Your search keyword '"notothenioid"' showing total 151 results

1. Lost in translation? Evidence for a muted proteomic response to thermal stress in a stenothermal Antarctic fish and possible evolutionary mechanisms.

Author

Dowd, W. Wesley and Kültz, Dietmar

Subjects

*HEAT shock proteins, *PROTEIN folding, *THERMAL stresses, *PROTEIN expression, *ENDOPLASMIC reticulum

Abstract

Stenothermal Antarctic notothenioid fishes are noteworthy for their history of isolation in extreme cold and their corresponding lack of the canonical heat shock response. Despite extensive transcriptomic studies, the mechanistic basis for stenothermy has not been fully elucidated. Given that the proteome better represents an organism's physiology, the possibility exists that some aspects of stenothermy arise posttranscriptionally. Here, Antarctic emerald rockcod (Trematomus bernacchii) were sampled after exposure to chronic and/or acute high temperatures, followed by a thorough assessment of proteomic responses in the brain, gill, and kidney. Few cellular stress response proteins were induced, and overall responses were modest in terms of the numbers of differentially expressed proteins and their fold changes. Inconsistencies in protein induction across treatments and tissues are suggestive of dysregulation, rather than an adaptive response. Changes in regulation of the translational machinery in Antarctic notothenioids could explain these patterns. Some components of translational regulatory pathways are highly conserved [e.g., Ser-52, eukaryotic translation initiation factor 2α (eIF2α)], but other proteins comprising the cellular "integrated stress response," specifically, the eIF2α kinases general control nonderepressible 2 (GCN2) and PKR-like endoplasmic reticulum kinase (PERK), may have evolved along different trajectories in Antarctic fishes. Taken together, these observations suggest a novel hypothesis for stenothermy and the absence of a coordinated cellular stress response in Antarctic fishes. NEW & NOTEWORTHY: Antarctic fishes have some of the lowest known heat tolerances among vertebrates, but the molecular mechanisms underlying this pattern are not fully understood. By combining detailed analyses of protein expression patterns in several tissues under various heat treatments with a broader evolutionary perspective, this study offers a novel hypothesis to explain the narrow range of temperature tolerance in this extraordinary group of fishes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Combining population genomics and biophysical modelling to assess connectivity patterns in an Antarctic fish.

Author

Bernal‐Durán, Valentina, Donoso, David, Piñones, Andrea, Jonsson, Per R., Benestan, Laura, Landaeta, Mauricio F., Naretto, Javier, Gerard, Karin, Haye, Pilar A., Gonzalez‐Wevar, Claudio, Poulin, Elie, and Segovia, Nicolás I.

Subjects

*LIFE cycles (Biology), *LARVAL dispersal, *GENOMICS, *DISPERSAL (Ecology), *MARINE parks & reserves, *ECOLOGICAL disturbances

Abstract

Connectivity is a fundamental process of population dynamics in marine ecosystems. In the last decade, with the emergence of new methods, combining different approaches to understand the patterns of connectivity among populations and their regulation has become increasingly feasible. The Western Antarctic Peninsula (WAP) is characterized by complex oceanographic dynamics, where local conditions could act as barriers to population connectivity. Here, the notothenioid fish Harpagifer antarcticus, a demersal species with a complex life cycle (adults with poor swim capabilities and pelagic larvae), was used to assess connectivity along the WAP by combining biophysical modelling and population genomics methods. Both approaches showed congruent patterns. Areas of larvae retention and low potential connectivity, observed in the biophysical model output, coincide with four genetic groups within the WAP: (1) South Shetland Islands, (2) Bransfield Strait, (3) the central and (4) the southern area of WAP (Marguerite Bay). These genetic groups exhibited limited gene flow between them, consistent with local oceanographic conditions, which would represent barriers to larval dispersal. The joint effect of geographic distance and larval dispersal by ocean currents had a greater influence on the observed population structure than each variable evaluated separately. The combined effect of geographic distance and a complex oceanographic dynamic would be generating limited levels of population connectivity in the fish H. antarcticus along the WAP. Based on this, population connectivity estimations and priority areas for conservation were discussed, considering the marine protected area proposed for this threatened region of the Southern Ocean. [ABSTRACT FROM AUTHOR]

Published

2024

3. Periodic Environmental Disturbance Drives Repeated Ecomorphological Diversification in an Adaptive Radiation of Antarctic Fishes.

