Your search keyword '"Ruzzante, Daniel E."' showing total 193 results

151. MIXED-STOCK ANALYSIS OF ATLANTIC COD NEAR THE GULF OF ST. LAWRENCE BASED ON MICROSATELLITE DNA.

Author

Ruzzante, Daniel E., Taggart, Christopher T., Lang, Shelley, and Cook, Doug

Subjects

ATLANTIC cod, GENETIC polymorphisms, FISH genetics, FISH DNA, GENETIC distance, PHYSIOLOGY, FISHES

Abstract

The article focuses on the collapse of Gadus morhua fish staying in northwest region of Atlantic sea. It states that a research study was conducted, in which the DNA from Gadus morhua wa extracted and polymorphism was used at six microsatellite DNA loci. It states that the genetic distance of Gadus morhua fish was analysed and genetic heterogeneity among Gadus morhua fish found from different regions was concluded.

Published

2000

152. Long term diet differences between morphs in trophically polymorphic Percichthys trucha(Pisces: Percichthyidae) populations from the southern Andes

Author

LOGAN, MATTHEW S, IVERSON, SARA J, RUZZANTE, DANIEL E, WALDE, SANDRA J, MACCHI, PATRICIO J, ALONSO, MARCELO F, and CUSSAC, VICTOR E

Abstract

Divergent natural selection is often believed to be the driving force behind phenotypic differentiation in characters related to resource acquisition, leading to trophic polymorphism in fishes. Here we use variation in the fatty acid composition of adipose and muscle tissues to look at differences in resource use by two recently described sympatric morphs ofPercichthys trucha, a common freshwater fish of the Andean and Patagonian regions of South America. Because dietary fatty acids are often stored in carnivorous animals with little modification after consumption, they can be used to infer information about dietary habits of individuals. We found that the two morphs differed in the overall composition of fatty acids in both adipose and muscle tissue, but that there were some differences in how the morphs differed in lakes from the northern vs southern part of the range. Furthermore, we found that certain fatty acids were correlated with diet as determined by gut content analysis. Consumption of anisopteran larvae was highly correlated with 14:0 in adipose and muscle tissue; and higher levels of longer chain unsaturated fatty acids (i.e. 20 and 22 carbons) were correlated with the presence of fish and also amphipods in the diets. Taken together, the results suggest that there are marked differences in the foraging ecology of the two morphs of P. truchainhabiting southern Andean lakes.

Published

2000

153. Isolation and characterization of 13 microsatellite loci for Percichthys trucha (Percichthyidae).

Author

PATERSON, IAN G., WALDE, SANDRA J., CUSSAC, VICTOR E., HABIT, EVELYN, and RUZZANTE, DANIEL E.

Subjects

PERCICHTHYIDAE, FRESHWATER fishes, MICROSATELLITE repeats, ANIMAL morphology, GENETIC polymorphisms, FISH speciation

Abstract

Thirteen polymorphic microsatellite loci are described for the South American freshwater fish Percichthys trucha. Number of alleles per locus ranged from two to 21 and observed heterozygosities ranged from 0.304 to 0.915 in a sample of 47 individuals from four different sampling locations. [ABSTRACT FROM AUTHOR]

Published

2008

154. Trophic polymorphism, habitat and diet segregation inPercichthys trucha(Pisces: Percichthyidae) in the Andes

Author

RUZZANTE, DANIEL E., WALDE, SANDRA J., CUSSAC, VICTOR E., MACCHI, PATRICIO J., and ALONSO, MARCELO F.

Abstract

Divergent natural selection affecting specific trait combinations that lead to greater efficiency in resource exploitation is believed to be a major mechanism leading to trophic polymorphism and adaptive radiation. We present evidence of trophic polymorphism involving two benthic morphs withinPercichthys trucha, a fish endemic to temperate South America. In a series of lakes located in the southern Andes, we found two morphs ofP. truchathat could be distinguished on the basis of gill raker length and five other morphological measures, most of which are likely associated with the use of food resources. The differences were consistent across all lakes examined, and were correlated with habitat use and diet. Individuals with longer gill rakers were more abundant in the littoral zone (littoral morph) while the short gill-raker morph was more abundant at 10 m depth and deeper (deep benthic morph). Both morphs fed primarily on benthic invertebrates, but the littoral morph fed more on larval Anisoptera than did the deep benthic morph. Phenotypic correlations among traits were high for the littoral morph, but low and non-significant for the deep-benthic morph. We suggest that gill raker length may influence the relative efficiency of suction feeding for the two morphs. This is the first evidence of trophic polymorphism in fishes from temperate South America.

Published

1998

155. Global assessment of effective population sizes: Consistent taxonomic differences in meeting the 50/500 rule.

Author

Clarke, Shannon H., Lawrence, Elizabeth R., Matte, Jean‐Michel, Gallagher, Brian K., Salisbury, Sarah J., Michaelides, Sozos N., Koumrouyan, Ramela, Ruzzante, Daniel E., Grant, James W. A., and Fraser, Dylan J.

Subjects

*AMPHIBIAN populations, *GENETIC drift, *MAMMAL populations, *ANIMAL diversity, *GENE flow, *INBREEDING, *AMPHIBIANS

Abstract

Effective population size (Ne) is a particularly useful metric for conservation as it affects genetic drift, inbreeding and adaptive potential within populations. Current guidelines recommend a minimum Ne of 50 and 500 to avoid short‐term inbreeding and to preserve long‐term adaptive potential respectively. However, the extent to which wild populations reach these thresholds globally has not been investigated, nor has the relationship between Ne and human activities. Through a quantitative review, we generated a dataset with 4610 georeferenced Ne estimates from 3829 populations, extracted from 723 articles. These data show that certain taxonomic groups are less likely to meet 50/500 thresholds and are disproportionately impacted by human activities; plant, mammal and amphibian populations had a <54% probability of reaching N̂e = 50 and a <9% probability of reaching N̂e = 500. Populations listed as being of conservation concern according to the IUCN Red List had a smaller median N̂e than unlisted populations, and this was consistent across all taxonomic groups. N̂e was reduced in areas with a greater Global Human Footprint, especially for amphibians, birds and mammals, however relationships varied between taxa. We also highlight several considerations for future works, including the role that gene flow and subpopulation structure plays in the estimation of N̂e in wild populations, and the need for finer‐scale taxonomic analyses. Our findings provide guidance for more specific thresholds based on Ne and help prioritise assessment of populations from taxa most at risk of failing to meet conservation thresholds. [ABSTRACT FROM AUTHOR]

Published

2024

156. The complete mitochondrial genome of the freshwater fish Galaxias platei and a comparison with other species of the genus Galaxias (faraway, so close?).

Author

Vera-Escalona, Iván, Habit, Evelyn, and Ruzzante, Daniel E.

Subjects

GALAXIAS, FISH mitochondria, FISH genomes, FISH phylogeny, GEOGRAPHICAL distribution of fishes

Abstract

We present the whole mitochondrial genome forGalaxias platei,a freshwater fish widely distributed throughout the Patagonian Andes, and compare it with the mitochondrial genome of three congeneric species. The position ofG. plateiin the phylogenetic reconstruction differs from that shown by earlier studies using multiple markers. We discuss the results in terms of the phylogenetic position ofG. plateiand the use of whole mitochondrial genomes versus specific regions of multiple organelles. [ABSTRACT FROM PUBLISHER]

Published

2017

157. Supplemental methods and results;Sample and locus metadata from Functional genetic diversity in an exploited marine species and its relevance to fisheries management

Author

Petrou, Eleni L., Fuentes-Pardo, Angela P., Rogers, Luke A., Orobko, Melissa, Tarpey, Carolyn, Isadora Jiménez-Hidalgo, Moss, Madonna L., Dongya Yang, Pitcher, Tony J., Sandell, Todd, Lowry, Dayv, Ruzzante, Daniel E., and Hauser, Lorenz

Subjects

14. Life underwater

Abstract

The timing of reproduction influences key evolutionary and ecological processes in wild populations. Variation in reproductive timing may be an especially important evolutionary driver in the marine environment, where the high mobility of many species and few physical barriers to migration provide limited opportunities for spatial divergence to arise. Using genomic data collected from spawning aggregations of Pacific herring (Clupea pallasii) across 1600 km of coastline, we show that reproductive timing drives population structure in these pelagic fish. Within a specific spawning season, we observed isolation by distance, indicating that gene flow is limited over our study area. These results emphasize the importance of considering both seasonal and spatial variation in spawning when delineating management units for herring. On several chromosomes, we detected linkage disequilibrium extending over Mb, suggesting the presence of chromosomal rearrangements. Spawning phenology was highly correlated with polymorphisms in several genes, in particular SYNE2, which influences the development of retinal photoreceptors in vertebrates. SYNE2 is likely within a chromosomal rearrangement in Pacific herring and is also associated with spawn timing in Atlantic herring (Clupea harengus). The observed genetic diversity likely underlies resource waves provided by spawning herring. Given the ecological, economic and cultural significance of herring, our results support that conserving intraspecific genetic diversity is important for maintaining current and future ecosystem processes.

