39 results on '"Teske, Peter R."'
Search Results
2. Thermal selection as a driver of marine ecological speciation.
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Teske, Peter R., Sandoval-Castillo, Jonathan, Golla, Tirupathi Rao, Emami-Khoyi, Arsalan, Tine, Mbaye, von der Heyden, Sophie, and Beheregaray, Luciano B.
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MARINE ecology , *GENETIC speciation , *VICARIANCE , *THERMAL gradient measurment , *PHYLOGENY - Abstract
Intraspecific genetic structure in widely distributed marine species often mirrors the boundaries between temperature-defined bioregions. This suggests that the same thermal gradients that maintain distinct species assemblages also drive the evolution of new biodiversity. Ecological speciation scenarios are often invoked to explain such patterns, but the fact that adaptation is usually only identified when phylogenetic splits are already evident makes it impossible to rule out the alternative scenario of allopatric speciation with subsequent adaptation. We integrated large-scale genomic and environmental datasets along one of the world's best-defined marine thermal gradients (the South African coastline) to test the hypothesis that incipient ecological speciation is a result of divergence linked to the thermal environment. We identified temperature-associated gene regions in a coastal fish species that is spatially homogeneous throughout several temperature-defined biogeographic regions based on selectively neutral markers. Based on these gene regions, the species is divided into geographically distinct regional populations. Importantly, the ranges of these populations are delimited by the same ecological boundaries that define distinct infraspecific genetic lineages in co-distributed marine species, and biogeographic disjunctions in species assemblages. Our results indicate that temperature-mediated selection represents an early stage of marine ecological speciation in coastal regions that lack physical dispersal barriers. [ABSTRACT FROM AUTHOR]
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- 2019
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3. An overview of Australia's temperate marine phylogeography, with new evidence from high-dispersal gastropods.
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Teske, Peter R., Sandoval ‐ Castillo, Jonathan, Waters, Jonathan, and Beheregaray, Luciano B.
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GASTROPODA , *GEOGRAPHICAL distribution of mollusks , *MOLLUSK dispersal , *PLANKTON , *MARINE ecology - Abstract
Aim We provide an overview of the location and ages of coastal phylogeographical breaks in southern Australian planktonic dispersers, and test the hypothesis that the absence of such breaks in some species is an artefact of insufficient resolution of genetic markers when such breaks evolved comparatively recently. Location Temperate coastal Australia. Methods We generated a large (> 1500 individuals) data set from rapidly evolving microsatellite markers for two codistributed Australian coastal gastropods, and compared it with mitochondrial DNA data. Both study species, the snail Nerita atramentosa and the limpet Siphonaria diemenensis, have long planktonic dispersal phases, and neither taxon exhibits substantial regional genetic structure on the basis of mitochondrial DNA. We tested for the presence of genetic structure by means of AMOVA, Bayesian clustering ( structure) and iterated realloction ( flock). Results There was no compelling evidence for the existence of more than one evolutionary lineage in either species. Main conclusions Discrepancies in the phylogeographical structuring of co-distributed intertidal taxa cannot be attributed to insufficient marker resolution for the two species considered here, and likely reflect a combination of abiotic and biotic factors that include porous dispersal barriers, life history and species age/history. It appears that contemporary oceanography does not explain the presence of phylogeographical breaks, but may serve to maintain breaks that evolved earlier. Deep genetic divergence in some of the previously studied coastal invertebrates suggests that these could be cryptic species, in which case competitive exclusion may play a role in constraining species biogeography. [ABSTRACT FROM AUTHOR]
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- 2017
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4. The subspecies of Antarctic Terns (Sterna vittata) wintering on the South African coast: evidence from morphology, genetics and stable isotopes.
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Connan, Maëlle, Teske, Peter R., Tree, Anthony J., Whittington, Philip A., and McQuaid, Christopher D.
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SUBSPECIES , *STERNA vittata , *BIRD morphology , *MITOCHONDRIAL DNA , *STABLE isotope analysis , *NUCLEOTIDE sequence - Abstract
Five to seven subspecies of Antarctic Tern (Sterna vittata) are recognised, with at least three (S. v. vittata, S. v. tristanensis and S. v. sanctipauli) wintering in South Africa. Morphological characters used to define these subspecies are not perfectly reliable, but fidelity to nesting site suggests they could be genetically distinct. We used morphological data and DNA to investigate the validity of subspecies. We further used stable isotope analysis of feather samples collected from the non-breeding grounds in South Africa to attempt to ascertain the population of origin. Nuclear and mitochondrial DNA sequence data identified two major genetic clades: one mostly comprised individuals partially or completely matching the morphological description of S. v. tristanensis, the other included individuals from S. v. vittata and S. v. sanctipauli. Stable isotope values indicated that juveniles originated from at least three populations. Irrespective of their morphological and genetic characteristics, most immatures moulted in Antarctic waters, and adults moulted in various habitats. Their colony of origin could not therefore be inferred from stable isotope values from feathers. Results indicate that morphological groupings may reflect a north-south cline across the Indian Ocean. Adequate conservation strategies require rigorous reassessment of the currently accepted subspecies, including DNA analyses of samples from the breeding grounds, particularly on Amsterdam and St Paul Islands. [ABSTRACT FROM AUTHOR]
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- 2015
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5. Can novel genetic analyses help to identify low‐dispersal marine invasive species?
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Teske, Peter R., Sandoval‐Castillo, Jonathan, Waters, Jonathan M., and Beheregaray, Luciano B.
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MARINE biological invasions , *INTRODUCED aquatic species , *BIOGEOGRAPHY , *COLONIZATION (Ecology) , *SPECIES distribution - Abstract
Abstract: Genetic methods can be a powerful tool to resolve the native versus introduced status of populations whose taxonomy and biogeography are poorly understood. The genetic study of introduced species is presently dominated by analyses that identify signatures of recent colonization by means of summary statistics. Unfortunately, such approaches cannot be used in low‐dispersal species, in which recently established populations originating from elsewhere in the species' native range also experience periods of low population size because they are founded by few individuals. We tested whether coalescent‐based molecular analyses that provide detailed information about demographic history supported the hypothesis that a sea squirt whose distribution is centered on Tasmania was recently introduced to mainland Australia and New Zealand through human activities. Methods comparing trends in population size (Bayesian Skyline Plots and Approximate Bayesian Computation) were no more informative than summary statistics, likely because of recent intra‐Tasmanian dispersal. However, IMa2 estimates of divergence between putatively native and introduced populations provided information at a temporal scale suitable to differentiate between recent (potentially anthropogenic) introductions and ancient divergence, and indicated that all three non‐Tasmanian populations were founded during the period of European settlement. While this approach can be affected by inaccurate molecular dating, it has considerable (albeit largely unexplored) potential to corroborate nongenetic information in species with limited dispersal capabilities. [ABSTRACT FROM AUTHOR]
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- 2014
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6. Mitonuclear discordance in genetic structure across the Atlantic/Indian Ocean biogeographical transition zone.