Author

Parker, Elyse, Zapfe, Katerina L., Yadav, Jagriti, Frédérich, Bruno, Jones, Christopher D., Economo, Evan P., Federman, Sarah, Near, Thomas J., and Dornburg, Alex

Subjects

*ADAPTIVE radiation, *ECOLOGICAL disturbances, *MARINE habitats, *SYMPATRIC speciation, *HABITATS, *CROCODILES, *MARINE biodiversity

Abstract

The ecological theory of adaptive radiation has profoundly shaped our conceptualization of the rules that govern diversification. However, while many radiations follow classic early-burst patterns of diversification as they fill ecological space, the longer-term fates of these radiations depend on many factors, such as climatic stability. In systems with periodic disturbances, species-rich clades can contain nested adaptive radiations of subclades with their own distinct diversification histories, and how adaptive radiation theory applies in these cases is less clear. Here, we investigated patterns of ecological and phenotypic diversification within two iterative adaptive radiations of cryonotothenioid fishes in Antarctica's Southern Ocean: crocodile icefishes and notoperches. For both clades, we observe evidence of repeated diversification into disparate regions of trait space between closely related taxa and into overlapping regions of trait space between distantly related taxa. We additionally find little evidence that patterns of ecological divergence are correlated with evolution of morphological disparity, suggesting that these axes of divergence may not be tightly linked. Finally, we reveal evidence of repeated convergence in sympatry that suggests niche complementarity. These findings reflect the dynamic history of Antarctic marine habitats and may guide hypotheses of diversification dynamics in environments characterized by periodic disturbance. [ABSTRACT FROM AUTHOR]

Published

2022

4. The genome of the cryopelagic Antarctic bald notothen, Trematomus borchgrevinki.

Author

Rayamajhi N, Rivera-Colón AG, Minhas BF, Cheng CC, and Catchen JM

Abstract

The Antarctic bald notothen, Trematomus borchgrevinki (family Nototheniidae) occupies a high latitude, ice-laden environment and represents an extreme example of cold-specialization among fishes. We present the first, high quality, chromosome-scale genome of a female T. borchgrevinki individual comprised of 23 putative chromosomes, the largest of which is 65 megabasepairs (Mbp) in length. The total length of the genome 935.13 Mbp, composed of 2,094 scaffolds, with a scaffold N50 of 42.67 Mbp. Annotation yielded 22,192 protein coding genes while 54.75% of the genome was occupied by repetitive elements; an analysis of repeats demonstrated that an expansion occurred in recent time. Conserved synteny analysis revealed that the genome architecture of T. borchgrevinki is largely maintained with other members of the notothenioid clade, although several significant translocations and inversions are present, including the fusion of orthologous chromosomes 8 and 11 into a single element. This genome will serve as a cold-specialized model for comparisons to other members of the notothenioid adaptive radiation., (© The Author(s) 2024. Published by Oxford University Press on behalf of The Genetics Society of America.)

Published

2024

5. Quantitative Proteomics and Network Analysis of Differentially Expressed Proteins in Proteomes of Icefish Muscle Mitochondria Compared with Closely Related Red-Blooded Species.