158. Supplemental methods and results;Sample and locus metadata from Functional genetic diversity in an exploited marine species and its relevance to fisheries management

Author

Petrou, Eleni L., Fuentes-Pardo, Angela P., Rogers, Luke A., Orobko, Melissa, Tarpey, Carolyn, Isadora Jiménez-Hidalgo, Moss, Madonna L., Dongya Yang, Pitcher, Tony J., Sandell, Todd, Lowry, Dayv, Ruzzante, Daniel E., and Hauser, Lorenz

Subjects

14. Life underwater

Abstract

The timing of reproduction influences key evolutionary and ecological processes in wild populations. Variation in reproductive timing may be an especially important evolutionary driver in the marine environment, where the high mobility of many species and few physical barriers to migration provide limited opportunities for spatial divergence to arise. Using genomic data collected from spawning aggregations of Pacific herring (Clupea pallasii) across 1600 km of coastline, we show that reproductive timing drives population structure in these pelagic fish. Within a specific spawning season, we observed isolation by distance, indicating that gene flow is limited over our study area. These results emphasize the importance of considering both seasonal and spatial variation in spawning when delineating management units for herring. On several chromosomes, we detected linkage disequilibrium extending over Mb, suggesting the presence of chromosomal rearrangements. Spawning phenology was highly correlated with polymorphisms in several genes, in particular SYNE2, which influences the development of retinal photoreceptors in vertebrates. SYNE2 is likely within a chromosomal rearrangement in Pacific herring and is also associated with spawn timing in Atlantic herring (Clupea harengus). The observed genetic diversity likely underlies resource waves provided by spawning herring. Given the ecological, economic and cultural significance of herring, our results support that conserving intraspecific genetic diversity is important for maintaining current and future ecosystem processes.

159. Microsatellite Primer sequences and AMOVA tables from Multiple drainage reversal episodes and glacial refugia in a Patagonian fish revealed by sequenced microsatellites

Author

Ruzzante, Daniel E., Simons, Annie P., McCracken, Gregory R., Habit, Evelyn, and Walde, Sandra J.

Subjects

14. Life underwater

Abstract

The rise of the southern Andes and the Quaternary glacial cycles influenced the landscape of Patagonia, affecting the phylogeographic and biogeographic patterns of its flora and fauna. Here, we examine the phylogeography of the freshwater fish, Percichthys trucha, using 53 sequenced microsatellite DNA markers. Fish (N = 835) were collected from 16 river systems (46 locations) spanning the species range on both sides of the Andes. Eleven watersheds drain to the Pacific, five of which are trans-Andean (headwaters east of Andes). The remaining five drainages empty into the Atlantic. Three analytical approaches (neighbour-joining tree, hierarchical AMOVAs, STRUCTURE) revealed evidence of historic drainage reversals: Fish from four of the five trans-Andean systems (Puelo, Futalaufquen/Yelcho, Baker, Pascua) exhibited greater genetic similarity with Atlantic draining systems than with Pacific systems with headwaters west of Andes. Present-day drainage (Pacific versus Atlantic) explained only 5% of total genetic variance, while ancestral drainage explained nearly 27% of total variance. Thus, the phylogeographic structure of Percichthys trucha is consistent with episodes of drainage reversal in multiple systems and suggests a major role for deglaciation in the genetic and indeed the geographical distribution of P. trucha in Patagonia. The study emphasizes the significant role of historical processes in the current pattern of genetic diversity and differentiation in a fish from a southern temperate region.

160. Supporting Information from Invasive species and postglacial colonization: their effects on the genetic diversity of a Patagonian fish

Author

Vera-Escalona, Iván, Habit, Evelyn, and Ruzzante, Daniel E.

Subjects

14. Life underwater

Abstract

Supporting Information including supporting methodology (Appendix S1), figures (Appendix S2), and tables (Appendix S3-S8)

161. Microsatellite Primer sequences and AMOVA tables from Multiple drainage reversal episodes and glacial refugia in a Patagonian fish revealed by sequenced microsatellites

Author

Ruzzante, Daniel E., Simons, Annie P., McCracken, Gregory R., Habit, Evelyn, and Walde, Sandra J.

Subjects

14. Life underwater

Abstract

The rise of the southern Andes and the Quaternary glacial cycles influenced the landscape of Patagonia, affecting the phylogeographic and biogeographic patterns of its flora and fauna. Here, we examine the phylogeography of the freshwater fish, Percichthys trucha, using 53 sequenced microsatellite DNA markers. Fish (N = 835) were collected from 16 river systems (46 locations) spanning the species range on both sides of the Andes. Eleven watersheds drain to the Pacific, five of which are trans-Andean (headwaters east of Andes). The remaining five drainages empty into the Atlantic. Three analytical approaches (neighbour-joining tree, hierarchical AMOVAs, STRUCTURE) revealed evidence of historic drainage reversals: Fish from four of the five trans-Andean systems (Puelo, Futalaufquen/Yelcho, Baker, Pascua) exhibited greater genetic similarity with Atlantic draining systems than with Pacific systems with headwaters west of Andes. Present-day drainage (Pacific versus Atlantic) explained only 5% of total genetic variance, while ancestral drainage explained nearly 27% of total variance. Thus, the phylogeographic structure of Percichthys trucha is consistent with episodes of drainage reversal in multiple systems and suggests a major role for deglaciation in the genetic and indeed the geographical distribution of P. trucha in Patagonia. The study emphasizes the significant role of historical processes in the current pattern of genetic diversity and differentiation in a fish from a southern temperate region.

162. Supporting Information from Invasive species and postglacial colonization: their effects on the genetic diversity of a Patagonian fish

Author

Vera-Escalona, Iván, Habit, Evelyn, and Ruzzante, Daniel E.

Subjects

14. Life underwater

Abstract

Supporting Information including supporting methodology (Appendix S1), figures (Appendix S2), and tables (Appendix S3-S8)

163. Adaptation to seasonal reproduction and environment‐associated factors drive temporal and spatial differentiation in northwest Atlantic herring despite gene flow.

Author

Fuentes‐Pardo, Angela P., Stanley, Ryan, Bourne, Christina, Singh, Rabindra, Emond, Kim, Pinkham, Lisa, McDermid, Jenni L., Andersson, Leif, and Ruzzante, Daniel E.

Subjects

*ATLANTIC herring, *CHROMOSOME inversions, *GENE flow, *MARINE fishes, *GENETIC variation, *CLIMATE change, *PHYLOGEOGRAPHY

Abstract

Understanding how marine organisms adapt to local environments is crucial for predicting how populations will respond to global climate change. The genomic basis, environmental factors and evolutionary processes involved in local adaptation are however not well understood. Here we use Atlantic herring, an abundant, migratory and widely distributed marine fish with substantial genomic resources, as a model organism to evaluate local adaptation. We examined genomic variation and its correlation with environmental variables across a broad environmental gradient, for 15 spawning aggregations in Atlantic Canada and the United States. We then compared our results with available genomic data of northeast Atlantic populations. We confirmed that population structure lies in a fraction of the genome including likely adaptive genetic variants of functional importance. We discovered 10 highly differentiated genomic regions distributed across four chromosomes. Nine regions show strong association with seasonal reproduction. One region, corresponding to a known inversion on chromosome 12, underlies a latitudinal pattern discriminating populations north and south of a biogeographic transition zone on the Scotian Shelf. Genome–environment associations indicate that winter seawater temperature best correlates with the latitudinal pattern of this inversion. The variation at two so‐called 'islands of divergence' related to seasonal reproduction appear to be private to the northwest Atlantic. Populations in the northwest and northeast Atlantic share variation at four of these divergent regions, simultaneously displaying significant diversity in haplotype composition at another four regions, which includes an undescribed structural variant approximately 7.7 Mb long on chromosome 8. Our results suggest that the timing and geographic location of spawning and early development may be under diverse selective pressures related to allelic fitness across environments. Our study highlights the role of genomic architecture, ancestral haplotypes and selection in maintaining adaptive divergence in species with large population sizes and presumably high gene flow. [ABSTRACT FROM AUTHOR]

Published

2024

164. Past, present, and future of a freshwater fish metapopulation in a threatened landscape.

Author

Vera‐Escalona, Iván, Senthivasan, Shreeram, Ruzzante, Daniel E., and Habit, Evelyn

Subjects

*WILDLIFE conservation, *DAMS, *WATER power, *GALAXIAS

Abstract

Abstract: It is well documented that hydropower plants can affect the dynamics of fish populations through landscape alterations and the creation of new barriers. Less emphasis has been placed on the examination of the genetic consequences for fish populations of the construction of dams. The relatively few studies that focus on genetics often do not consider colonization history and even fewer tend to use this information for conservation purposes. As a case study, we used a 3‐pronged approach to study the influence of historical processes, contemporary landscape features, and potential future anthropogenic changes in landscape on the genetic diversity of a fish metapopulation. Our goal was to identify the metapopulation's main attributes, detect priority areas for conservation, and assess the consequences of the construction of hydropower plants for the persistence of the metapopulation. We used microsatellite markers and coalescent approaches to examine historical colonization processes, traditional population genetics, and simulations of future populations under alternate scenarios of population size reduction and gene flow. Historical gene flow appeared to have declined relatively recently and contemporary populations appeared highly susceptible to changes in landscape. Gene flow is critical for population persistence. We found that hydropower plants could lead to a rapid reduction in number of alleles and to population extirpation 50–80 years after their construction. More generally, our 3‐pronged approach for the analyses of empirical genetic data can provide policy makers with information on the potential impacts of landscape changes and thus lead to more robust conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2018

165. Geography, environment, and colonization history interact with morph type to shape genomic variation in an Arctic fish.