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Teske, Peter R., Papadopoulos, Isabelle, Barker, Nigel P., McQuaid, Christopher D., Beheregaray, Luciano B., and Crame, Alistair
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MITOCHONDRIAL DNA analysis , *GENETIC markers , *CRAB anatomy , *GENETIC polymorphisms , *APICAL ancestors , *HYMENOSOMATIDAE - Abstract
Aim Based on mitochondrial DNA (mt DNA) data, many organisms with ranges spanning multiple biogeographical regions exhibit genetic structure across the transition zones between these regions, while others appear to be genetically homogenous. No clear link has been found between the presence or absence of such spatial genetic discontinuities and species' dispersal potential, confounding the formulation of general predictions concerning genetic structure. The fact that discrepancies between mt DNA and nuclear markers are common across semi-permeable barriers suggests that a lack of structure could be attributable to mt DNA-specific properties of inheritance. We re-examined genetic structure in the coastal crab Hymenosoma orbiculare, a species that is represented by a single mt DNA lineage across the Atlantic/Indian Ocean biogeographical transition zone, by comparing mt DNA data with nuclear DNA data. Location South Africa's cool-temperate and warm-temperate marine biogeographical provinces. Methods DNA sequence data from the mitochondrial COI gene and the intron of the nuclear ANT gene were generated for 150 individuals of H. orbiculare. For each locus, we determined whether the sharing of alleles between provinces was the result of either the retention of ancestral polymorphism or of secondary contact. Results We recovered two nuclear intron lineages whose spatial genetic structure reflects contemporary biogeographical and oceanographical conditions, indicating that the existence of a single mt DNA lineage is not a function of unexpectedly high levels of dispersal. Main conclusions Mt DNA-based genetic homogeneity is increasingly being reported in coastal organisms with ranges spanning biogeographical transition zones that define distinct evolutionary lineages in other species. Our results stress the importance of revisiting single-locus data sets by means of multilocus genetic approaches before any conclusions can be drawn about the role of biogeographical transition zones in driving genetic structure. [ABSTRACT FROM AUTHOR]
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- 2014
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7. Cryptic diversity in coastal Australasia: a morphological and mitonuclear genetic analysis of habitat-forming sibling species.
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Rius, Marc and Teske, Peter R.
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HABITATS , *BIODIVERSITY , *SEA squirts , *CYTOCHROME oxidase , *ADENINE nucleotides , *INTRONS , *ANIMAL morphology - Abstract
Cryptic diversity represents a major challenge to the accurate assessment of biodiversity, but the combined use of genetic and morphological analyses has proven to be a powerful approach to detect it. This is especially important for groups for which genetic information is not yet available. Here, we studied the highly conspicuous habitat-forming Pyura stolonifera species complex ( Tunicata), which, as has recently been revealed, shows surprising levels of cryptic diversity, but whose systematics and biogeographical patterns in Australasia nonetheless remain poorly understood. We first present detailed taxonomic information of all the species associated with the P. stolonifera species complex. We then proceed to describe the results of an exhaustive survey that included south-east Australia, Tasmania, and New Zealand. Subsequently, we present morphological and mitonuclear genetic analysis of two unresolved lineages that comprise the species Pyura praeputialis and a species that is formally described here ( Pyura doppelgangera sp. nov.). Although the ranges of these two species overlap on mainland Australia, we found no sites at which both species live in sympatry, and there was no morphological or genetic evidence of hybridization. Taken together, the present study illustrates the usefulness of a combined morphogenetic approach in unravelling overlooked marine diversity in a relatively well-studied region. © 2013 The Linnean Society of London [ABSTRACT FROM AUTHOR]
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- 2013
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8. Mitochondrial DNA paradox: sex-specific genetic structure in a marine mussel - despite maternal inheritance and passive dispersal.
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Teske, Peter R., Papadopoulos, Isabelle, Barker, Nigel P., and McQuaid, Christopher D.
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GENES , *MOLECULAR genetics , *DNA , *MITOCHONDRIA , *HEREDITY - Abstract
Background: When genetic structure is identified using mitochondrial DNA (mtDNA), but no structure is identified using biparentally-inherited nuclear DNA, the discordance is often attributed to differences in dispersal potential between the sexes. Results: We sampled the intertidal rocky shore mussel Perna perna in a South African bay and along the nearby open coast, and sequenced maternally-inherited mtDNA (there is no evidence for paternally-inherited mtDNA in this species) and a biparentally-inherited marker. By treating males and females as different populations, we identified significant genetic structure on the basis of mtDNA data in the females only. Conclusions: This is the first study to report sex-specific differences in genetic structure based on matrilineallyinherited mtDNA in a passively dispersing species that lacks social structure or sexual dimorphism. The observed pattern most likely stems from females being more vulnerable to selection in habitats from which they did not originate, which also manifests itself in a male-biased sex ratio. Our results have three important implications for the interpretation of population genetic data. First, even when mtDNA is inherited exclusively in the female line, it also contains information about males. For that reason, using it to identify sex-specific differences in genetic structure by contrasting it with biparentally-inherited markers is problematic. Second, the fact that sex-specific differences were found in a passively dispersing species in which sex-biased dispersal is unlikely highlights the fact that significant genetic structure is not necessarily a function of low dispersal potential or physical barriers. Third, even though mtDNA is typically used to study historical demographic processes, it also contains information about contemporary processes. Higher survival rates of males in non-native habitats can erase the genetic structure present in their mothers within a single generation. [ABSTRACT FROM AUTHOR]
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- 2012
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9. Climate-driven genetic divergence of limpets with different life histories across a southeast African marine biogeographic disjunction: different processes, same outcome.
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TESKE, PETER R., PAPADOPOULOS, ISABELLE, MMONWA, K. LUCAS, MATUMBA, T. GIVEN, McQUAID, CHRISTOPHER D., BARKER, NIGEL P., and BEHEREGARAY, LUCIANO B.
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PHYLOGEOGRAPHY , *OCEAN currents , *PLANKTON , *LIMPETS , *MARINE animal geographical distribution , *BEHAVIOR - Abstract
Genetic divergence among populations of marine broadcast spawners in the absence of past geological barriers presents an intriguing challenge to understanding speciation in the sea. To determine how differences in life history affect genetic divergence and demographic histories across incomplete dispersal barriers, we conducted a comparative phylogeographic study of three intertidal limpets ( Siphonaria spp.) represented on either side of a biogeographic disjunction separating tropical and subtropical marine provinces in southeastern Africa. Using a combination of mitochondrial and nuclear sequence data, we identified two distinct evolutionary lineages each in both Siphonaria concinna (a planktonic disperser) and S. nigerrima (a direct developer), and panmixia in a second planktonic disperser, S. capensis. Although phylogeographic breaks were present in two species, how these became established differed depending on their life histories. In the direct developer, lack of gene flow following divergence, and demographic expansion from a small initial size in the species' subtropical population, point to a single colonisation event. In contrast, the evolutionary lineages of the planktonic disperser split into two genetic lineages with much larger initial population sizes and southward gene flow continued at least periodically, indicating that divergence in this species may have been driven by a combination of reduced larval dispersal and divergent selection. These findings help explain why the presence or absence of phylogeographic breaks often appears to be independent of species' dispersal potential. [ABSTRACT FROM AUTHOR]
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- 2011
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10. A review of marine phylogeography in southern Africa.
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Teske, Peter R., Heyden, Sophie von der, McQuaid, Christopher D., and Barker, Nigel P.
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PHYLOGEOGRAPHY , *MARINE ecology , *MARINE biodiversity , *BIOTIC communities , *BIODIVERSITY - Abstract
The southern African marine realm is located at the transition zone between the Atlantic and Indo-Pacific biomes. Its biodiversity is particularly rich and comprises faunal and floral elements from the two major oceanic regions, as well as a large number of endemics. Within this realm, strikingly different biota occur in close geographic proximity to each other, and many of the species with distributions spanning two or more of the region's marine biogeographic provinces are divided into evolutionary units that can often only be distinguished on the basis of genetic data. In this review, we describe the state of marine phylogeography in southern Africa, that is, the study of evolutionary relationships at the species level, or amongst closely related species, in relation to the region's marine environment. We focus particularly on coastal phylogeography, where much progress has recently been made in identifying phylogeographic breaks and explaining how they originated and are maintained. We also highlight numerous shortcomings that should be addressed in the near future. These include: the limited data available for commercially important organisms, particularly offshore species; the paucity of oceanographic data for nearshore areas; a dearth of studies based on multilocus data; and the fact that studying the role of diversifying selection in speciation has been limited to physiological approaches to the exclusion of genetics. It is becoming apparent that the southern African marine realm is one of the world's most interesting environments in which to study the evolutionary processes that shape not only regional, but also global patterns of marine biodiversity. [ABSTRACT FROM AUTHOR]
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- 2011
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11. "Nested" cryptic diversity in a widespread marine ecosystem engineer: a challenge for detecting biological invasions.