Author

Katyal, Gunjan, Ebanks, Brad, Dowle, Adam, Shephard, Freya, Papetti, Chiara, Lucassen, Magnus, and Chakrabarti, Lisa

Subjects

*LIQUID chromatography-mass spectrometry, *KREBS cycle, *MITOCHONDRIAL proteins, *PLANT mitochondria, *MITOCHONDRIA, *MUSCLE proteins, *PROTEOMICS, *HOMEOSTASIS

Abstract

Simple Summary: Antarctic icefish are unusual in that they are the only vertebrates that survive without the protein haemoglobin. One way to try and understand the biological processes that support this anomaly is to record how proteins are regulated in these animals and to compare what we find to closely related Antarctic fish that do still retain haemoglobin. The part of the cell that most clearly utilises oxygen, which is normally transported by haemoglobin, is the mitochondrion. Therefore, we chose to catalogue all the proteins and their relative quantities in the mitochondria (pl.) from two different muscle types in two species of icefish and two species of red-blooded notothenioids. We used an approach called mass spectrometry to reveal relative amounts of the proteins from the muscles of each fish. We present analysis that shows how the connections and relative quantities of proteins differ between these species. Antarctic icefish are extraordinary in their ability to thrive without haemoglobin. We wanted to understand how the mitochondrial proteome has adapted to the loss of this protein. Metabolic pathways that utilise oxygen are most likely to be rearranged in these species. Here, we have defined the mitochondrial proteomes of both the red and white muscle of two different icefish species (Champsocephalus gunnari and Chionodraco rastrospinosus) and compared these with two related red-blooded Notothenioids (Notothenia rossii, Trematomus bernacchii). Liquid Chromatography-Mass spectrometry (LC-MS/MS) was used to generate and examine the proteomic profiles of the two groups. We recorded a total of 91 differentially expressed proteins in the icefish red muscle mitochondria and 89 in the white muscle mitochondria when compared with the red-blooded related species. The icefish have a relatively higher abundance of proteins involved with Complex V of oxidative phosphorylation, RNA metabolism, and homeostasis, and fewer proteins for striated muscle contraction, haem, iron, creatine, and carbohydrate metabolism. Enrichment analyses showed that many important pathways were different in both red muscle and white muscle, including the citric acid cycle, ribosome machinery and fatty acid degradation. Life in the Antarctic waters poses extra challenges to the organisms that reside within them. Icefish have successfully inhabited this environment and we surmise that species without haemoglobin uniquely maintain their physiology. Our study highlights the mitochondrial protein pathway differences between similar fish species according to their specific tissue oxygenation idiosyncrasies. [ABSTRACT FROM AUTHOR]

Published

2022

6. Proteomic analysis of the ATP synthase interactome in notothenioids highlights a pathway that inhibits ceruloplasmin production.

Author

Ebanks, Brad, Katyal, Gunjan, Lucassen, Magnus, Papetti, Chiara, and Chakrabarti, Lisa

Subjects

*ADENOSINE triphosphatase, *CERULOPLASMIN, *PROTEOMICS, *IRON proteins, *PROTEIN folding, *MYOGLOBIN

Abstract

Antarctic notothenioids have unique adaptations that allow them to thrive in subzero Antarctic waters. Within the suborder Notothenioidei, species of the family Channichthyidae (icefish) lack hemoglobin and in some instances myoglobin too. In studies of mitochondrial function of notothenioids, few have focused specifically on ATP synthase. In this study, we find that the icefish Champsocephalus gunnari has a significantly higher level of ATP synthase subunit a expression than the red-blooded Notothenia rossii, but a much smaller interactome than the other species. We characterize the interactome of ATP synthase subunit a in two red-blooded species Trematomus bernacchii, N. rossii, and in the icefish Chionodraco rastrospinosus and C. gunnari and find that, in comparison with the other species, reactome enrichment for C. gunnari lacks chaperonin-mediated protein folding, and fewer oxidative-stress-associated proteins are present in the identified interactome of C. gunnari. Reactome enrichment analysis also identifies a transcript-specific translational silencing pathway for the iron oxidase protein ceruloplasmin, which has previously been reported in studies of icefish as distinct from other red-blooded fish and vertebrates in its activity and RNA transcript expression. Ceruloplasmin protein expression is detected by Western blot in the liver of T. bernacchii, but not in N. rossii, C. rastrospinosus, and C. gunnari. We suggest that the translation of ceruloplasmin transcripts is silenced by the identified pathway in icefish notothenioids, which is indicative of altered iron metabolism and Fe(II) detoxification. [ABSTRACT FROM AUTHOR]