Author

Salisbury, Sarah J., Perry, Robert, Keefe, Don, McCracken, Gregory R., Layton, Kara K. S., Kess, Tony, Bradbury, Ian R., and Ruzzante, Daniel E.

Subjects

*GENETIC drift, *ARCTIC char, *PHYLOGEOGRAPHY, *CLIMATE change, *GENE flow, *GENETIC variation, *GEOGRAPHY

Abstract

Polymorphic species are useful models for investigating the evolutionary processes driving diversification. Such processes include colonization history as well as contemporary selection, gene flow, and genetic drift, which can vary between intraspecific morphs as a function of their distinct life histories. The interactive and relative influence of such evolutionary processes on morph differentiation critically informs morph‐specific management decisions and our understanding of incipient speciation. We therefore investigated how geographic distance, environmental conditions, and colonization history interacted with morph migratory capacity in the highly polymorphic fish species, Arctic Charr (Salvelinus alpinus). Using an 87 k SNP chip we genetically characterized recently evolved anadromous, resident, and landlocked charr collected from 45 locations across a secondary contact zone of three charr glacial lineages in eastern Canada. A strong pattern of isolation by distance across all populations suggested geographic distance principally shaped genetic structure. Landlocked populations had lower genetic diversities and higher genetic differentiation than anadromous populations. However, effective population size was generally temporally stable in landlocked populations in comparison to anadromous populations. Genetic diversity positively correlated with latitude, potentially indicating southern anadromous populations' vulnerability to climate change and greater introgression between the Arctic and Atlantic glacial lineages in northern Labrador. Local adaptation was suggested by the observation of several environmental variables strongly associating with functionally relevant outlier genes including a region on chromosome AC21 potentially associated with anadromy. Our results demonstrate that gene flow, colonization history, and local adaptation uniquely interact to influence the genetic variation and evolutionary trajectory of populations. [ABSTRACT FROM AUTHOR]

Published

2023

166. Disentangling the Effects of Evolutionary, Demographic, and Environmental Factors Influencing Genetic Structure of Natural Populations: Atlantic Herring as a Case Study

Author

Gaggiotti, Oscar E., Bekkevold, Dorte, Jørgensen, Hanne B. H., Foll, Matthieu, Carvalho, Gary R., Andre, Carl, and Ruzzante, Daniel E.

Published

2009

167. Does the loss of diadromy imply the loss of salinity tolerance? A gene expression study with replicate nondiadromous populations of Galaxias maculatus.

Author

Delgado, M. Lisette, Manosalva, Aliro, Urbina, Mauricio A., Dalziel, Anne C., Habit, Evelyn, Link, Oscar, and Ruzzante, Daniel E.

Subjects

*CYSTIC fibrosis transmembrane conductance regulator, *CHLORIDE channels, *GENE expression, *ACCLIMATIZATION, *SALINITY, *REGULATOR genes

Abstract

The recurrent colonization of freshwater habitats and subsequent loss of diadromy is a major ecological transition that has been reported in many ancestrally diadromous fishes. Such residency is often accompanied by a loss of tolerance to seawater. The amphidromous Galaxias maculatus has repeatedly colonized freshwater streams with evidence that freshwater‐resident populations exhibit stark differences in their tolerance to higher salinities. Here, we used transcriptomics to gain insight into the mechanisms contributing to reduced tolerance to higher salinities in freshwater resident populations. We conducted an acute salinity challenge (0 ppt to 23–25 ppt) and measured osmoregulatory ability (muscle water content) over 48 h in three populations: diadromous, saltwater intolerant resident (Toltén), and saltwater tolerant resident (Valdivia). RNA sequencing of the gills identified genes that were differentially expressed in association with the salinity change and associated with the loss of saltwater tolerance in the Toltén population. Key genes associated with saltwater acclimation were characterized in diadromous G. maculatus individuals, some of which were also expressed in the saltwater tolerant resident population (Valdivia). We found that some of these "saltwater acclimation" genes, including the cystic fibrosis transmembrane conductance regulator gene (CFTR), were not significantly upregulated in the saltwater intolerant resident population (Toltén), suggesting a potential mechanism for the loss of tolerance to higher salinities. As the suite of differentially expressed genes in the diadromous‐resident comparison differed between freshwater populations, we hypothesize that diadromy loss results in unique evolutionary trajectories due to drift, so the loss of diadromy does not necessarily lead to a loss in upper salinity tolerance. [ABSTRACT FROM AUTHOR]

Published

2023

168. Commerson's dolphin population structure: evidence for female phylopatry and male dispersal.

Author

Durante, Cristian Alberto, Loizaga, Rocio, McCracken, Gregory R., Crespo, Enrique Alberto, and Ruzzante, Daniel E.

Subjects

*LAST Glacial Maximum, *DOLPHINS, *MITOCHONDRIAL DNA, *WILDLIFE conservation, *POPULATION genetics, *DISPERSAL (Ecology), *FEMALES

Abstract

A key in species conservation is understanding the amount and distribution of genetic diversity and how environmental changes that occurred in the recent past may have influenced current patterns of population structure. Commerson's dolphin, Cephalorhynchus commersonii, has two subspecies, one of which is endemic to South America (C. commersonii commersonii) and little is known about its population genetics. Our objective was to investigate the population genetics of this subspecies throughout its distribution. Using 70 skin samples and information available in GenBank, 308 mitochondrial DNA sequences and 28 species-specific microsatellites were analyzed. The species presented low genetic diversity when compared to other dolphin species, but was consistent with other species within the genus. Strong population structure based on mitochondrial DNA was exhibited throughout its entire distribution, a pattern consistent with female philopatry. However, this pattern was not detected when using microsatellites, suggesting male-mediated gene flow. Demographic tests suggested a population expansion beginning approximately 15,000 years ago, after the Last Glacial Maximum. In a climate change scenario, we recommended considering each sampling location as an independent population management unit in order to evaluate the impact of possible environmental changes on the distribution of genetic information within the species. [ABSTRACT FROM AUTHOR]

Published

2022

169. Scaling of the variance and the quantification of resource monopolization

Author

Kramer, Donald L., Grant, James W. A., Hamilton, David C., and Ruzzante, Daniel E.

Subjects

COMPETITION, MATHEMATICAL analysis, STATISTICS

Published

1996

170. Demographic resilience of brook trout populations subjected to experimental size‐selective harvesting.

Author

Clarke, Shannon H., McCracken, Gregory R., Humphries, Shelley, Ruzzante, Daniel E., Grant, James W. A., and Fraser, Dylan J.

Subjects

*HARVESTING, *BROOK trout, *BIOLOGICAL fitness, *FISHERY management

Abstract

Sustainable management of exploited populations benefits from integrating demographic and genetic considerations into assessments, as both play a role in determining harvest yields and population persistence. This is especially important in populations subject to size‐selective harvest, because size selective harvesting has the potential to result in significant demographic, life‐history, and genetic changes. We investigated harvest‐induced changes in the effective number of breeders (N̂b) for introduced brook trout populations (Salvelinus fontinalis) in alpine lakes from western Canada. Three populations were subject to 3 years of size‐selective harvesting, while three control populations experienced no harvest. The N̂c decreased consistently across all harvested populations (on average 60.8%) but fluctuated in control populations. There were no consistent changes in N̂b between control or harvest populations, but one harvest population experienced a decrease in N̂b of 63.2%. The N̂b/N̂c ratio increased consistently across harvest lakes; however we found no evidence of genetic compensation (where variance in reproductive success decreases at lower abundance) based on changes in family evenness (FÊ) and the number of full‐sibling families (N̂fam). We found no relationship between FÊ and N̂c or between N̂fam/N̂c and FÊ. We posit that change in N̂b was buffered by constraints on breeding habitat prior to harvest, such that the same number of breeding sites were occupied before and after harvest. These results suggest that effective size in harvested populations may be resilient to considerable changes in Nc in the short‐term, but it is still important to monitor exploited populations to assess the risk of inbreeding and ensure their long‐term survival. [ABSTRACT FROM AUTHOR]

Published

2022

171. The Genomic Consistency of the Loss of Anadromy in an Arctic Fish (Salvelinus alpinus).

Author

Salisbury, Sarah J., McCracken, Gregory R., Perry, Robert, Keefe, Donald, Layton, Kara K. S., Kess, Tony, Nugent, Cameron M., Leong, Jong S., Bradbury, Ian R., Koop, Ben F., Ferguson, Moira M., and Ruzzante, Daniel E.