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Teske, Peter R., Rius, Marc, McQuaid, Christopher D., Styan, Craig A., Piggott, Maxine P., Benhissoune, Saïd, Fuentes-Grünewald, Claudio, Walls, Kathy, Page, Mike, Attard, Catherine R. M., Cooke, Georgina M., McClusky, Claire F., Banks, Sam C., Barker, Nigel P., and Beheregaray, Luciano B.
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HABITATS , *NUCLEOTIDE sequence , *BIOTIC communities , *DNA - Abstract
Background: Ecosystem engineers facilitate habitat formation and enhance biodiversity, but when they become invasive, they present a critical threat to native communities because they can drastically alter the receiving habitat. Management of such species thus needs to be a priority, but the poorly resolved taxonomy of many ecosystem engineers represents a major obstacle to correctly identifying them as being either native or introduced. We address this dilemma by studying the sea squirt Pyura stolonifera, an important ecosystem engineer that dominates coastal communities particularly in the southern hemisphere. Using DNA sequence data from four independently evolving loci, we aimed to determine levels of cryptic diversity, the invasive or native status of each regional population, and the most appropriate sampling design for identifying the geographic ranges of each evolutionary unit. Results: Extensive sampling in Africa, Australasia and South America revealed the existence of "nested" levels of cryptic diversity, in which at least five distinct species can be further subdivided into smaller-scale genetic lineages. The ranges of several evolutionary units are limited by well-documented biogeographic disjunctions. Evidence for both cryptic native diversity and the existence of invasive populations allows us to considerably refine our view of the native versus introduced status of the evolutionary units within Pyura stolonifera in the different coastal communities they dominate. Conclusions: This study illustrates the degree of taxonomic complexity that can exist within widespread species for which there is little taxonomic expertise, and it highlights the challenges involved in distinguishing between indigenous and introduced populations. The fact that multiple genetic lineages can be native to a single geographic region indicates that it is imperative to obtain samples from as many different habitat types and biotic zones as possible when attempting to identify the source region of a putative invader. "Nested" cryptic diversity, and the difficulties in correctly identifying invasive species that arise from it, represent a major challenge for managing biodiversity. [ABSTRACT FROM AUTHOR]
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- 2011
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12. Tri-locus sequence data reject a “Gondwanan origin hypothesis” for the African/South Pacific crab genus Hymenosoma
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Teske, Peter R., McLay, Colin L., Sandoval-Castillo, Jonathan, Papadopoulos, Isabelle, Newman, Brent K., Griffiths, Charles L., McQuaid, Christopher D., Barker, Nigel P., Borgonie, Gaetan, and Beheregaray, Luciano B.
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LOCUS (Genetics) , *CRABS , *HYMENOSOMATIDAE , *MOLECULAR phylogeny , *HYPOTHESIS , *BIOLOGICAL evolution - Abstract
Abstract: Crabs of the family Hymenosomatidae are common in coastal and shelf regions throughout much of the southern hemisphere. One of the genera in the family, Hymenosoma, is represented in Africa and the South Pacific (Australia and New Zealand). This distribution can be explained either by vicariance (presence of the genus on the Gondwanan supercontinent and divergence following its break-up) or more recent transoceanic dispersal from one region to the other. We tested these hypotheses by reconstructing phylogenetic relationships among the seven presently-accepted species in the genus, as well as examining their placement among other hymenosomatid crabs, using sequence data from two nuclear markers (Adenine Nucleotide Transporter [ANT] exon 2 and 18S rDNA) and three mitochondrial markers (COI, 12S and 16S rDNA). The five southern African representatives of the genus were recovered as a monophyletic lineage, and another southern African species, Neorhynchoplax bovis, was identified as their sister taxon. The two species of Hymenosoma from the South Pacific neither clustered with their African congeners, nor with each other, and should therefore both be placed into different genera. Molecular dating supports a post-Gondwanan origin of the Hymenosomatidae. While long-distance dispersal cannot be ruled out to explain the presence of the family Hymenosomatidae on the former Gondwanan land-masses and beyond, the evolutionary history of the African species of Hymenosoma indicates that a third means of speciation may be important in this group: gradual along-coast dispersal from tropical towards temperate regions, with range expansions into formerly inhospitable habitat during warm climatic phases, followed by adaptation and speciation during subsequent cooler phases. [Copyright &y& Elsevier]
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- 2009
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13. Does the endangered Knysna seahorse, Hippocampus capensis, have a preference for aquatic vegetation type, cover or height?
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Teske, Peter R., Lockyear, Jacqueline F., Hecht, Thomas, and Kaiser, Horst
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SEA horses , *OSTEICHTHYES , *VEGETATION dynamics , *AQUATIC plants , *AQUATIC biodiversity conservation , *ESTUARIES - Abstract
The Knysna seahorse, Hippocampus capensis, is an endangered teleost confined to three South African estuaries. Its abundance within these systems is low and distributions are patchy. Consequently, monitoring population sizes is labour-intensive. The aim of this study was to establish if Knysna seahorses are associated with specific regions within the estuaries, on which conservation efforts could concentrate. The relationship of Knysna seahorses with aquatic vegetation was analysed in the Knysna Estuary (the largest of the three estuarine systems inhabited by H. capensis) to determine whether this species shows a preference for a particular plant species, vegetation density or vegetation height. Seahorses were associated with five dominant aquatic plants: Zostera capensis, Caulerpa filiformis, Codium extricatum, Halophila avails and Ruppia cirrhosa. Together, these comprised 96% of the submerged objects with which seahorses were associated. The relative abundance of plant species changed along the estuary, but seahorses were present throughout the system, except at the estuary mouth, which was characterized by low plant densities and strong currents. No significant difference was found between the proportion of plant species present in a particular region of the estuary and the proportion of plants that seahorses used as holdfasts. However, when Z. capensis and C. filiformis were present at the same sites, adult seahorses preferred C. filiformis as holdfast. Adult seahorse density (individuals/m²) was significantly correlated with percentage vegetation cover and with holdfast length, but juvenile seahorse density was not. Nonetheless, significantly more adult and juvenile seahorses were found at sites characterized by high vegetation cover (> 75%) than at sites with lower cover. Our results indicate that although there is some evidence that Knynsa seahorses prefer certain plant species over others, they are likely to be encountered anywhere in the estuary where aquatic plants are present. Conservation efforts in the Knysna Estuary should thus concentrate on such vegetated areas, which comprise approximately 11% of the total submerged surface area. [ABSTRACT FROM AUTHOR]
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- 2007
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14. Affinities of some common estuarine macroinvertebrates to salinity and sediment type: empirical data from Eastern Cape estuaries, South Africa.
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Teske, Peter R. and Wooldridge, Tris H.
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SALINITY , *ESTUARIES , *SPECIES , *ZOOLOGY - Abstract
Fourteen species of subtidal macrobenthos present in thirteen Eastern Cape estuaries. South Africa, were compared with regard to correlations with two important environmental variables (salinity and sediment mud content). Species were divided into five different faunal components based on their affinity with one of the two variables, namely marine species, oligohaline species, estuarine sand species, estuarine mud species, and species whose distribution seemed independent of either environmental variable. Although most species exhibited wide tolerance ranges to both environmental variables, preference ranges could be identified in many cases. Among the fourteen species studied, three were found mostly at high salinities, two were confined to sandy substratum, and four showed a clear preference for muddy sediment. The crab Paratylodiplax algoense was identified as a euryhaline marine species and the larvae of chironomid midges, previously believed to be oligohaline species, were found to be tolerant to near-seawater salinities. [ABSTRACT FROM AUTHOR]
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- 2004
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15. The evolutionary history of seahorses (Syngnathidae: Hippocampus): molecular data suggest a West Pacific origin and two invasions of the Atlantic Ocean
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Teske, Peter R., Cherry, Michael I., and Matthee, Conrad A.