Published

2022

7. The effect of temperature adaptation on the ubiquitin–proteasome pathway in notothenioid fishes

Author

Todgham, Anne E, Crombie, Timothy A, and Hofmann, Gretchen E

Subjects

Aetiology, 2.1 Biological and endogenous factors, Acclimatization, Animals, Antarctic Regions, Cold Temperature, Fish Proteins, Gene Expression Regulation, Perciformes, Proteasome Endopeptidase Complex, Signal Transduction, Ubiquitin, Antarctic fish, Protein homeostasis, Ub-proteasome pathway, Cold adaptation, Notothenioid, Ub–proteasome pathway, Biological Sciences, Medical and Health Sciences, Physiology

Abstract

There is an accumulating body of evidence suggesting that the sub-zero Antarctic marine environment places physiological constraints on protein homeostasis. Levels of ubiquitin (Ub)-conjugated proteins, 20S proteasome activity and mRNA expression of many proteins involved in both the Ub tagging of damaged proteins as well as the different complexes of the 26S proteasome were measured to examine whether there is thermal compensation of the Ub-proteasome pathway in Antarctic fishes to better understand the efficiency of the protein degradation machinery in polar species. Both Antarctic (Trematomus bernacchii, Pagothenia borchgrevinki) and non-Antarctic (Notothenia angustata, Bovichtus variegatus) notothenioids were included in this study to investigate the mechanisms of cold adaptation of this pathway in polar species. Overall, there were significant differences in the levels of Ub-conjugated proteins between the Antarctic notothenioids and B. variegatus, with N. angustata possessing levels very similar to those of the Antarctic fishes. Proteasome activity in the gills of Antarctic fishes demonstrated a high degree of temperature compensation such that activity levels were similar to activities measured in their temperate relatives at ecologically relevant temperatures. A similar level of thermal compensation of proteasome activity was not present in the liver of two Antarctic fishes. Higher gill proteasome activity is likely due in part to higher cellular levels of proteins involved in the Ub-proteasome pathway, as evidenced by high mRNA expression of relevant genes. Reduced activity of the Ub-proteasome pathway does not appear to be the mechanism responsible for elevated levels of denatured proteins in Antarctic fishes, at least in the gills.

Published

2017

8. Decomplicating and identifying species in the radiation of the Antarctic fish genus Pogonophryne (Artedidraconidae).

Author

Eastman, Joseph T. and Eakin, Richard R.

Subjects

MOLECULAR phylogeny, SPECIES, RADIATION, ADAPTIVE radiation, TRAWLING, MORPHOMETRICS

Abstract

The 27 species of the genus Pogonophryne are a distinctive component of the radiation of cryonotothenioid fishes and commonly encountered during benthic trawling and commercial longlining for toothfish. They are difficult to identify because they are morphologically and ecologically similar and sympatric in their distributions. The genus has recently been the subject of a taxonomic consolidation that, on the basis of nuclear gene sequence data and morphometrics, has synonymized the 27 species to the five known species groups and detected an unnamed sixth clade, decreasing the diversity of Pogonophryne by ≈ 78% and that of the radiation of cryonotothenioids by ≈ 16%. We clarify this situation by assigning each of the 27 species to a species group. We also provide an uncomplicated illustrated guide that requires no counting or measuring of characters and facilitates the placement of each of the species into one of three categories, five species groups, and three subgroups within the genus. These are the essential steps in identifying a species of Pogonophryne whether following the traditional or reduced view of diversity. With the exception of the details concerning the undescribed species, this is the heretofore elusive synopsis of the genus that should remain stable into the future. [ABSTRACT FROM AUTHOR]