Subjects

*ARCTIC char, *GENETIC drift, *SINGLE nucleotide polymorphisms, *FRESH water, *LOCUS (Genetics), *FISH diversity, *FRESHWATER biodiversity

Abstract

The potentially significant genetic consequences associated with the loss of migratory capacity of diadromous fishes that have become landlocked in freshwater are poorly understood. Consistent selective pressures associated with freshwater residency may drive repeated differentiation both between allopatric landlocked and anadromous populations and within landlocked populations (resulting in sympatric morphs). Alternatively, the strong genetic drift anticipated in isolated landlocked populations could hinder consistent adaptation, limiting genetic parallelism. Understanding the degree of genetic parallelism underlying differentiation has implications for both the predictability of evolution and management practices. We employed an 87k single-nucleotide polymorphism (SNP) array to examine the genetic characteristics of landlocked and anadromous Arctic char (Salvelinus alpinus) populations from five drainages within Labrador, Canada. One gene was detected as an outlier between sympatric, size-differentiated morphs in each of two landlocked lakes. While no single locus differentiated all replicate pairs of landlocked and anadromous populations, several SNPs, genes, and paralogs were consistently detected as outliers in at least 70% of these pairwise comparisons. A significant C-score suggested that the amount of shared outlier SNPs across all paired landlocked and anadromous populations was greater than expected by chance. Our results indicate that despite their isolation, selection due to the loss of diadromy may drive consistent genetic responses in landlocked populations. [ABSTRACT FROM AUTHOR]

Published

2022

172. Native and introduced fish species richness in Chilean Patagonian lakes: inferences on invasion mechanisms using salmonid-free lakes.

Author

Habit, Evelyn, Gonzalez, Jorge, Ruzzante, Daniel E., and Walde, Sandra J.

Subjects

*SPECIES diversity, *PATAGONIANS, *SALMONIDAE, *SURVEYS, *FRESHWATER biology, *LAND use

Abstract

Aim Geographic patterns of species richness have been linked to many physical and biological drivers. In this study, we document and explain gradients of species richness for native and introduced freshwater fish in Chilean lakes. We focus on the role of the physical environment to explain native richness patterns. For patterns of introduced salmonid richness and dominance, we also examine the biotic resistance and human activity hypotheses. We were particularly interested in identifying the factors that best explain the persistence of salmonid-free lakes in Patagonia. Location Chile (39° to 54°S). Methods We conducted an extensive survey of 63 lakes, over a broad latitudinal range. We tested for the importance of temperature, ecosystem size, current and historic aquatic connectivity as well as measures of human activity (road access and land use) in determining patterns of native and introduced richness. Results Introduced species richness was positively correlated with native richness. Native and introduced richness declined with latitude, increased with temperature and ecosystem size. Variation in native richness was related to historic drainage connections, while introduced richness and salmonid dominance were significantly affected by current habitat connectivity. We found a total of 15 salmonid-free lakes, all located in remote areas south of 45°S, and all upstream of major naturally occurring physical barriers. Main conclusions Temperature, as a correlate of latitude, and lake size were key determinants of native and introduced species richness in Chilean lakes and were responsible for the positive correlation between native and introduced richness. We found no evidence for biotic resistance by native species to salmonid expansion, and although the original introductions were human-mediated, current patterns of introduced richness were not related to human activity, as measured by road access or land use. Rather, environmental factors, especially habitat connectivity and temperature, appear to limit salmonid expansion within Chilean freshwaters. [ABSTRACT FROM AUTHOR]

Published

2012

173. Changes in the distribution of native fishes in response to introduced species and other anthropogenic effects.

Author

Habit, Evelyn, Piedra, Priscila, Ruzzante, Daniel E., Walde, Sandra J., Belk, Mark C., Cussac, Víctor E., Gonzalez, Jorge, and Colin, Nicole

Subjects

*EFFECT of human beings on fishes, *RIVERS, *BIODIVERSITY, *SALMONIFORMES

Abstract

Aim Globally, one of the major threats to the integrity of native faunas is the loss of biodiversity that can result from the introduction of exotics. Here we document recent changes in the distribution of five common fish species that are linked to introductions in Chile. Location Chile from 28° S to 54° S. Methods We assess the extent of changes in distribution of galaxiid species by comparing their historical and current distributions based on the results of the most extensive survey of freshwater fishes in Chile to date, a range that encompasses the full latitudinal and elevational range of the Galaxiidae in Chile. We test for relationships of the distributions and abundances of native fishes with the incidence of introduced species. Results The latitudinal range of Galaxias maculatus has declined by 26%, and most of this reduction has occurred in the northern part of its range. Aplochiton taeniatus and Brachygalaxias bullocki have experienced reductions (8–17% loss) in total drainage area occupied, and they have disappeared from, or are now extremely difficult to find, in latitudes 36° to 41° S, coincidently with areas of urban growth and intense economic activities. The distribution of Galaxias platei has, instead, increased considerably. In northern basins, G. maculatus has apparently been replaced by an introduced poeciliid Gambusia sp. High-elevation systems remain dominated by native Galaxias platei, whereas systems at intermediate elevations, especially rivers, are now dominated by introduced salmonids. Within drainages, native galaxiids remain abundant where exotic salmonid abundance is low. Main conclusions We suggest that negative interactions between introduced and native fish are responsible for some of the range reductions among Galaxiidae in Chile. The severity of the impacts varies with latitude and altitude and is probably related to temperature. The effects of Gambusia are restricted to warmer systems. Native fish also appear to have found temperature refugia from salmonids; impacts are low in the warmer northern and coastal systems, as well as in high-altitude relatively cold systems. Native fish also appear less vulnerable to salmonids in lakes than in rivers. This study identifies watersheds critical for the conservation of biodiversity within the Galaxiidae. [ABSTRACT FROM AUTHOR]

Published

2010

174. Genomic tools for management and conservation of Atlantic cod in a coastal marine protected area.

Author

Sinclair-Waters, Marion, Bentzen, Paul, Morris, Corey J., Ruzzante, Daniel E., Kent, Matthew P., Lien, Sigbjørn, and Bradbury, Ian R.

Subjects

*GENOMICS, *ATLANTIC cod fisheries, *MARINE parks & reserves, *MARINE species diversity, *SINGLE nucleotide polymorphisms, *RANDOM forest algorithms

Abstract

Marine protected areas (MPAs) can serve as effective tools for the management and conservation of exploited marine species. The Gilbert Bay MPA in coastal Labrador was created to protect a genetically distinct population of Atlantic cod (Gadus morhua); however, decreases in abundance continue to occur potentially due to exploitation outside the MPA. We developed a single-nucleotide polymorphism (SNP) panel to identify Gilbert Bay cod in areas outside MPA boundaries where mixing with offshore cod occurs. In total, 361 individuals from Gilbert Bay, surrounding areas, and offshore were genotyped for 10 913 SNPs. Using FST rankings and guided regularized random forest, we selected 23 SNPs that together generate 100% accuracy in individual assignment and accurately estimate the proportion of Gilbert Bay cod in fishery samples from sites outside MPA boundaries: on average, fishery samples included 17.3% Gilbert Bay cod. Estimates of effective population size for the Gilbert Bay population ranged from 655 to 1114. Our findings demonstrate the power of using genomic approaches for management of an exploited marine species and enhancing the design of MPAs. [ABSTRACT FROM AUTHOR]

Published

2018

175. Genetic divergence among and within Arctic char (Salvelinus alpinus) populations inhabiting landlocked and sea-accessible sites in Labrador, Canada.

Author

Salisbury, Sarah J., Booker, Connor, McCracken, Gregory R., Knight, Tom, Keefe, Donald, Perry, Robert, and Ruzzante, Daniel E.

Subjects

*ARCTIC char, *MITOCHONDRIAL DNA, *HAPLOTYPES, *VICARIANCE, *GENES

Abstract

Anadromous, resident, and landlocked Arctic char (Salvelinus alpinus) differentially experience drift and gene flow, making them ideal for studying incipient divergence. We investigated genetic divergence within and among char occupying landlocked and sea-accessible sites in Labrador, Canada, using 11 microsatellites. Unlike anadromous char, landlocked char were highly genetically differentiated. Genetic subgroups were detected within landlocked and sea-accessible sites. Within Ramah Lake (a sea-accessible site containing two subgroups), one subgroup matured at a small size, and both subgroups had equal proportions of males to females. These findings refute residency as a sneaker male tactic and instead suggest the presence of reproductively isolated resident and anadromous char. Subgroups demonstrated equal frequencies of Atlantic and Arctic lineage mtDNA haplotypes, suggesting their genetic differences were not due to allopatry during the last glacial maximum. Our results are therefore consistent with the sympatric genetic divergence of resident and anadromous Arctic char morphs. [ABSTRACT FROM AUTHOR]

Published

2018

176. Parallel adaptive evolution of geographically distant herring populations on both sides of the North Atlantic Ocean.