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SEA horses , *EVOLUTIONARY theories , *BIOMARKERS , *PHYLOGENY - Abstract
Sequence data derived from four markers (the nuclear RP1 and Aldolase and the mitochondrial 16S rRNA and cytochrome
b genes) were used to determine the phylogenetic relationships among 32 species belonging to the genus Hippocampus. There were marked differences in the rate of evolution among these gene fragments, with Aldolase evolving the slowest and the mtDNA cytochromeb gene the fastest. The RP1 gene recovered the highest number of nodes supported by> 70% bootstrap values from parsimony analysis and> 95% posterior probabilities from Bayesian inference. The combined analysis based on 2317 nucleotides resulted in the most robust phylogeny. A distinct phylogenetic split was identified between the pygmy seahorse, Hippocampus bargibanti, and a clade including all other species. Three species from the western Pacific Ocean included in our study, namely H. bargibanti, H. breviceps, and H. abdominalis occupy basal positions in the phylogeny. This and the high species richness in the region suggests that the genus evolved somewhere in the West Pacific. There is also fairly strong molecular support for the remaining species being subdivided into three main evolutionary lineages: two West Pacific clades and a clade of species present in both the Indo-Pacific and the Atlantic Ocean. The phylogeny obtained herein suggests at least two independent colonization events of the Atlantic Ocean, once before the closure of the Tethyan seaway, and once afterwards. [Copyright &y& Elsevier]- Published
- 2004
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16. What limits the distribution of subtidal macrobenthos in permanently open and temporarily open/closed South African estuaries? Salinity vs. sediment particle size
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Teske, Peter R. and Wooldridge, Tris H.
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ESTUARIES - Abstract
Thirteen estuaries in the Eastern Cape Province, South Africa, were assigned to one of four types of estuaries (river-dominated permanently open, marine-dominated permanently open, medium-sized temporarily open/closed and small temporarily open/closed), and macrobenthic zonation patterns were compared using multivariate statistics. Three major habitat zones were identified: two relating to substrate (a sand zone and a mud zone), and a third zone characterised by water of low salinity (≤2.2). These zones are inhabited by four major groups of macrobenthos. The distribution of two of these (estuarine endemic sand fauna and estuarine endemic mud fauna) is limited by the nature of the substratum, whereas the distribution of the other two (fauna originating from the marine habitat and oligohaline fauna) is limited by salinity. Estuarine endemics were present in all four types of estuaries. Marine fauna was numerically important only in permanently open systems, while oligohaline fauna was abundant only in the upper reaches of river dominated open systems. Medium-sized temporarily open/closed estuaries lacked both marine and oligohaline forms, but these were present to a limited extent in small temporarily open/closed estuaries. Hence, salinity is not the primary environmental variable determining zonation patterns in Eastern Cape estuaries, and particularly in temporarily open/closed estuaries, it is of minor importance. [Copyright &y& Elsevier]
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- 2003
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17. Comparative phylogeography in a marine biodiversity hotspot provides novel insights into evolutionary processes across the Atlantic‐Indian Ocean transition.
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Dalongeville, Alicia, Nielsen, Erica S., Teske, Peter R., von der Heyden, Sophie, and Guo, Baocheng
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MARINE biodiversity , *PHYLOGEOGRAPHY , *GEOGRAPHY , *CYTOCHROME oxidase , *GENETIC variation , *OCEAN temperature , *CYTOCHROME b , *HAPLOTYPES - Abstract
Aim: Intraspecific genetic variation is a key component of biodiversity, with higher diversity indicating greater resilience and population substructuring suggesting unique evolutionary histories. Comparative approaches, in which intraspecific genetic variation is assessed across multiple species, are powerful tools to identify evolutionary hotspots, but are still rarely applied at spatial scales relevant to conservation planning. Here, we use comparative phylogeography to understand patterns and potential drivers of genetic variation within a biodiversity and ocean warming hotspot. Location: The South African coastline, Indian/Atlantic Oceans. Methods: A literature search was conducted to obtain mitochondrial DNA cytochrome oxidase c subunit I and cytochrome b sequence data for 17 marine fish and invertebrate species. From these data, we compared averages of haplotype and nucleotide diversity, and within‐region ΦST between four biogeographic provinces in the region. Mixed linear models tested whether environmental variability, habitat preference, or geographic location significantly influence genetic variation. Results: Average diversity values differed between haplotype and nucleotide diversity, but both broadly displayed highest diversity levels within the South‐West bioregion, which is also a region of high levels of within‐region ΦST. Range in sea surface temperatures (SSTs) was the only significant fixed‐effect term in the haplotype diversity mixed linear models. Mean SST, stability in SSTs since the Mid‐Holocene and position within the species' geographic distribution all had no significant effect on genetic variation. Main conclusions: Along this coastline characterized by high environmental heterogeneity, we find that variation in temperature is a prominent source of intraspecific variation. Genetic diversity differs between bioregions, but does not display higher levels within the core of each species' range when assessed across multiple species. With elevated levels of genetic diversity, the South‐West region of the South African coast is highlighted as a conservation priority area, representing both high genetic diversity and differentiation across taxa. [ABSTRACT FROM AUTHOR]
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- 2022
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18. Microsatellite markers for the roman, Chrysoblephus laticeps (Teleostei: Sparidae), an overexploited seabream from South Africa.
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TESKE, PETER R., COWLEY, PAUL D., FORGET, FABIEN R . G., and BEHEREGARAY, LUCIANO B .
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MICROSATELLITE repeats , *MARINE parks & reserves , *HARDY-Weinberg formula , *HETEROZYGOSITY , *PHYLOGEOGRAPHY , *FISHERIES - Abstract
Eleven polymorphic microsatellite loci were developed from an enrichment library of the roman, Chrysoblephus laticeps, and characterized for 40 individuals collected in Africa's largest and oldest Marine Protected Area (MPA), the Tsitsikamma National Park. The number of alleles per locus ranged from three to 19, and heterozygosities ranged from 0.20 to 0.85. A significant departure from Hardy–Weinberg equilibrium was detected for one locus, and linkage disequilibrium was identified among three pairs of loci. The markers will be useful to detect whether populations resident in MPAs along the South African coast are genetically connected, and whether there is spillover of recruits into adjacent exploited areas. [ABSTRACT FROM AUTHOR]
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- 2009
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19. Intron-spanning primers for the amplification of the nuclear ANT gene in decapod crustaceans.
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TESKE, PETER R. and BEHEREGARAY, LUCIANO B.
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DECAPODA , *POLYMERASE chain reaction , *DNA primers , *ADENINE nucleotides , *PURINE nucleotides , *GENES , *ANIMAL species - Abstract
We describe polymerase chain reaction primers that amplify the low-copy nuclear adenine nucleotide transporter gene in decapod crustaceans. These were tested on 35 species from 14 decapod families, and a single polymerase chain reaction product amplified in 32 species. Of 49 sequences generated, only two did not contain an intron, and the longest intron identified was more than 834 nucleotides in length. The amplified fragment is likely to be useful at various taxonomic levels. While the intron is suitable for phylogeographical/population genetic studies and to identify cryptic speciation, the second exon region is sufficiently long to provide signal at both the phylogeographical and phylogenetic levels. [ABSTRACT FROM AUTHOR]
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- 2009
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20. Hundreds of new DNA barcodes for South African sponges.