Published

2022

9. Juvenile Antarctic rockcod (Trematomus bernacchii) are physiologically robust to CO2-acidified seawater.

Author

Davis, Brittany E, Miller, Nathan A, Flynn, Erin E, and Todgham, Anne E

Subjects

Muscles, Heart, Animals, Fishes, Acids, Carbon Dioxide, Citrate (si)-Synthase, Basal Metabolism, Seawater, Oxygen Consumption, Aging, Respiration, Antarctic Regions, Antarctica, Cardiorespiratory physiology, Early life stages, Notothenioid, Ocean acidification, Physiology, Biological Sciences, Medical and Health Sciences

Abstract

To date, numerous studies have shown negative impacts of CO2-acidified seawater (i.e. ocean acidification, OA) on marine organisms, including calcifying invertebrates and fishes; however, limited research has been conducted on the physiological effects of OA on polar fishes and even less on the impact of OA on early developmental stages of polar fishes. We evaluated aspects of aerobic metabolism and cardiorespiratory physiology of juvenile emerald rockcod, ITALIC! Trematomus bernacchii, an abundant fish in the Ross Sea, Antarctica, to elevated partial pressure of carbon dioxide ( ITALIC! PCO2 ) [420 (ambient), 650 (moderate) and 1050 (high) μatm ITALIC! PCO2 ] over a 1 month period. We examined cardiorespiratory physiology, including heart rate, stroke volume, cardiac output and ventilation rate, whole organism metabolism via oxygen consumption rate and sub-organismal aerobic capacity by citrate synthase enzyme activity. Juvenile fish showed an increase in ventilation rate under high ITALIC! PCO2 compared with ambient ITALIC! PCO2 , whereas cardiac performance, oxygen consumption and citrate synthase activity were not significantly affected by elevated ITALIC! PCO2 Acclimation time had a significant effect on ventilation rate, stroke volume, cardiac output and citrate synthase activity, such that all metrics increased over the 4 week exposure period. These results suggest that juvenile emerald rockcod are robust to near-future increases in OA and may have the capacity to adjust for future increases in ITALIC! PCO2  by increasing acid-base compensation through increased ventilation.

Published

2016

10. Advancing human disease research with fish evolutionary mutant models.

Author

Beck, Emily A., Healey, Hope M., Small, Clayton M., Currey, Mark C., Desvignes, Thomas, Cresko, William A., and Postlethwait, John H.

Subjects

*EVOLUTIONARY models, *GENETIC variation, *FISH diseases, *GENETIC models, *HUMAN experimentation, *GENOME editing, *FISH diversity

Abstract

Model organism research is essential to understand disease mechanisms. However, laboratory-induced genetic models can lack genetic variation and often fail to mimic the spectrum of disease severity. Evolutionary mutant models (EMMs) are species with evolved phenotypes that mimic human disease. EMMs complement traditional laboratory models by providing unique avenues to study gene-by-environment interactions, modular mutations in noncoding regions, and their evolved compensations. EMMs have improved our understanding of complex diseases, including cancer, diabetes, and aging, and illuminated mechanisms in many organs. Rapid advancements of sequencing and genome-editing technologies have catapulted the utility of EMMs, particularly in fish. Fish are the most diverse group of vertebrates, exhibiting a kaleidoscope of specialized phenotypes, many that would be pathogenic in humans but are adaptive in the species' specialized habitat. Importantly, evolved compensations can suggest avenues for novel disease therapies. This review summarizes current research using fish EMMs to advance our understanding of human disease. Some animals evolved natural phenotypes that mimic human diseases but are not pathogenic in the animals' specific environments. Understanding molecular genetic strategies that evolutionary mutant medical models use to compensate for their pathology-mimicking phenotypes can suggest new avenues for novel therapies. Understanding evolutionary mutant models illuminates the role of genetic variation in disease etiology. Technical advances in genomics and molecular biology facilitate the expansion of disease research to non-model organisms. The deep radiation of fish generated a kaleidoscope of specialized phenotypes that mechanistically mimic human disease. Here we describe seven fish EMMs used to tackle research on nine groups of human diseases. [ABSTRACT FROM AUTHOR]

Published

2022

11. Bone microstructure and bone mineral density are not systemically different in Antarctic icefishes and related Antarctic notothenioids.