Author

Lamichhaney, Sangeet, Fuentes-Pardo, Angela P., Rafati, Nima, Ryman, Nils, Mccracken, Gregory R., Bourne, Christina, Singh, Rabindra, Ruzzante, Daniel E., and Andersson, Leif

Subjects

*BIOLOGICAL adaptation, *NUCLEOTIDE sequencing, *BIOLOGICAL evolution, *CALMODULIN, *THYROTROPIN

Abstract

Atlantic herring is an excellent species for studying the genetic basis of adaptation in geographically distant populations because of its characteristically large population sizes and low genetic drift. In this study we compared whole-genome resequencing data of Atlantic herring populations from both sides of the Atlantic Ocean. An important finding was the very low degree of genetic differentiation among geographically distant populations (fixation index = 0.026), suggesting lack of reproductive isolation across the ocean. This feature of the Atlantic herring facilitates the detection of genetic factors affecting adaptation because of the sharp contrast between loci showing genetic differentiation resulting from natural selection and the low background noise resulting from genetic drift. We show that genetic factors associated with timing of reproduction are shared between genetically distinct and geographically distant populations. The genes for thyroidstimulating hormone receptor (TSHR), the SOX11 transcription factor (SOX11), calmodulin (CALM), and estrogen receptor 2 (ESR2A), all with a significant role in reproductive biology, were among the loci that showed the most consistent association with spawning time throughout the species range. In fact, the same two SNPs located at the 5′ end of TSHR showed the most significant association with spawning time in both the east and west Atlantic. We also identified unexpected haplotype sharing between spring-spawning oceanic herring and autumn-spawning populations across the Atlantic Ocean and the Baltic Sea. The genomic regions showing this pattern are unlikely to control spawning time but may be involved in adaptation to ecological factor(s) shared among these populations. [ABSTRACT FROM AUTHOR]

Published

2017

177. CRUSTACEAN ZOOPLANKTON ASSEMBLAGES IN INLAND WATERS OF SOUTHERN PATAGONIA (ALACALUFES NATIONAL RESERVE), CHILE (49-5°S).

Author

DE LOS RÍOS ESCALANTE, PATRICIO, GONZALEZ, JORGE F., GÓRSKI, KONRAD, HABIT, EVELYN M., and RUZZANTE, DANIEL E.

Subjects

*ZOOPLANKTON, *CRUSTACEA, *SPECIES, *BIODIVERSITY, *TURBULENT flow, *ESTUARIES

Abstract

The inland water crustacean communities in southern Chilean Patagonia (46-55°S) are characterized by their marked low species number, and many recurrent species among a wide ecological and geographical gradient, that is due to oligotrophy of lakes and lagoons and the fluvial parameters (i.e., high flow velocities) in rivers. The aim of the present study was to describe the zooplankton communities in lakes and respective outflow river estuaries in Alacalufes National Reserve on islands of Chilean southern Patagonia (49-51°S). Species abundance and presence/absence were considered. The results obtained revealed the presence of a low number of species and also multiple sites in which zooplankton was not recorded at all. This is probably due the low zooplankton diversity of cold lakes at these high latitudes and the often turbulent flow of the outflow rivers studied. [ABSTRACT FROM AUTHOR]

Published

2016

178. Evidence supporting panmixia in Greenland halibut ( Reinhardtius hippoglossoides) in the Northwest Atlantic.

Author

Roy, Denis, Hardie, David C., Treble, Margaret A., Reist, James D., and Ruzzante, Daniel E.

Subjects

*GREENLAND halibut, *FISH sounds, *FISH populations, *FISH conservation, *GENE flow, *FISHES

Abstract

Assessment of population structure is critical to the design and implementation of sound management and conservation strategies. However, population structure must be assessed using markers attuned to population genetic processes such as genetic drift and gene flow, which reflect actual levels of reproductive isolation among putative genetic clusters. This is critical for highly exploited, commercial species that form the backbone of regional and local economies. Here, we show extremely low levels of population genetic differentiation among Greenland halibut ( Reinhardtius hippoglossoides) collected from throughout the Northwest Atlantic, which cannot be statistically differentiated from panmixia using 12 species-specific polymorphic microsatellite markers. In contrast, some previous studies have demonstrated significant differences among individuals collected from various parts of the species' range using a variety of both genetic and nongenetic techniques. In accordance with other reports and consistent with the species' life history, we demonstrate that the most parsimonious explanation reconciling observed patterns is a repeated high degree of local differentiation of new recruits and colonizers originating from a common gene pool. Such a scenario has important conservation implications in terms of devising more appropriate strategies balancing species persistence and replenishment with sustainable resource use. [ABSTRACT FROM AUTHOR]

Published

2014

179. Understanding and Estimating Effective Population Size for Practical Application in Marine Species Management.

Author

HARE, MATTHEW P., NUNNEY, LEONARD, SCHWARTZ, MICHAEL K., RUZZANTE, DANIEL E., BURFORD, MARTHA, WAPLES, ROBIN S., RUEGG, KRISTEN, and PALSTRA, FRISO

Subjects

*ANIMAL populations, *MARINE animals, *MARINE fishes, *ENDANGERED species, *ANIMAL genetics, *MARINE resources conservation

Abstract

Effective population size (N) determines the strength of genetic drift in a population and has long been recognized as an important parameter for evaluating conservation status and threats to genetic health of populations. Specifically, an estimate of N is crucial to management because it integrates genetic effects with the life history of the species, allowing for predictions of a population's current and future viability. Nevertheless, compared with ecological and demographic parameters, N has had limited influence on species management, beyond its application in very small populations. Recent developments have substantially improved N estimation; however, some obstacles remain for the practical application of N estimates. For example, the need to define the spatial and temporal scale of measurement makes the concept complex and sometimes difficult to interpret. We reviewed approaches to estimation of N over both long-term and contemporary time frames, clarifying their interpretations with respect to local populations and the global metapopulation. We describe multiple experimental factors affecting robustness of contemporary N estimates and suggest that different sampling designs can be combined to compare largely independent measures of N for improved confidence in the result. Large populations with moderate gene flow pose the greatest challenges to robust estimation of contemporary N and require careful consideration of sampling and analysis to minimize estimator bias. We emphasize the practical utility of estimating N by highlighting its relevance to the adaptive potential of a population and describing applications in management of marine populations, where the focus is not always on critically endangered populations. Two cases discussed include the mechanisms generating N estimates many orders of magnitude lower than census N in harvested marine fishes and the predicted reduction in N from hatchery-based population supplementation. [ABSTRACT FROM AUTHOR]

Published

2011

180. Filogeografía y Diversidad de Mejillines (Bivalvia: Mytilidae: Brachidontinae) en Sudamérica: Un Collage de Patrones y Procesos

Author

Trovant, Berenice, Ruzzante, Daniel E., and Basso, Néstor G.

Subjects

Filogenia, Ciencias de la Tierra y Medio Ambiente, Mejillines, Filogeografía, Atlántico Sudoccidental