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Ngwakum, Benedicta B., Payne, Robyn P., Teske, Peter R., Janson, Liesl, Kerwath, Sven E., and Samaai, Toufiek
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CYTOCHROME oxidase , *INFORMATION resources , *GENETIC barcoding , *DNA , *DNA analysis - Abstract
DNA barcoding based on a fragment of the cytochrome c oxidase subunit I (COI) gene from the mitochondrial genome is widely applied in species identification, species discovery and biodiversity studies. The aim of this study was to establish a barcoding reference database of sponges collected from South Africa, and evaluate the applicability of the COI gene for aiding in the identification of sponges in combination with tentative morphological identifications. A total of 317 mitochondrial COI barcode sequences, with an additional 21 extended COI fragments and 24 nuclear ITS sequences, were obtained from 11 orders, 38 families, 58 genera and 124 species of spiculated sponges. A Neighbour Joining (NJ) trees that were reconstructed using these sequences in most cases clustered species in accordance with their current taxonomic identification, and we conclude that COI sequencing can be used to aid in the identification of sponge species. We further demonstrate that DNA barcoding analysis has potential to uncover cryptic sponge species, and to reveal dubious morphological identifications. We recommend that future taxonomic studies of South African sponges incorporate multiple sources of information for species identification or discovery. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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21. Genomics-informed models reveal extensive stretches of coastline under threat by an ecologically dominant invasive species.
- Author
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Hudson, Jamie, Carlos Castilla, Juan, Teske, Peter R., Beheregaray, Luciano B., Haigh, Ivan D., McQuaid, Christopher D., and Rius, Marc
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SPECIES distribution , *INTRODUCED species , *COASTS , *GENOMICS - Abstract
Explaining why some species are widespread, while others are not, is fundamental to biogeography, ecology, and evolutionary biology. A unique way to study evolutionary and ecological mechanisms that either limit species’ spread or facilitate range expansions is to conduct research on species that have restricted distributions. Nonindigenous species, particularly those that are highly invasive but have not yet spread beyond the introduced site, represent ideal systems to study range size changes. Here, we used species distribution modeling and genomic data to study the restricted range of a highly invasive Australian marine species, the ascidian Pyura praeputialis. This species is an aggressive space occupier in its introduced range (Chile), where it has fundamentally altered the coastal community. We found high genomic diversity in Chile, indicating high adaptive potential. In addition, genomic data clearly showed that a single region from Australia was the only donor of genotypes to the introduced range. We identified over 3,500 km of suitable habitat adjacent to its current introduced range that has so far not been occupied, and importantly species distribution models were only accurate when genomic data were considered. Our results suggest that a slight change in currents, or a change in shipping routes, may lead to an expansion of the species’ introduced range that will encompass a vast portion of the South American coast. Our study shows how the use of population genomics and species distribution modeling in combination can unravel mechanisms shaping range sizes and forecast future range shifts of invasive species. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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22. Genome‐wide analysis of European sea bass provides insights into the evolution and functions of single‐exon genes.
- Author
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Tine, Mbaye, Kuhl, Heiner, Teske, Peter R., and Reinhardt, Richard
- Subjects
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EUROPEAN seabass , *GENES , *GENE expression , *PROMOTERS (Genetics) - Abstract
Several studies have attempted to understand the origin and evolution of single‐exon genes (SEGs) in eukaryotic organisms, including fishes, but few have examined the functional and evolutionary relationships between SEGs and multiple‐exon gene (MEG) paralogs, in particular the conservation of promoter regions. Given that SEGs originate via the reverse transcription of mRNA from a "parental" MEGs, such comparisons may enable identifying evolutionarily‐related SEG/MEG paralogs, which might fulfill equivalent physiological functions. Here, the relationship of SEG proportion with MEG count, gene density, intron count, and chromosome size was assessed for the genome of the European sea bass, Dicentrarchus labrax. Then, SEGs with an MEG parent were identified, and promoter sequences of SEG/MEG paralogs were compared, to identify highly conserved functional motifs. The results revealed a total count of 1,585 (8.3% of total genes) SEGs in the European sea bass genome, which was correlated with MEG count but not with gene density. The significant correlation of SEG content with the number of MEGs suggests that SEGs were continuously and independently generated over evolutionary time following species divergence through retrotranscription events, followed by tandem duplications. Functional annotation showed that the majority of SEGs are functional, as is evident from their expression in RNA‐seq data used to support homology‐based genome annotation. Differences in 5′UTR and 3′UTR lengths between SEG/MEG paralogs observed in this study may contribute to gene expression divergence between them and therefore lead to the emergence of new SEG functions. The comparison of nonsynonymous to synonymous changes (Ka/Ks) between SEG/MEG parents showed that 74 of them are under positive selection (Ka/Ks > 1; p =.0447). An additional fifteen SEGs with an MEG parent have a common promoter, which implies that they are under the influence of common regulatory networks. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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23. Conservation priorities in an endangered estuarine seahorse are informed by demographic history.
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Mkare, Thomas Kalama, Jansen van Vuuren, Bettine, and Teske, Peter R.
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ENDANGERED species , *SEA horses , *MICROSATELLITE repeats , *ESTUARINE ecology , *DEMOGRAPHY - Abstract
Historical demographic events shape genetic diversity that remains evident in the genomes of contemporary populations. In the case of species that are of conservation concern, this information helps to unravel evolutionary histories that can be critical in guiding conservation efforts. The Knysna seahorse, Hippocampus capensis, is the world's most endangered seahorse species, and it presently survives in only three estuaries on the South African south coast. Factors that contributed to the species becoming endangered are unclear; additionally, the lack of information on whether the three populations should be managed separately because of potential long-term isolation hampers effective management efforts. In the present study, we reconstructed the seahorses' demographic history using a suite of microsatellite loci. We found that the largest population (Knysna Estuary) has colonised the other estuaries relatively recently (< 450 years ago), and that its population size is comparatively large and stable. Neither of the other two populations shows signs of long-term reductions in population size. The high conservation status of the species is thus a result of its limited range rather than historical population declines. Our findings indicate that the long-term survival of H. capensis depends primarily on the successful management of the Knysna population, although the other estuaries may serve as reservoirs of genetic diversity. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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24. Oceanography promotes self-recruitment in a planktonic larval disperser.
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Teske, Peter R., Sandoval-Castillo, Jonathan, van Sebille, Erik, Waters, Jonathan, and Beheregaray, Luciano B.
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- 2016
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25. Persistent effects of historical sea levels on the population structure of a temporary wetland copepod.
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Emami‐Khoyi, Arsalan, Jooste, Candice M., Wasserman, Ryan J., Dalu, Tatenda, Raath‐Krüger, Morgan J., Jansen van Vuuren, Bettine, and Teske, Peter R.
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VERNAL pools , *PHYLOGEOGRAPHY , *WETLANDS , *SEA level , *COLONIZATION (Ecology) , *INVERTEBRATE communities , *GENE flow - Abstract
Temporary wetland ecosystems are common in arid and semi‐arid environments, and are inhabited by diverse invertebrate communities. Little is known about the dynamics of genetic connectivity in the geographically scattered populations of these wetland specialists.The current study investigated the spatial genetic structure and dispersal history of a recently described calanoid copepod, Lovenula raynerae, reported from temporary wetlands in the Eastern Cape province of South Africa. We tested whether the species represents a single, well‐connected population or comprises different regional genetic groups, some of which may be rare or endangered.Mitochondrial COI sequences were generated for 365 specimens from 46 temporary wetlands spread across the species' known distribution range. Isolation‐by‐distance and isolation‐by‐environment patterns of partitioning genetic variations across the landscape were evaluated. In addition, the presence of historical impediments to gene flow between contemporary populations was investigated using a combination of Monmonier's algorithm and Bayesian reconstruction of phylogeographical diffusion in continuous space.The wetland populations were highly structured across the landscape and could be assigned to six distinct evolutionary lineages, potentially representing some level of cryptic speciation. Two distinct phases were identified in the dispersal history of these lineages. Initially, dispersal only occurred inland of a postulated barrier, but eventually the barrier disappeared and the species extended its range by spreading into regions close to the coastline. Molecular dating shows that the barrier represents the upper limit of the coastline during the Pliocene, and that its crossing was facilitated by Pliocene sea regression in southern Africa.Our finding shows that complex demographic histories can be preserved in the mitochondrial DNA of temporary wetland crustaceans because of limited effective gene flow after initial colonisation events. This makes them an interesting study system to explore the long‐term effects of climate change on arid ecosystem communities. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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26. Diversification and coevolution of the ghrelin/growth hormone secretagogue receptor system in vertebrates.
