M. Vant scite author profile

Baleen whales are the largest animals that have ever lived. To develop an improved estimation of substitution rate for nuclear and mitochondrial DNA for this taxon, we implemented a relaxed-clock phylogenetic approach using three fossil calibration dates: the divergence between odontocetes and mysticetes approximately 34 million years ago (Ma), between the balaenids and balaenopterids approximately 28 Ma, and the time to most recent common ancestor within the Balaenopteridae approximately 12 Ma. We examined seven mitochondrial genomes, a large number of mitochondrial control region sequences (219 haplotypes for 465 bp) and nine nuclear introns representing five species of whales, within which multiple species-specific alleles were sequenced to account for within-species diversity (1-15 for each locus). The total data set represents >1.65 Mbp of mitogenome and nuclear genomic sequence. The estimated substitution rate for the humpback whale control region (3.9%/million years, My) was higher than previous estimates for baleen whales but slow relative to other mammal species with similar generation times (e.g., human-chimp mean rate > 20%/My). The mitogenomic third codon position rate was also slow relative to other mammals (mean estimate 1%/My compared with a mammalian average of 9.8%/My for the cytochrome b gene). The mean nuclear genomic substitution rate (0.05%/My) was substantially slower than average synonymous estimates for other mammals (0.21-0.37%/My across a range of studies). The nuclear and mitogenome rate estimates for baleen whales were thus roughly consistent with an 8- to 10-fold slowing due to a combination of large body size and long generation times. Surprisingly, despite the large data set of nuclear intron sequences, there was only weak and conflicting support for alternate hypotheses about the phylogeny of balaenopterid whales, suggesting that interspecies introgressions or a rapid radiation has obscured species relationships in the nuclear genome.

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Diversity and duplication of DQB and DRB-like genes of the MHC in baleen whales (suborder: Mysticeti)

Baker

Vant

Dalebout

et al. 2006

Immunogenetics

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The molecular diversity and phylogenetic relationships of two class II genes of the baleen whale major histocompatibility complex were investigated and compared to toothed whales and out-groups. Amplification of the DQB exon 2 provided sequences showing high within-species and between-species nucleotide diversity and uninterrupted reading frames consistent with functional class II loci found in related mammals (e.g., ruminants). Cloning of amplified products indicated gene duplication in the humpback whale and triplication in the southern right whale, with average nucleotide diversity of 5.9 and 6.3%, respectively, for alleles of each species. Significantly higher nonsynonymous divergence at sites coding for peptide binding (32% for humpback and 40% for southern right) suggested that these loci were subject to positive (overdominant) selection. A population survey of humpback whales detected 23 alleles, differing by up to 21% of their inferred amino acid sequences. Amplification of the DRB exon 2 resulted in two groups of sequences. One was most similar to the DRB3 of the cow and present in all whales screened to date, including toothed whales. The second was most similar to the DRB2 of the cow and was found only in the bowhead and right whales. Both loci showed low diversity among species and apparent loss of function or altered function including interruption of reading frames. Finally, comparison of inferred protein sequence of the DRB3-like locus suggested convergence with the DQB, perhaps resulting from intergenic conversion or recombination.

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Are Antarctic minke whales unusually abundant because of 20th century whaling?

Ruegg

Anderson

Baker

et al. 2009

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Severe declines in megafauna worldwide illuminate the role of top predators in ecosystem structure. In the Antarctic, the Krill Surplus Hypothesis posits that the killing of more than 2 million large whales led to competitive release for smaller krill-eating species like the Antarctic minke whale. If true, the current size of the Antarctic minke whale population may be unusually high as an indirect result of whaling. Here, we estimate the long-term population size of the Antarctic minke whale prior to whaling by sequencing 11 nuclear genetic markers from 52 modern samples purchased in Japanese meat markets. We use coalescent simulations to explore the potential influence of population substructure and find that even though our samples are drawn from a limited geographic area, our estimate reflects ocean-wide genetic diversity. Using Bayesian estimates of the mutation rate and coalescent-based analyses of genetic diversity across loci, we calculate the long-term population size of the Antarctic minke whale to be 670,000 individuals (95% confidence interval: 374,000-1,150,000). Our estimate of long-term abundance is similar to, or greater than, contemporary abundance estimates, suggesting that managing Antarctic ecosystems under the assumption that Antarctic minke whales are unusually abundant is not warranted.

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Low abundance and probable decline of the critically endangered Maui's dolphin estimated by genotype capture–recapture

Baker

Hamner

Cooke

et al. 2012

Animal Conservation

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The New Zealand endemic Maui's dolphin (Cephalorhynchus hectori maui) is considered ‘critically endangered’ by the International Union for the Conservation of Nature as a result of decline due, in part, to fisheries‐related mortalities. To estimate the abundance and trends of this subspecies, we used open‐population capture–recapture models based on microsatellite genotyping of living and beachcast (dead) dolphins sampled between January 2001 and November 2007. A total of 82 genetic samples were available: 70 biopsy samples collected from living Maui's dolphins and 12 necropsy samples collected from beachcast or floating carcasses, of which five showed evidence of fisheries entanglement. Microsatellite genotyping of up to 14 loci identified 54 individuals; 42 sampled alive on one or more occasions, one sampled alive, then found beachcast 2 years later, and 11 sampled only as carcasses, including two neonates. The sex ratio of the sample did not differ significantly from unity (25 males: 29 females). Using a POPAN model for live capture records, the abundance of the super population available during the multiyear study was estimated to be N = 87 [95% (confidence limits) CL, 59–158]. Using a Pradel‐like model modified to include both live capture and beachcast records, the abundance of the population was estimated to be N = 69 (95% CL, 38–125) for the midpoint of the study in 2003. The results of both models suggested that the population was likely to be declining across the study period, although this trend could not be confirmed with 95% confidence. As the genotypes provide permanent marks of individual identity, continued genetic monitoring could provide improved confidence in the abundance and trends of this subspecies.

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M. Vant

Big and Slow: Phylogenetic Estimates of Molecular Evolution in Baleen Whales (Suborder Mysticeti)

Diversity and duplication of DQB and DRB-like genes of the MHC in baleen whales (suborder: Mysticeti)

Are Antarctic minke whales unusually abundant because of 20th century whaling?

Low abundance and probable decline of the critically endangered Maui's dolphin estimated by genotype capture–recapture

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