Abstract

Muchas comunidades intermareales de las costas rocosas de Sudamérica están dominadas por “mejillines” (Bivalvia: Mytilidae: Brachidontinae). Dada su condición de bioingenieros, los mejillines tienen un efecto significativo sobre la biodiversidad regional. Los mejillines de Sudamérica austral incluirían seis especies nominales: Brachidontes purpuratus (Lamarck, 1819), B. rodriguezii (dˈOrbigny, 1842), B. darwinianus (dˈOrbigny, 1842), B. solisianus (dˈOrbigny, 1842), B. granulatus (Hanley, 1843) y B. blakeanus (Melvill y Standen, 1914). A pesar de su importancia ecológica, el status de estas especies permanece sin clarificar. Los estudios taxonómicos se han basado principalmente en la morfología de la valva, pero su gran variabilidad fenotípica es motivo de confusión. Un estudio morfogeométrico sugirió que B. darwinianus y B. rodriguezii serían sinónimos de B. purpuratus. El status genérico de B. purpuratus es incierto; algunos autores lo ubican en el género monotípico Perumytilus. Brachidontes darwinianus es considerado por algunos autores como sinónimo de B. exustus, la cual es en realidad un complejo de cinco especies crípticas distribuidas en el Caribe y el golfo de México. Brachidontes solisianus ha sido ubicado por algunos autores en el género Mytilaster. El registro para el litoral patagónico de B. granulatus, especie típica de la provincia biogeográfica Chileno-Peruana, no ha sido debidamente validado. La descripción original de B. blakeanus, basada en material de las Islas Malvinas, crea dudas acerca de su identidad y de los registros para el litoral patagónico. No existiendo estudios basados en información molecular, el status taxonómico y las relaciones filogenéticas de estas especies permanece irresuelto. El primer objetivo de esta tesis es elucidar esas relaciones. La información existente sobre la distribución geográfica de los braquidontinos de Sudamérica austral y sus relaciones putativas con especies de otras regiones sugieren que este grupo constituye un modelo filogeográfico promisorio. Brachidontes purpuratus, el único Brachidontinae presente en aguas templado-frías, se asemeja mucho en aspecto a la especie australiana Austromytilus rostratus. Brachidontes solisianus, distribuida en las costas de Brasil, ha sido citada también para el Gran Caribe, en tanto que el fenotipo de B. darwinianus es lo bastante parecido al de B. exustus (golfo de México y Caribe) como para que muchos autores lo consideren un sinónimo junior de esa especie nominal. Estos dos últimos son casos potenciales de distribución antitropical, con un rango interrumpido en la región tropical. Finalmente, una forma presente en la formación Paraniana (Mioceno), B. lepida, ha sido considerada como una subespecie de B. rodriguezii por algunos autores. Objetivo e hipótesis El objetivo principal de este trabajo es evaluar tres hipótesis filogeográficas motivadas por esos patrones: [i] La especie sudamericana B. purpuratus y la australiana Austromytilus rostratus tienen un ancestro común y divergieron luego de un episodio de dispersión trans-Pacífica. [ii] Brachidontes darwinianus y B. solisianus son miembros de pares antitropicales, con contrapartes en el Caribe y golfo de México pertenecientes al “complejo exustus”. [iii] Brachidontes rodriguezii evolucionó en la región a partir de formas ancestrales del Mioceno tardío representados en la provincia Paraniana. Materiales y Métodos Para llevar a cabo este estudio se obtuvieron muestras de 24 localidades a lo largo de las costas de Brasil, Uruguay, Argentina, Chile y Perú; se dispuso además, de materiales de Brachidontinae de Tasmania, Hong Kong, Japón, California y Venezuela. Sobre estas muestras se realizaron análisis moleculares utilizando un gen mitocondrial (COI) y tres genes nucleares (28S, ITS1 y 18S). En los casos en que no se pudieron utilizar herramientas moleculares, se realizaron análisis morfogeométricos, así como observaciones de caracteres morfológicos sobre materiales de museo. Resultados y conclusiones La reconstrucción filogenética indica que los Brachidontinae son monofiléticos e incluyen tres clados: [i] Austromytilus + Mytilisepta (generalmente considerado como un miembro de los Septiferinae) + Perumytilus; [ii] Brachidontes s.l. (incluyendo a Hormomya) + Mytilaster, y [iii] Ischadium + Geukensia. Los miembros del primer clado se distribuyen a lo largo de las costas templadas del Océano Pacífico e incluyen a P. purpuratus, Austromytilus rostratus (Dunker, 1857), Myilisepta virgata (Wiegmann, 1837) y M. bifurcata auct. La inclusión de P. purpuratus en el clado [ii] es evidencia para la retención de Perumytilus como género válido. Brachidontes blakeanus, la especie descrita para las Islas Malvinas, es transferida al género Phylobrya (Phylobriidae). La divergencia entre Perumytilus (Sudamérica) y Austromytilus (Australia) estaría ligada a un hipotético evento de dispersión en un escenario temprano de la Deriva de los vientos occidentales (West Wind Drift, WWD) durante el Oligoceno tardío o Mioceno temprano, posterior a los eventos de fragmentación de Gondwana. Perumytilus incluye dos clados genéticamente distinguibles, uno confinado a la provincia Chileno-Peruana (templado-cálida) y el otro a la provincia Magallánica (templado-fría). Se hipotetiza que la divergencia de estos clados habría resultado de diferenciación peripátrica seguida de aislamiento durante las glaciaciones cuaternarias y, posteriormente, el establecimiento de una zona de contacto secundario en el centro-sur de Chile. El segundo clado incluye a B. darwinianus, B. solisianus, y B. rodriguezii, distribuidas en el Atlántico sudoccidental, y B. granulatus en el Pacífico Oriental. A pesar de la similitud fenotípica de B. darwinianus (Uruguay y Brasil) con el “complejo exustus” (golfo de México y el Caribe), no se observó una relación cercana entre ellas, quitando soporte a la hipótesis de un patrón de distribución antitropical. Por el contrario, Brachidontes solisianus (Brasil) y B. “exustus I” (golfo de México y Caribe) son especies hermanas distribuidas respectivamente al sur y al norte de una discontinuidad que incluye la desembocadura del Río Amazonas, que podría estar actuando como una barrera. Los análisis morfogeométricos no proveen soporte a una relación estrecha entre B. rodriguezii y B. lepida (Mioceno), que deben ser consideradas especies distintas. Se discute la posibilidad de que el mar Entrerriense y una hipotética vía trans-amazónica que conectó el Atlántico con la región Caribe durante el Mioceno haya sido el escenario donde se originaron B. rodriguezii y B. darwinianus. A pesar de que las poblaciones de mejillines del sur de Sudamérica son ecológicamente similares en apariencia, su ensamble involucra componentes claramente diferenciados en su historia biogeográfica y relaciones filogenéticas. Fil: Trovant, Berenice. Universidad Nacional del Comahue. Centro Regional Universitario Bariloche; Argentina.

Published

2014

181. Southern marsh deer (Blastocerus dichotomus) populations assessed using Amplicon Sequencing on fecal samples.

Author

Wolfenson LI, Pereira JA, Ruzzante DE, Solé-Cava AM, McCracken GR, Gómez-Fernández MJ, Pereyra MD, and Mirol PM

Subjects

Animals, Argentina, Genotype, Endangered Species, Genetics, Population, Gene Flow, Deer genetics, Feces, Microsatellite Repeats genetics, Genetic Variation

Abstract

Populations in isolated and small fragments lose genetic variability very fast and are usually of conservation concern because they are at greater risk of local extinction. The largest native deer in South America, Blastocerus dichotomus (Illiger, 1815), is a Vulnerable species according to the IUCN categorization, which inhabits tropical and subtropical swampy areas. In Argentina, its presence has been restricted to four isolated fragments. Here we examine the genetic diversity and differentiation among three of them, including the three different patches that form the southernmost population, using 18 microsatellite markers genotyped by Amplicon Sequencing of DNA extracted from fecal samples. Genetic diversity was low (H E  < 0.45) in all three populations studied. We found three genetic clusters compatible with the geographic location of the samples. We also found a metapopulation dynamics that involves the patches that make up the southernmost population, with evidence of a barrier to gene flow between two of them. Our results point to the creation of a corridor as a necessary and urgent management action. This is the first study, at the population level, employing microsatellite genotyping by Amplicon Sequencing with non-invasive samples in an endangered species., (© 2024. The Author(s).)

Published

2024

182. SNP Panel and Genomic Sex Identification in Atlantic Halibut (Hippoglossus hippoglossus).

Author

Weise EM, Van Wyngaarden M, Den Heyer C, Mills Flemming J, Kess T, Einfeldt AL, Fisher JAD, Ditta R, Pare G, and Ruzzante DE

Subjects

Humans, Animals, Male, Female, Polymorphism, Single Nucleotide, Genomics, Sex Determination Analysis, Flounder genetics

Abstract

The ability to identify sex is necessary in population biology for a proper understanding of the dynamics of a population. In Atlantic halibut, phenotypic sex identification is not possible due to the lack of significant external morphological differences. We developed an Illumina SNP panel for Atlantic halibut with 4000 SNPs spread evenly throughout the genome with a minor allele frequency MAF ≥ 0.4, except for N = 249 SNPs located in a sex-determining region on chromosome 12, N = 176 of these SNPs were selected to genetically identify male and female individuals using a DAPC analysis. The genomic identification of sex allows for non-lethal sex determination and validation of sex identification in the field. The SNP panel is a new genomic resource for Atlantic halibut that will make it possible to generate the genotypic data for the large number of individuals needed to estimate population abundance using genomics and the Close Kin Mark Recapture (CKMR) approach, an emerging component of fisheries management and stock monitoring., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

183. Low STR variability in the threatened marsh deer, Blastocerus dichotomus, detected through amplicon sequencing in non-invasive samples.

Author

Wolfenson LI, McCracken GR, Ruzzante DE, Mirol P, and Solé-Cava A

Abstract

Blastocerus dichotomus is the largest deer in South America. We have used 25 microsatellite markers detected and genotyped by Next Generation Sequencing to estimate the genetic variability of B. dichotomus in Argentina, where most of its populations are threatened. Primer design was based on the sequence of a shallow partial genome (15,967,456 reads; 16.66% genome coverage, mean depth 1.64) of a single individual. From the thousands of microsatellite loci found, even under high stringency selection, we chose and tested a set of 80 markers on 30 DNA samples extracted from tissue and feces from three Argentinean populations. Heterozygosity levels were low across all loci in all populations (H=0.31 to 0.40). Amplicon sequencing is a fast, easy, and affordable technique that can be very useful for the characterization of microsatellite marker sets for the conservation genetics of non-model organisms. This work is also one of the first ones to use amplicon sequencing in non-invasive samples and represents an important development for the study of threatened species.

Published

2022

184. Investigating Diadromy in Fishes and Its Loss in an -Omics Era.

Author

Delgado ML and Ruzzante DE

Abstract

Diadromy, the predictable movements of individuals between marine and freshwater environments, is biogeographically and phylogenetically widespread across fishes. Thus, despite the high energetic and potential fitness costs involved in moving between distinct environments, diadromy appears to be an effective life history strategy. Yet, the origin and molecular mechanisms that underpin this migratory behavior are not fully understood. In this review, we aim first to summarize what is known about diadromy in fishes; this includes the phylogenetic relationship among diadromous species, a description of the main hypotheses regarding its origin, and a discussion of the presence of non-migratory populations within diadromous species. Second, we discuss how recent research based on -omics approaches (chiefly genomics, transcriptomics, and epigenomics) is beginning to provide answers to questions on the genetic bases and origin(s) of diadromy. Finally, we suggest future directions for -omics research that can help tackle questions on the evolution of diadromy., (© 2020 The Author(s).)

