Publications by authors named "George F Turner"

Variation of recombination rate along the genome is of crucial importance to rapid adaptation and organismal diversification. Many unknowns remain regarding how and why recombination landscapes evolve in nature. Here, we reconstruct recombination maps based on linkage disequilibrium and use subsampling and simulations to derive a new measure of recombination landscape evolution: the Population Recombination Divergence Index (PRDI).

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  • A dataset of μCT scans from 56 species of Lake Malawi cichlid fishes is introduced, capturing a wide range of morphological variations among these fish.
  • The text discusses the ecomorphological groupings of the species and suggests potential macroevolutionary research that could utilize this dataset.
  • An efficient methodology for scanning, averaging 23 specimens per hour while ensuring high resolution, is outlined, showcasing its effectiveness through 3D bone models reconstructed from the collected data.
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  • Cichlid fishes of the genus Oreochromis, or tilapia, are crucial for inland fisheries and aquaculture, but hybridization with non-native species threatens local biodiversity.
  • Researchers studied hybridization patterns in tilapia by analyzing the genomes of 575 individuals from 23 species in Tanzania, where both ancient and recent hybridization occurs.
  • Their findings reveal significant historical gene flow and the hybrid speciation of a specific species, highlighting concerns for conservation and the future of aquaculture practices.
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  • The mechanosensory lateral line system in fishes is crucial for survival behaviors like finding food and navigating in low-light conditions, and its morphology may undergo disruption during ecological speciation.
  • In a study of two ecomorphs of the cichlid fish Astatotilapia calliptera in Lake Masoko, it was found that the deeper-water zooplanktivorous ecomorph has larger lateral line canal pores compared to the shallower-water invertebrate-feeding ecomorph.
  • The findings highlight the early divergence in lateral line morphology as a potential contributor to adaptive radiation, an indication of how ecological specialization can influence sensory adaptations.
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  • The study examines female mating behavior in five species of cichlids from Lake Victoria, focusing on Pundamilia nyererei and Pundamilia pundamilia.
  • Findings reveal that while sympatric species strictly mate assortatively, parapatric species with overlapping habitats interbreed, indicating varying degrees of mating barriers.
  • The results highlight the importance of mating preferences in species distribution and suggest they should be considered in theories about species coexistence, especially in hybridizing taxa like cichlid fish.
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  • Researchers investigated how nuclear genetic material from environmental DNA (eDNA) can reveal population genetics of cichlid fish in Lake Masoko, Tanzania.
  • * The study focused on two genetically distinct ecomorphs of cichlids separated by a thermo-oxycline at 15 meters depth, indicating diverging populations within the lake.
  • * By analyzing single nucleotide polymorphisms (SNPs) from both eDNA and fish samples, the team confirmed that eDNA can accurately reflect the genetic structure of populations across different depths in the lake.
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  • - A new cichlid fish species named Lethrinops chilingali has been identified from Lake Chilingali in Malawi, distinguished by specific jaw structure and lacking certain traits of related species.
  • - Unique physical characteristics, such as a broken horizontal stripe on females and altered facial features, set Lethrinops chilingali apart from similar species like Lethrinops lethrinus.
  • - This species is likely extinct in the wild, as there have been no sightings since 2009, although it is still being bred in captivity.
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  • Freshwater fishes, like the cichlid Astatotilapia calliptera in Lake Masoko, have undergone rapid speciation along depth gradients, with distinct ecomorphs developing in just 1,000 years.
  • Researchers used genome-wide transcriptome data to analyze the molecular mechanisms behind these changes, specifically focusing on gene expression and splicing variations.
  • They discovered thousands of differently expressed genes, with certain regulatory variants significantly influencing craniofacial development, indicating that modifications in gene regulation are key to early-stage speciation and adaptive divergence.
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  • - Epigenetic variation can influence gene expression and lead to differences in traits among populations adapting to different environments, specifically in the early stages of speciation.
  • - The research examines the DNA methylome changes in two morphologically and ecologically distinct ecomorphs of Astatotilapia calliptera in Africa's Lake Masoko, which evolved about 1,000 years ago, despite no fixed genetic differences.
  • - Findings show extensive differences in methylation patterns related to critical biological functions, supporting the idea that epigenetics plays a role in early vertebrate speciation, with some traits being inherited across generations.
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A new species of cichlid fish, Lethrinops atrilabris is described from specimens collected by trawling at a depth of around 90 m off Monkey Bay, southern Lake Malawi. It is assigned to the genus Lethrinops on the basis of its vertical flank barring, lack of enlarged cephalic lateral line canal pores and the form of the lower jaw dental arcade. It can be distinguished from congeneric species by its male breeding dress of contrasting flank barring and dark ventral surface, most strikingly on the lips, throat and chest, its relatively small known maximum size [<75 mm standard length (SL)], large eyes (38%-41% head length), laterally compressed body (depth 2.

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Identifying genetic loci underlying trait variation provides insights into the mechanisms of diversification, but demonstrating causality and characterizing the role of genetic loci requires testing candidate gene function, often in non-model species. Here we establish CRISPR/Cas9 editing in , a generalist cichlid of the remarkably diverse Lake Malawi radiation. By targeting the gene required for melanin synthesis in other vertebrate species, we show efficient editing and germline transmission.

