; Valtonen, Mia; Veale, Andrew; Vergeer, Philippine; Vijay, Nagarjun; Vilà, Carles; Weissensteiner, Matthias; Wennerström, Lovisa; Wheat, Christopher W.; Zieliński, PiotrThe global loss of biodiversity continues at an alarming rate. Genomic approaches have been suggested as a promising tool for conservation practice as scaling up to genome-wide data can improve traditional conservation genetic inferences and provide qualitatively novel insights. However, the generation of genomic data and subsequent analyses and interpretations remain challenging and largely confined to academic research in ecology and evolution. This generates a gap between basic research and applicable solutions for conservation managers faced with multifaceted problems. Before the real-world conservation potential of genomic research can be realized, we suggest that current infrastructures need to be modified, methods must mature, analytical pipelines need to be developed, and successful case studies must be disseminated to practitioners.