Published

2020

185. Multiple drainage reversal episodes and glacial refugia in a Patagonian fish revealed by sequenced microsatellites.

Author

Ruzzante DE, Simons AP, McCracken GR, Habit E, and Walde SJ

Subjects

Animals, DNA, Mitochondrial, Genetic Variation, Genetics, Population, Phylogeography, Fishes genetics, Microsatellite Repeats, Refugium

Abstract

The rise of the southern Andes and the Quaternary glacial cycles influenced the landscape of Patagonia, affecting the phylogeographic and biogeographic patterns of its flora and fauna. Here, we examine the phylogeography of the freshwater fish, Percichthys trucha, using 53 sequenced microsatellite DNA markers . Fish ( n = 835) were collected from 16 river systems (46 locations) spanning the species range on both sides of the Andes. Eleven watersheds drain to the Pacific, five of which are trans-Andean (headwaters east of Andes). The remaining five drainages empty into the Atlantic. Three analytical approaches (neighbour-joining tree, hierarchical AMOVAs, Structure) revealed evidence of historic drainage reversals: fish from four of the five trans-Andean systems (Puelo, Futalaufquen/Yelcho, Baker, Pascua) exhibited greater genetic similarity with Atlantic draining systems than with Pacific systems with headwaters west of Andes. Present-day drainage (Pacific versus Atlantic) explained only 5% of total genetic variance, while ancestral drainage explained nearly 27% of total variance. Thus, the phylogeographic structure of P. trucha is consistent with episodes of drainage reversal in multiple systems and suggests a major role for deglaciation in the genetic and indeed the geographical distribution of P. trucha in Patagonia. The study emphasizes the significant role of historical processes in the current pattern of genetic diversity and differentiation in a fish from a southern temperate region.

Published

2020

186. Invasive species and postglacial colonization: their effects on the genetic diversity of a Patagonian fish.

Author

Vera-Escalona I, Habit E, and Ruzzante DE

Subjects

Animals, Argentina, Chile, Animal Distribution, Genetic Variation, Introduced Species, Osmeriformes genetics, Salmon, Trout

Abstract

The present distribution of Patagonian species is the result of a complex history involving Quaternary refugial populations, Holocene range expansions and demographic changes occurring during the Anthropocene. Invasive salmonids were introduced in Patagonia during the last century, occupying most rivers and lakes, preying on and competing with native species, including the fish Galaxias platei. Here, we used G. platei as a case study to understand how long-term (i.e. population differentiation during the Holocene) and short-term historical processes (salmonid introductions) affect genetic diversity. Using a suite of microsatellite markers, we found that the number of alleles is negatively correlated with the presence of salmonids (short-term processes), with G. platei populations from lakes with salmonids exhibiting significantly lower genetic diversity than populations from lakes without salmonids. Simulations (100 years backwards) showed that this difference in genetic diversity can be explained by a 99% reduction in population size. Allelic richness and observed heterozygosities were also negatively correlated with the presence of salmonids, but also positively correlated with long-term processes linked to Quaternary glaciations. Our results show how different genetic parameters can help identify processes taking place at different scales and their importance in terms of conservation.

Published

2019

187. Effective number of breeders, effective population size and their relationship with census size in an iteroparous species, Salvelinus fontinalis.

Author

Ruzzante DE, McCracken GR, Parmelee S, Hill K, Corrigan A, MacMillan J, and Walde SJ

Subjects

Animal Distribution, Animals, Canada, Population Density, Reproduction physiology, Trout physiology

Abstract

The relationship between the effective number of breeders (Nb) and the generational effective size (Ne) has rarely been examined empirically in species with overlapping generations and iteroparity. Based on a suite of 11 microsatellite markers, we examine the relationship between Nb, Ne and census population size (Nc) in 14 brook trout (Salvelinus fontinalis) populations inhabiting 12 small streams in Nova Scotia and sampled at least twice between 2009 and 2015. Unbiased estimates of Nb obtained with individuals of a single cohort, adjusted on the basis of age at first maturation (α) and adult lifespan (AL), were from 1.66 to 0.24 times the average estimates of Ne obtained with random samples of individuals of mixed ages (i.e. [Formula: see text]). In turn, these differences led to adjusted Ne estimates that were from nearly five to 0.7 times the estimates derived from mixed-aged individuals. These differences translate into the same range of variation in the ratio of effective to census population size [Formula: see text] within populations. Adopting [Formula: see text] as the more precise and unbiased estimates, we found that these brook trout populations differ markedly in their effective to census population sizes (range approx. 0.3 to approx. 0.01). Using AgeNe, we then showed that the variance in reproductive success or reproductive skew varied among populations by a factor of 40, from Vk/k ≈ 5 to 200. These results suggest wide differences in population dynamics, probably resulting from differences in productivity affecting the intensity of competition for access to mates or redds, and thus reproductive skew. Understanding the relationship between Ne, Nb and Nc, and how these relate to population dynamics and fluctuations in population size, are important for the design of robust conservation strategies in small populations with overlapping generations and iteroparity., (© 2016 The Author(s).)

Published

2016

188. Contemporary effective population and metapopulation size (N e and meta-N e): comparison among three salmonids inhabiting a fragmented system and differing in gene flow and its asymmetries.

Author

Gomez-Uchida D, Palstra FP, Knight TW, and Ruzzante DE

Abstract

We estimated local and metapopulation effective sizes ([Formula: see text] and meta-[Formula: see text]) for three coexisting salmonid species (Salmo salar, Salvelinus fontinalis, Salvelinus alpinus) inhabiting a freshwater system comprising seven interconnected lakes. First, we hypothesized that [Formula: see text] might be inversely related to within-species population divergence as reported in an earlier study (i.e., FST: S. salar> S. fontinalis> S. alpinus). Using the approximate Bayesian computation method implemented in ONeSAMP, we found significant differences in [Formula: see text] ([Formula: see text]) between species, consistent with a hierarchy of adult population sizes ([Formula: see text]). Using another method based on a measure of linkage disequilibrium (LDNE: [Formula: see text]), we found more finite [Formula: see text] values for S. salar than for the other two salmonids, in line with the results above that indicate that S. salar exhibits the lowest [Formula: see text] among the three species. Considering subpopulations as open to migration (i.e., removing putative immigrants) led to only marginal and non-significant changes in [Formula: see text], suggesting that migration may be at equilibrium between genetically similar sources. Second, we hypothesized that meta-[Formula: see text] might be significantly smaller than the sum of local [Formula: see text]s (null model) if gene flow is asymmetric, varies among subpopulations, and is driven by common landscape features such as waterfalls. One 'bottom-up' or numerical approach that explicitly incorporates variable and asymmetric migration rates showed this very pattern, while a number of analytical models provided meta-[Formula: see text] estimates that were not significantly different from the null model or from each other. Our study of three species inhabiting a shared environment highlights the importance and utility of differentiating species-specific and landscape effects, not only on dispersal but also in the demography of wild populations as assessed through local [Formula: see text]s and meta-[Formula: see text]s and their relevance in ecology, evolution and conservation.

Published

2013

189. Poleward bound: biological impacts of Southern Hemisphere glaciation.

Author

Fraser CI, Nikula R, Ruzzante DE, and Waters JM

Subjects

Animals, Antarctic Regions, Plants, Population Dynamics, Time Factors, Biological Evolution, Climate Change, Ecosystem, Ice Cover

Abstract

Postglacial recolonisation patterns are well documented for the Northern Hemisphere biota, but comparable processes in the Southern Hemisphere have only recently been examined. In the largely terrestrial Northern Hemisphere, recession of ice after the Last Glacial Maximum (LGM) allowed various taxa, including slow-moving terrestrial species, to migrate poleward. By contrast, the Southern Hemisphere polar region is completely ringed by ocean, and recolonisation of Antarctica and the sub-Antarctic islands has thus presented considerable challenges. Although a few highly dispersive marine species have been able to recolonise postglacially, most surviving high-latitude taxa appear to have persisted throughout glacial maxima in local refugia. These contrasting patterns highlight the importance of habitat continuity in facilitating biological range shifts in response to climate change., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

190. Permanent genetic resources added to Molecular Ecology Resources Database 1 December 2011-31 January 2012.

Author

Arias MC, Arnoux E, Bell JJ, Bernadou A, Bino G, Blatrix R, Bourguet D, Carrea C, Clamens AL, Cunha HA, d'Alençon E, Ding Y, Djieto-Lordon C, Dubois MP, Dumas P, Eraud C, Faivre B, Francisco FO, Françoso E, Garcia M, Gardner JP, Garnier S, Gimenez S, Gold JR, Harris DJ, He G, Hellemans B, Hollenbeck CM, Jing S, Kergoat GJ, Liu B, McDowell JR, McKey D, Miller TL, Newton E, Pagenkopp Lohan KM, Papetti C, Paterson I, Peccoud J, Peng X, Piatscheck F, Ponsard S, Reece KS, Reisser CM, Renshaw MA, Ruzzante DE, Sauve M, Shields JD, Solé-Cava A, Souche EL, Van Houdt JK, Vasconcellos A, Volckaert FA, Wang S, Xiao J, Yu H, Zane L, Zannato B, Zemlak TS, Zhang C, Zhao Y, Zhou X, and Zhu L

Subjects

Biota, DNA Primers genetics, Databases, Genetic, Ecology methods, Microsatellite Repeats, Polymorphism, Single Nucleotide

Abstract

This article documents the addition of 473 microsatellite marker loci and 71 pairs of single-nucleotide polymorphism (SNP) sequencing primers to the Molecular Ecology Resources Database. Loci were developed for the following species: Barteria fistulosa, Bombus morio, Galaxias platei, Hematodinium perezi, Macrocentrus cingulum Brischke (a.k.a. M. abdominalis Fab., M. grandii Goidanich or M. gifuensis Ashmead), Micropogonias furnieri, Nerita melanotragus, Nilaparvata lugens Stål, Sciaenops ocellatus, Scomber scombrus, Spodoptera frugiperda and Turdus lherminieri. These loci were cross-tested on the following species: Barteria dewevrei, Barteria nigritana, Barteria solida, Cynoscion acoupa, Cynoscion jamaicensis, Cynoscion leiarchus, Cynoscion nebulosus, Cynoscion striatus, Cynoscion virescens, Macrodon ancylodon, Menticirrhus americanus, Nilaparvata muiri and Umbrina canosai. This article also documents the addition of 116 sequencing primer pairs for Dicentrarchus labrax., (© 2012 Blackwell Publishing Ltd.)