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  • - Cichlid fish are vital for tilapia aquaculture and fisheries, but distinguishing between species is challenging due to morphological similarities and hybridization with non-native populations in Africa.
  • - A new genotyping panel using SNPs has been developed to accurately identify species and hybrids in tilapia, proving to be more effective than traditional methods like microsatellites and phenotype classification.
  • - Case studies reveal that introduced tilapia species are increasingly becoming established in the wild, posing risks to native species, highlighting the need for better broodstock management to conserve biodiversity.
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  • Epigenetic variation influences gene expression and can be passed down through generations, but its role in natural adaptive changes is not well understood.
  • The research focuses on Lake Malawi cichlid fishes, showcasing significant phenotypic diversity despite minor genetic differences, making them an ideal subject for studying how epigenomics contributes to adaptation.
  • The study finds notable differences in DNA methylation patterns between species, particularly in genes related to energy use and metabolism, highlighting a connection between diet and epigenetic changes, along with shared developmental gene patterns across tissues.
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Balancing selection is important for the maintenance of polymorphism as it can prevent either fixation of one morph through directional selection or genetic drift, or speciation by disruptive selection. Polychromatism, the presence of multiple genetically determined colour phenotypes, can be maintained if the fitness of alternative morphs depends on the relative frequency in a population. In aggressive species, negative frequency-dependent antagonism can prevent an increase in the frequency of rare morphs as they would only benefit from increased fitness while they are rare.

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  • Invasive Nile tilapia are hybridizing with native Korogwe tilapia in southern Tanzania, threatening unique genetic resources.
  • Research shows that southern Korogwe tilapia populations are genetically distinct from those in northern Tanzania, having diverged around 140,000 years ago.
  • Findings indicate the need for conservation efforts to protect these unique and vulnerable fish populations from hybridization and genetic dilution.
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  • * Evidence suggests that hybridization occurred between lineages that split 3-4 million years ago, contributing to a mosaic genomic structure in Malawi cichlids, with large genome blocks showing little variation across species.
  • * The study finds that genetic variants resulting from hybridization are linked to ecological differentiation, particularly in genes related to immune response and vision, highlighting hybridization's critical role in the rapid evolutionary diversification of these fishes.
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  • Cichlids have diversified significantly across Africa, particularly in rivers and lakes, with a focus on the economically important oreochromine cichlids, or tilapia, which have unique adaptations to soda environments.
  • This study presents a comprehensive DNA analysis of the Oreochromis genus and closely related Alcolapia, revealing discordance between nuclear and mitochondrial DNA, which may suggest complex evolutionary histories.
  • The research indicates that adaptation to harsh conditions has occurred multiple times in Oreochromis, with extreme adaptations likely originating once, leading to a taxonomic revision that places Alcolapia as a subgenus of Oreochromis.
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Hybridization between introduced and indigenous species can lead to loss of unique genetic resources and precipitate extinction. In Tanzania, the Nile tilapia () and blue-spotted tilapia () have been widely introduced to non-native habitats for aquaculture and development of capture fisheries. Here, we aimed to quantify interspecific hybridization between these introduced species and the indigenous species , and .

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  • From the 1950s, East Africa has implemented aquaculture and fisheries programs focused on introduced species, though documentation in Tanzania has been lacking.
  • A study conducted between 2011 and 2017 identified tilapia species across 123 locations, revealing 14 native taxa and three species, including one exotic (blue-spotted tilapia) that have expanded their range.
  • Habitat modeling suggests that suitable conditions for these introduced species will persist and possibly expand due to changing climate projections, aiding in biodiversity management and informing future policies on aquaculture.
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The hundreds of cichlid fish species in Lake Malawi constitute the most extensive recent vertebrate adaptive radiation. Here we characterize its genomic diversity by sequencing 134 individuals covering 73 species across all major lineages. The average sequence divergence between species pairs is only 0.

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  • Hybridization between invasive tilapia species and indigenous Wami tilapia in Tanzania poses significant genetic and morphological risks, as indicated by studies conducted at Mindu Reservoir and Kidatu.
  • The research utilized genetic screening and morphological assessments and found hybrids displaying a diverse range of physical traits that overlap with both parent species.
  • The findings suggest that the introduction of invasive tilapia has greatly affected the gene pool and traits of indigenous tilapia populations, leading to recommendations for caution in further invasive species introductions, especially when no clear benefits exist.
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Deepwater environments are characterized by low levels of available light at narrow spectra, great hydrostatic pressure, and low levels of dissolved oxygen-conditions predicted to exert highly specific selection pressures. In Lake Malawi over 800 cichlid species have evolved, and this adaptive radiation extends into the "twilight zone" below 50 m. We use population-level RAD-seq data to investigate whether four endemic deepwater species ( spp.

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The genetic architecture of mate preferences is likely to affect significant evolutionary processes, including speciation and hybridization. Here, we investigate laboratory hybrids between a pair of sympatric Lake Victoria cichlid fish species that appear to have recently evolved from a hybrid population between similar predecessor species. The species demonstrate strong assortative mating in the laboratory, associated with divergent male breeding coloration (red dorsum versus blue).

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The genomic causes and effects of divergent ecological selection during speciation are still poorly understood. Here we report the discovery and detailed characterization of early-stage adaptive divergence of two cichlid fish ecomorphs in a small (700 meters in diameter) isolated crater lake in Tanzania. The ecomorphs differ in depth preference, male breeding color, body shape, diet, and trophic morphology.

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