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Tine, Mbaye, Kuhl, Heiner, Teske, Peter R., Tschöp, Matthias H., and Jastroch, Martin
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BIODIVERSITY , *COEVOLUTION , *GHRELIN receptors , *SOMATOTROPIN receptors , *GASTROINTESTINAL motility , *FOOD consumption - Abstract
The gut hormone ghrelin is involved in numerous metabolic functions, such as the stimulation of growth hormone secretion, gastric motility, and food intake. Ghrelin is modified by ghrelin O-acyltransferase ( GOAT) or membrane-bound O-acyltransferase domain-containing 4 ( MBOAT4) enabling action through the growth hormone secretagogue receptors ( GHS-R). During the course of evolution, initially strong ligand/receptor specificities can be disrupted by genomic changes, potentially modifying physiological roles of the ligand/receptor system. Here, we investigated the coevolution of ghrelin, GOAT, and GHS-R in vertebrates. We combined similarity search, conserved synteny analyses, phylogenetic reconstructions, and protein structure comparisons to reconstruct the evolutionary history of the ghrelin system. Ghrelin remained a single-gene locus in all vertebrate species, and accordingly, a single GHS-R isoform was identified in all tetrapods. Similar patterns of the nonsynonymous ( d N) and synonymous ( d S) ratio ( d N/d S) in the vertebrate lineage strongly suggest coevolution of the ghrelin and GHS-R genes, supporting specific functional interactions and common physiological pathways. The selection profiles do not allow confirmation as to whether ghrelin binds specifically to GOAT, but the ghrelin d N/d S patterns are more similar to those of GOAT compared to MBOAT1 and MBOAT2 isoforms. Four GHS-R isoforms were identified in teleost genomes. This diversification of GHS-R resulted from successive rounds of duplications, some of which remained specific to the teleost lineage. Coevolution signals are lost in teleosts, presumably due to the diversification of GHS-R but not the ghrelin gene. The identification of the GHS-R diversity in teleosts provides a molecular basis for comparative studies on ghrelin's physiological roles and regulation, while the comparative sequence and structure analyses will assist translational medicine to determine structure-function relationships of the ghrelin/ GHS-R system. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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27. Molecular insights into species recognition within southern Africa's endemic Tricolia radiation (Vetigastropoda: Phasianellidae).
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Nangammbi, Tshifhiwa C., Herbert, David G., and Teske, Peter R.
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TRICOLIA , *ENDEMIC animals , *MOLLUSK morphology , *MOLECULAR biology , *RNA sequencing , *RIBOSOMAL RNA - Abstract
The validity of morphology-based species boundaries between the southern African representatives of the genus Tricolia Risso, 1826 was assessed using mitochondrial COI and 16S rRNA sequence data. Most phylogenies obtained from individual and combined genetic datasets recovered 10 of the southern African members of the genus as a monophyletic clade. No COI sequences of the 11th species (T. adusta) were available, but this species clustered among the other African species in the 16S rRNA phylogeny. Discrepancies between morphology and genetics were identified in two clades within which there was limited genetic variation and no differentiation between two groups of nominal species, comprising respectively T. africana (Bartsch, 1915) and T. capensis (Dunker, 1846), and T. bicarinata (Dunker, 1846), T. insignis (Turton, 1932) and T. kraussi (Smith, 1911). In both cases the distributions of the nominal taxa coincide with well-known biogeographic disjunctions, and there is evidence of overlapping and intergrading shell characters. We propose that both of these unresolved clades be recognized as single, phenotypically plastic species, for which the oldest available names are respectively T. capensis and T. bicarinata. Despite the resultant reduction in number of recognized species, the phasianellid fauna of southern Africa remains the most diverse in the world, with 10 endemic species and 3 tropical species extending south into KwaZulu-Natal. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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28. Mitogenome selection in the evolution of key ecological strategies in the ancient hexapod class Collembola.
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Monsanto, Daniela M., Main, Devon C., Janion-Scheepers, Charlene, Emami-Khoyi, Arsalan, Deharveng, Louis, Bedos, Anne, Potapov, Mikhail, Parbhu, Shilpa P., Le Roux, Johannes J., Teske, Peter R., and van Vuuren, Bettine Jansen
- Subjects
- *
COLLEMBOLA , *FOSSIL arthropods , *AEROBIC metabolism , *NATURAL selection , *FOSSILS , *CELL respiration - Abstract
A longstanding question in evolutionary biology is how natural selection and environmental pressures shape the mitochondrial genomic architectures of organisms. Mitochondria play a pivotal role in cellular respiration and aerobic metabolism, making their genomes functionally highly constrained. Evaluating selective pressures on mitochondrial genes can provide functional and ecological insights into the evolution of organisms. Collembola (springtails) are an ancient hexapod group that includes the oldest terrestrial arthropods in the fossil record, and that are closely associated with soil environments. Of interest is the diversity of habitat stratification preferences (life forms) exhibited by different species within the group. To understand whether signals of positive selection are linked to the evolution of life forms, we analysed 32 published Collembola mitogenomes in a phylomitogenomic framework. We found no evidence that signatures of selection are correlated with the evolution of novel life forms, but rather that mutations have accumulated as a function of time. Our results highlight the importance of nuclear-mitochondrial interactions in the evolution of collembolan life forms and that mitochondrial genomic data should be interpreted with caution, as complex selection signals may complicate evolutionary inferences. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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29. Marine dispersal and barriers drive Atlantic seahorse diversification.
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Boehm, J. T., Woodall, Lucy, Teske, Peter R., Lourie, Sara A., Baldwin, Carole, Waldman, John, Hickerson, Mike, and Rocha, Luiz
- Subjects
- *
MARINE animals , *ANIMAL dispersal , *SEA horses , *MARINE species diversity , *MITOCHONDRIAL DNA - Abstract
Aim To investigate how marine barriers shaped the demographic history of Atlantic seahorses (Syngnathidae: Hippocampus). Location Atlantic Ocean. Methods Range-wide sampling ( n = 390) at mitochondrial and up to five nuclear DNA loci was carried out across the Hippocampus erectus species complex ( H. erectus from the Caribbean/North America, H. patagonicus from South America and H. hippocampus from Europe and West Africa). Multi-species coalescent and approximate Bayesian computation ( ABC) frameworks were used to estimate support of competing biogeographical hypotheses and demographic parameters, including lineage divergence times, effective population sizes and magnitudes of population size change. Results We identified four distinct lineages within the H. erectus complex. A posterior probability of 0.626 and corresponding Bayes factors ranging from 3.68 to 11.38 gave moderate to strong support for a basal divergence between South American populations of H. patagonicus and Caribbean/North American populations of H. erectus coincident with the inter-regional freshwater outflow of the Amazon River Barrier ( ARB). Estimates of historical effective population sizes and divergence times indicate that European and West African populations of H. hippocampus expanded after colonization from a more demographically stable Caribbean/North American H. erectus. Main conclusions Our findings of trans-Atlantic colonization followed by isolation across a deep oceanic divide, and isolation across a freshwater barrier, may demonstrate a contrast in marine divide permeability for this group of rafters. Demographic inference supports the establishment of an ancestral population of the H. erectus complex in the Americas, followed by the ARB splitting it into Caribbean/North and South American lineages at a time of increased sedimentation and outflow. Our estimates suggest that following this split, colonization occurred across the Atlantic via the Gulf Stream currents with subsequent trans-Atlantic isolation. These results illustrate that rafting can be a means of range expansion over large distances, but may be insufficient for sustaining genetic connectivity across major barriers, thereby resulting in lineage divergence. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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30. Discovery of populations endemic to a marine biogeographical transition zone.
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Golla, Tirupathi Rao, Pieterse, Leishe, Jooste, Candice M., and Teske, Peter R.