Published

2012

191. Parallel adaptive evolution of Atlantic cod on both sides of the Atlantic Ocean in response to temperature.

Author

Bradbury IR, Hubert S, Higgins B, Borza T, Bowman S, Paterson IG, Snelgrove PV, Morris CJ, Gregory RS, Hardie DC, Hutchings JA, Ruzzante DE, Taggart CT, and Bentzen P

Subjects

Adaptation, Physiological genetics, Alleles, Animals, Atlantic Ocean, Bayes Theorem, Conservation of Natural Resources, Expressed Sequence Tags, Gadus morhua genetics, Genetic Variation, Polymorphism, Single Nucleotide, Selection, Genetic, Sequence Analysis, DNA, Temperature, Adaptation, Physiological physiology, Gadus morhua physiology

Abstract

Despite the enormous economic and ecological importance of marine organisms, the spatial scales of adaptation and biocomplexity remain largely unknown. Yet, the preservation of local stocks that possess adaptive diversity is critical to the long-term maintenance of productive stable fisheries and ecosystems. Here, we document genomic evidence of range-wide adaptive differentiation in a broadcast spawning marine fish, Atlantic cod (Gadus morhua), using a genome survey of single nucleotide polymorphisms. Of 1641 gene-associated polymorphisms examined, 70 (4.2%) tested positive for signatures of selection using a Bayesian approach. We identify a subset of these loci (n=40) for which allele frequencies show parallel temperature-associated clines (p<0.001, r2=0.89) in the eastern and western north Atlantic. Temperature associations were robust to the statistical removal of geographic distance or latitude effects, and contrasted 'neutral' loci, which displayed no temperature association. Allele frequencies at temperature-associated loci were significantly correlated, spanned three linkage groups and several were successfully annotated supporting the involvement of multiple independent genes. Our results are consistent with the evolution and/or selective sweep of multiple genes in response to ocean temperature, and support the possibility of a new conservation paradigm for non-model marine organisms based on genomic approaches to resolving functional and adaptive diversity.

Published

2010

192. Permanent Genetic Resources added to Molecular Ecology Resources Database 1 May 2009-31 July 2009.

Author

Almany GR, DE Arruda MP, Arthofer W, Atallah ZK, Beissinger SR, Berumen ML, Bogdanowicz SM, Brown SD, Bruford MW, Burdine C, Busch JW, Campbell NR, Carey D, Carstens BC, Chu KH, Cubeta MA, Cuda JP, Cui Z, Datnoff LE, Dávila JA, Davis ES, Davis RM, Diekmann OE, Eizirik E, Fargallo JA, Fernandes F, Fukuda H, Gale LR, Gallagher E, Gao Y, Girard P, Godhe A, Gonçalves EC, Gouveia L, Grajczyk AM, Grose MJ, Gu Z, Halldén C, Härnström K, Hemmingsen AH, Holmes G, Huang CH, Huang CC, Hudman SP, Jones GP, Kanetis L, Karunasagar I, Karunasagar I, Keyghobadi N, Klosterman SJ, Klug PE, Koch J, Koopman MM, Köppler K, Koshimizu E, Krumböck S, Kubisiak T, Landis JB, Lasta ML, Lee CY, Li Q, Li SH, Lin RC, Liu M, Liu N, Liu WC, Liu Y, Loiseau A, Luan W, Maruthachalam KK, McCormick HM, Mellick R, Monnahan PJ, Morielle-Versute E, Murray TE, Narum SR, Neufeld K, De Nova PJ, Ojiambo PS, Okamoto N, Othman AS, Overholt WA, Pardini R, Paterson IG, Patty OA, Paxton RJ, Planes S, Porter C, Pratchett MS, Püttker T, Rasic G, Rasool B, Rey O, Riegler M, Riehl C, Roberts JM, Roberts PD, Rochel E, Roe KJ, Rossetto M, Ruzzante DE, Sakamoto T, Saravanan V, Sarturi CR, Schmidt A, Schneider MP, Schuler H, Serb JM, Serrão ET, Shi Y, Silva A, Sin YW, Sommer S, Stauffer C, Strüssmann CA, Subbarao KV, Syms C, Tan F, Tejedor ED, Thorrold SR, Trigiano RN, Trucco MI, Tsuchiya-Jerep MT, Vergara P, Van De Vliet MS, Wadl PA, Wang A, Wang H, Wang RX, Wang X, Wang Y, Weeks AR, Wei F, Werner WJ, Wiley EO, Williams DA, Wilkins RJ, Wisely SM, With KA, Wu D, Yao CT, Yau C, Yeap BK, Zhai BP, Zhan X, Zhang GY, Zhang SY, Zhao R, and Zhu L

Abstract

This article documents the addition of 512 microsatellite marker loci and nine pairs of Single Nucleotide Polymorphism (SNP) sequencing primers to the Molecular Ecology Resources Database. Loci were developed for the following species: Alcippe morrisonia morrisonia, Bashania fangiana, Bashania fargesii, Chaetodon vagabundus, Colletes floralis, Coluber constrictor flaviventris, Coptotermes gestroi, Crotophaga major, Cyprinella lutrensis, Danaus plexippus, Fagus grandifolia, Falco tinnunculus, Fletcherimyia fletcheri, Hydrilla verticillata, Laterallus jamaicensis coturniculus, Leavenworthia alabamica, Marmosops incanus, Miichthys miiuy, Nasua nasua, Noturus exilis, Odontesthes bonariensis, Quadrula fragosa, Pinctada maxima, Pseudaletia separata, Pseudoperonospora cubensis, Podocarpus elatus, Portunus trituberculatus, Rhagoletis cerasi, Rhinella schneideri, Sarracenia alata, Skeletonema marinoi, Sminthurus viridis, Syngnathus abaster, Uroteuthis (Photololigo) chinensis, Verticillium dahliae, Wasmannia auropunctata, and Zygochlamys patagonica. These loci were cross-tested on the following species: Chaetodon baronessa, Falco columbarius, Falco eleonorae, Falco naumanni, Falco peregrinus, Falco subbuteo, Didelphis aurita, Gracilinanus microtarsus, Marmosops paulensis, Monodelphis Americana, Odontesthes hatcheri, Podocarpus grayi, Podocarpus lawrencei, Podocarpus smithii, Portunus pelagicus, Syngnathus acus, Syngnathus typhle,Uroteuthis (Photololigo) edulis, Uroteuthis (Photololigo) duvauceli and Verticillium albo-atrum. This article also documents the addition of nine sequencing primer pairs and sixteen allele specific primers or probes for Oncorhynchus mykiss and Oncorhynchus tshawytscha; these primers and assays were cross-tested in both species., (© 2009 Blackwell Publishing Ltd.)

Published

2009

193. Biocomplexity in a highly migratory pelagic marine fish, Atlantic herring.

Author

Ruzzante DE, Mariani S, Bekkevold D, André C, Mosegaard H, Clausen LA, Dahlgren TG, Hutchinson WF, Hatfield EM, Torstensen E, Brigham J, Simmonds EJ, Laikre L, Larsson LC, Stet RJ, Ryman N, and Carvalho GR

Subjects

Animals, Female, Fisheries, Fishes physiology, Geography, Homing Behavior, Male, North Sea, Seasons, Sexual Behavior, Animal, Animal Migration, Fishes genetics, Genetic Variation

Abstract

The existence of biologically differentiated populations has been credited with a major role in conferring sustainability and in buffering overall productivity of anadromous fish population complexes where evidence for spatial structure is uncontroversial. Here, we describe evidence of correlated genetic and life history (spawning season linked to spawning location) differentiation in an abundant and highly migratory pelagic fish, Atlantic herring, Clupea harengus, in the North Sea (NS) and adjacent areas. The existence of genetically and phenotypically diverse stocks in this region despite intense seasonal mixing strongly implicates natal homing in this species. Based on information from genetic markers and otolith morphology, we estimate the proportional contribution by NS, Skagerrak (SKG) and Kattegat and western Baltic (WBS) fish to mixed aggregations targeted by the NS fishery. We use these estimates to identify spatial and temporal differences in life history (migratory behaviour) and habitat use among genetically differentiated migratory populations that mix seasonally. Our study suggests the existence of more complex patterns of intraspecific diversity than was previously recognized. Sustainability may be compromised if such complex patterns are reduced through generalized management (e.g. area closures) that overlooks population differences in spatial use throughout the life cycle.

Published

2006