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- *
GENETIC barcoding , *ENDANGERED species , *GENETIC markers , *GENETIC distance , *ZONING - Abstract
Aim: Biogeographical transition zones are areas of overlap between the faunas of adjacent biogeographical entities. Particularly the well‐defined transition zones along linear coastlines are interesting natural laboratories to study dispersal and incipient speciation. Few studies have explored whether marine biogeographical transition zones harbour biodiversity that is distinct from that of the biogeographical entities they separate. The Wild Coast in eastern South Africa is a poorly studied transition zone between the region's warm‐temperate and subtropical faunas, and is generally considered to be an area of faunal overlap. Location: The South African portion of the Western Indian Ocean. Methods: Sequences of the DNA barcoding marker COI were generated from 306 estuarine sandprawns (Kraussillichirus kraussi) collected at 13 sites. Genetic structure and evolutionary history were assessed using a haplotype network and a Bayesian discrete phylogeographic analysis. Result: Two populations were identified whose ranges are centred on the Wild Coast, a rare one in the northern portion and a more common one in the central and southern portion of this biogeographical transition zone. These populations are not closely related to each other, but descend from subtropical and warm‐temperate sister populations, respectively. Although genetic distances between populations were low, they exceeded within‐population distances, indicating the presence of a "barcoding gap." Conclusions: This is the first study to indicate that the Wild Coast marine biogeographical transition zone is not merely an area of faunal overlap, and one of very few studies to have discovered genetically unique populations within a marine biogeographical transition zone. The Wild Coast may harbour additional unique biodiversity that remains to be discovered, including rare species that require protection. More research is required to understand how this environmentally dynamic marine biogeographical transition zone differs from the adjacent biogeographical provinces. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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31. De Novo Transcriptome Assembly and Annotation of Liver and Brain Tissues of Common Brushtail Possums (Trichosurus vulpecula) in New Zealand: Transcriptome Diversity after Decades of Population Control.
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Emami-Kho, Arsalan, Pradeep Parbhu, Shilpa, Ross, James G., Murphy, Elaine C., Bothwell, Jennifer, Monsanto, Daniela M., van Vuuren, Bettine Jansen, Teske, Peter R., and Paterson, Adrian M.
- Abstract
The common brushtail possum (Trichosurus vulpecula), introduced from Australia in the mid-nineteenth century, is an invasive species in New Zealand where it is widespread and forms the largest self-sustained reservoir of bovine tuberculosis (Mycobacterium bovis) among wild populations. Conservation and agricultural authorities regularly apply a series of population control measures to suppress brushtail possum populations. The evolutionary consequence of more than half a century of intensive population control operations on the species’ genomic diversity and population structure is hindered by a paucity of available genomic resources. This study is the first to characterise the functional content and diversity of brushtail possum liver and brain cerebral cortex transcriptomes. Raw sequences from hepatic cells and cerebral cortex were assembled into 58,001 and 64,735 transcripts respectively. Functional annotation and polymorphism assignment of the assembled transcripts demonstrated a considerable level of variation in the core metabolic pathways that represent potential targets for selection pressure exerted by chemical toxicants. This study suggests that the brushtail possum population in New Zealand harbours considerable variation in metabolic pathways that could potentially promote the development of tolerance against chemical toxicants. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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32. Life-histories explain the conservation status of two estuary-associated pipefishes.
- Author
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Whitfield, Alan K., James, Nicola C., Cowley, Paul D., Mkare, Thomas K., and Teske, Peter R.
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SYNGNATHUS , *FISH conservation , *FISH populations , *LIFE history theory , *ESTUARIES - Abstract
Two endemic southern African pipefish species (Teleostei: Syngnathidae) co-occur in estuaries on the southeast coast of South Africa. The larger longsnout pipefish, Syngnathus temminckii , is abundant and has a wide range that comprises coastal and estuarine habitats in all three of the region's marine biogeographic provinces. In contrast, the smaller estuarine pipefish S . watermeyeri is critically endangered, and confined to a few warm-temperate estuaries. Here, we explore reasons for these considerable differences in conservation status. Fecundity is related to fish size, with large live-bearing S . temminckii males carrying up to 486 developing eggs/embryos, compared to a maximum of only 44 recorded for S . watermeyeri . Loss of submerged seagrass habitats due to episodic river flooding appears to be correlated with the temporary absence of both species from such systems. Prolonged cessation in river flow to estuaries can cause a collapse in estuarine zooplankton stocks, a food resource that is important to pipefish species. The greater success of S . temminckii when compared to S . watermeyeri can be attributed to the former species' wider geographic distribution, fecundity, habitat selection and ability to use both estuaries and the marine environment as nursery areas. Genetic data indicate that this has resulted in a much smaller long-term effective population size of S . watermeyeri , a situation that has persisted since the beginning of the present interglacial period. Syngnathus watermeyeri is thus naturally more susceptible to anthropogenic disturbances, which have resulted in an alarming reduction in its contemporary population size. Possible measures to promote the conservation of S . watermeyeri are presented. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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33. Molecular dating and biogeography of the neritic krill Nyctiphanes.
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D'Amato, M. Eugenia, Harkins, Gordon W., de Oliveira, Tulio, Teske, Peter R., and Gibbons, Mark J.
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- *
NYCTIPHANES , *BIOGEOGRAPHY , *EUPHAUSIIDAE , *PHYLOGENY , *NUCLEOTIDE sequence , *OCEAN circulation , *MALACOSTRACA , *EUPHAUSIACEA - Abstract
The genus Nyctiphanes (Malacostraca, Euphausiacea) comprises four neritic species that display antitropical geographic distribution in the Pacific ( N. simplex and N. australis) and Atlantic ( N. couchii and N. capensis) Oceans. We studied the origin of this distribution applying methods for phylogenetic reconstruction and molecular dating of nodes using a Bayesian MCMC analysis and the DNA sequence information contained in mtDNA 16S rDNA and cytochrome oxidase (COI). We tested hypotheses of vicariance by contrasting the time estimates of cladogenesis with the onset of the major barriers to ocean circulation. It was estimated that Nyctiphanes originated in the Pacific Ocean during the Miocene, with a lower limit of 18 miilion years ago (Mya). An Atlantic–Pacific cladogenic event (95% HPD 3.2–9.6) took place after the closure of the Tethyan Sea, suggesting that dispersal occurred from the Indo-Pacific, most likely via southern Africa. Similarly, the antitropical distribution pattern observed in the eastern Atlantic Ocean likely resulted from recent Pliocene–Pleistocene (95% HPD 1.0–4.97) northward dispersal from the southern hemisphere. Our results imply that dispersal appears to have had a significant role to play in the evolution of this group. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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34. Transcriptomic Diversity in the Livers of South African Sardines Participating in the Annual Sardine Run.
- Author
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Emami-Khoyi, Arsalan, Le Roux, Rynhardt, Adair, Matthew G., Monsanto, Daniela M., Main, Devon C., Parbhu, Shilpa P., Schnelle, Claudia M., van der Lingen, Carl D., Jansen van Vuuren, Bettine, Teske, Peter R., and Figueras, Antonio
- Subjects
- *
SARDINES , *LIVER , *GENES , *ENERGY storage , *ANIMAL migration , *IMMUNE response - Abstract
During austral winter, the southern and eastern coastlines of South Africa witness one of the largest animal migrations on the planet, the KwaZulu-Natal sardine run. Hundreds of millions of temperate sardines, Sardinops sagax, form large shoals that migrate north-east towards the subtropical Indian Ocean. Recent studies have highlighted the role that genetic and environmental factors play in sardine run formation. In the present study, we used massively parallel sequencing to assemble and annotate the first reference transcriptome from the liver cells of South African sardines, and to investigate the functional content and transcriptomic diversity. A total of 1,310,530 transcripts with an N50 of 1578 bp were assembled de novo. Several genes and core biochemical pathways that modulate energy production, energy storage, digestion, secretory processes, immune responses, signaling, regulatory processes, and detoxification were identified. The functional content of the liver transcriptome from six individuals that participated in the 2019 sardine run demonstrated heterogeneous levels of variation. Data presented in the current study provide new insights into the complex function of the liver transcriptome in South African sardines. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
35. Environmental DNA Metabarcoding as a Means of Estimating Species Diversity in an Urban Aquatic Ecosystem.
- Author
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Webster, Heather J., Emami-Khoyi, Arsalan, van Dyk, Jacobus C., Teske, Peter R., and Jansen van Vuuren, Bettine
- Subjects
- *
SPECIES diversity , *GENETIC barcoding , *URBAN growth , *NUMBERS of species , *DNA - Abstract
Simple Summary: Cities are the fastest developing ecosystems on the planet. The rapid expansion of urban areas is typically seen as a threat to global biodiversity, yet the role of cities in protecting species that may be rare in the wild remains poorly explored. Here, we report the use of environmental DNA (eDNA) to document the species present in one of the largest urban green spaces in Johannesburg, South Africa. We document a surprisingly large number of taxonomic groups, including some rare and threatened species. Our results support the notion that urban green spaces can provide refuge to a large number of species, and the species inventory provides critical information that can be used by city parks managers to conserve green spaces. Adaptation to environments that are changing as a result of human activities is critical to species' survival. A large number of species are adapting to, and even thriving in, urban green spaces, but this diversity remains largely undocumented. In the current study, we explored the potential of environmental DNA (eDNA) to document species diversity in one of the largest green spaces in Johannesburg, South Africa. Using a novel metabarcoding approach that assembles short DNA fragments suitable for massively parallel sequencing platforms to the approximate standard ~710 bp COI barcoding fragment, we document the presence of 26 phyla, 52 classes, 134 orders, 289 families, 380 genera and 522 known species from the study site. Our results highlight the critical role that urban areas play in protecting the world's declining biodiversity. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
36. Isolation of microsatellite markers for the endangered Knysna seahorse Hippocampus capensis and their use in the detection of a genetic bottleneck.
- Author
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Galbusera, Peter H. A., Gillemot, Sarah, Jouk, Phillippe, Teske, Peter R., Hellemans, Bart, and Volckaert, M. J.
- Subjects
- *
MICROSATELLITE repeats , *SEA horses , *GENETIC markers , *BIOMARKERS , *NUCLEOTIDE sequence - Abstract
We report the isolation and characterization of 15 (12 di-, 1 tri- and 2 tetranucleotide) microsatellite markers from Hippocampus capensis, the Knysna seahorse. This marker set allows the detection of a genetic bottleneck as shown in a captive population. Furthermore, we test their genotyping potential in eight other seahorse taxa. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
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37. Oral Microbiome Metabarcoding in Two Invasive Small Mammals from New Zealand.
- Author
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Emami-Khoyi, Arsalan, Benmazouz, Isma, Paterson, Adrian M., Ross, James G., Murphy, Elaine C., Bothwell, Jennifer, Alizadeh, Hossein, van Vuuren, Bettine Jansen, and Teske, Peter R.
- Subjects
- *
ERMINE , *MULTICELLULAR organisms , *MOUTH , *ANIMALS , *MAMMALS , *MICROBIAL diversity , *PROTEOBACTERIA - Abstract
All multicellular organisms host a wide diversity of microorganisms in and on their bodies, which are collectively known as their microbiome. Characterising microbial communities that inhabit different body niches in wild animals is critical to better understand the dynamics of microbiome diversityand its functional significance. The current study is the first to apply massively parallel sequencing of 16S rRNA to characterise the microbial diversity and functional content of oral microbiota in two of New Zealand's most important invasive mammals, the omnivorous common brushtail possum (Trichosurus vulpecula) and the carnivorous stoat (Mustela erminea). In total, strains of bacteria belonging to 19 different phyla, 27 classes, 52 orders, 103 families, 163 genera and 51 known species were identified from the oral cavities of the study species. Strains of the phyla Proteobacteria, Firmicutes, Bacteroidetes, Fusobacteria, and Actinobacteria dominated the core oral microbial diversity in both species, while other taxa were comparatively less abundant. Despite invasive populations typically demonstrating limited genetic variation, intraspecific variation of the core bacterial taxa in the oral microbiota was considerable. This suggests that a complex interaction between genetic, physiological, and environmental factors determines the diversity of the study species'oral microbiome. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
38. Reproductive philopatry in a coastal shark drives age-related population structure.
- Author
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Klein, Juliana D., Bester-van der Merwe, Aletta E., Dicken, Matt L., Mmonwa, Kolobe L., and Teske, Peter R.
- Subjects
- *
SAND tiger shark , *VERTEBRATE reproduction , *PHILOPATRY , *FISH populations , *MARINE nurseries , *FISH migration & climate , *OVERFISHING , *ANIMAL young - Abstract
The cosmopolitan lamniform shark Carcharias taurus (commonly known as the ragged-tooth, grey nurse or sand tiger shark) is threatened by overexploitation in parts of its range. Return migrations of females to specific nursery areas suggest that females exhibit reproductive philopatry, a behaviour that over time might lead to genetically isolated subpopulations over various spatial scales. To investigate genetic evidence for reproductive philopatry, genetic data from mitochondrial and microsatellite markers were generated for 104 young-of-the-year and juvenile sharks. Comparing the smallest versus the largest young sharks revealed a pattern of size-related differentiation between nurseries that was only found in the smaller size class. This not only confirms reproductive philopatry of their mothers, but is also in line with previous observations of larger juvenile sharks increasing their migration range and moving between sites. Our results highlight the need to target young-of-the-year sharks when investigating reproductive philopatry to exclude roaming individuals that obscure size-related signals of genetic differentiation. Given the species' high susceptibility to overexploitation, the evidence for reproductive philopatry is of direct importance to the management and conservation of C. taurus worldwide. As many nursery areas as possible should be protected to ensure that the number of locally resident juveniles and the pool of the returning females remain stable in the long term. This may warrant protected areas, or time-area closures, prohibiting exploitation in the nursery areas during pupping season. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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39. Is the Wild Coast in eastern South Africa a distinct marine bioregion?
- Author
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Jooste, Candice M., Oliver, Jody, Emami-Khoyi, Arsalan, and Teske, Peter R.
- Subjects
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BIOGEOGRAPHY , *CRABS , *SPECIES distribution , *MARINE biodiversity , *DISPERSAL (Ecology) - Abstract
The South African coastline can be divided into at least four temperature-defined marine bioregions, including the tropical north-east coast, the subtropical east coast, the warm-temperate south coast, and the cool-temperate west coast. There are also two biogeographical transition zones, the south-west coast and the south-east coast (or Wild Coast). The former is sometimes considered a distinct marine bioregion, but no such status has yet been suggested for the Wild Coast. Previous data on the distribution of a recently described but very common coastal crab,
Hymenosoma longicrure , indicated that this species could be a Wild Coast endemic. If confirmed, this would be a first indication that this region harbours unique fauna, and that additional research is required to determine whether the Wild Coast constitutes a distinct bioregion that needs to be managed separately from other coastal regions. In the present study, we generated novel genetic data forH. longicrure and compared the species' range with that of its southern African congeners. We found thatH. longicrure occurs north of the Wild Coast, where its range overlaps with that ofH. projectum . This finding rejects the idea that the Wild Coast harbours endemic fauna and suggests that the ranges of the two species may be linked to the subtropical and tropical bioregions, respectively, with some southward dispersal facilitated by the southward-flowing Agulhas Current. We conclude that there is as yet no compelling evidence that the Wild Coast is a distinct marine bioregion, and concur with previous biogeographical studies which have suggested that the Wild Coast is an area in which species from the subtropical and warm-temperate bioregions have overlapping ranges. Nonetheless, that fact that no biological information is available for the majority of the region's estuaries highlights the necessity of comprehensively documenting the biodiversity of this understudied region to fully resolve this issue. [ABSTRACT FROM AUTHOR]- Published
- 2018
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