Author

Ashique, Amir M., Atake, Oghenevwogaga J., Ovens, Katie, Guo, Ruiyi, Pratt, Isaac V., Detrich, H. William, Cooper, David M. L., Desvignes, Thomas, Postlethwait, John H., and Eames, B. Frank

Subjects

*OCEAN bottom, *MICROSTRUCTURE, *COMPARATIVE anatomy, *PHENOTYPES

Abstract

Ancestors of the Antarctic icefishes (family Channichthyidae) were benthic and had no swim bladder, making it energetically expensive to rise from the ocean floor. To exploit the water column, benthopelagic icefishes were hypothesized to have evolved a skeleton with "reduced bone," which gross anatomical data supported. Here, we tested the hypothesis that changes to icefish bones also occurred below the level of gross anatomy. Histology and micro‐CT imaging of representative craniofacial bones (i.e., ceratohyal, frontal, dentary, and articular) of extant Antarctic fish species specifically evaluated two features that might cause the appearance of "reduced bone": bone microstructure (e.g., bone volume fraction and structure linear density) and bone mineral density (BMD, or mass of mineral per volume of bone). Measures of bone microstructure were not consistently different in bones from the icefishes Chaenocephalus aceratus and Champsocephalus gunnari, compared to the related benthic notothenioids Notothenia coriiceps and Gobionotothen gibberifrons. Some quantitative measures, such as bone volume fraction and structure linear density, were significantly increased in some icefish bones compared to homologous bones of non‐icefish. However, such differences were rare, and no microstructural measures were consistently different in icefishes across all bones and species analyzed. Furthermore, BMD was similar among homologous bones of icefish and non‐icefish Antarctic notothenioids. In summary, "reduced bone" in icefishes was not due to systemic changes in bone microstructure or BMD, raising the prospect that "reduced bone" in icefish occurs only at the gross anatomic level (i.e., smaller or fewer bones). Given that icefishes exhibit delayed skeletal development compared to non‐icefish Antarctic fishes, combining these phenotypic data with genomic data might clarify genetic changes driving skeletal heterochrony. [ABSTRACT FROM AUTHOR]

Published

2022

12. Quantitative Proteomics and Network Analysis of Differentially Expressed Proteins in Proteomes of Icefish Muscle Mitochondria Compared with Closely Related Red-Blooded Species

Author

Gunjan Katyal, Brad Ebanks, Adam Dowle, Freya Shephard, Chiara Papetti, Magnus Lucassen, and Lisa Chakrabarti

Subjects

icefish, proteomics, mitochondria, muscle, network analysis, notothenioid, Biology (General), QH301-705.5

Abstract

Antarctic icefish are extraordinary in their ability to thrive without haemoglobin. We wanted to understand how the mitochondrial proteome has adapted to the loss of this protein. Metabolic pathways that utilise oxygen are most likely to be rearranged in these species. Here, we have defined the mitochondrial proteomes of both the red and white muscle of two different icefish species (Champsocephalus gunnari and Chionodraco rastrospinosus) and compared these with two related red-blooded Notothenioids (Notothenia rossii, Trematomus bernacchii). Liquid Chromatography-Mass spectrometry (LC-MS/MS) was used to generate and examine the proteomic profiles of the two groups. We recorded a total of 91 differentially expressed proteins in the icefish red muscle mitochondria and 89 in the white muscle mitochondria when compared with the red-blooded related species. The icefish have a relatively higher abundance of proteins involved with Complex V of oxidative phosphorylation, RNA metabolism, and homeostasis, and fewer proteins for striated muscle contraction, haem, iron, creatine, and carbohydrate metabolism. Enrichment analyses showed that many important pathways were different in both red muscle and white muscle, including the citric acid cycle, ribosome machinery and fatty acid degradation. Life in the Antarctic waters poses extra challenges to the organisms that reside within them. Icefish have successfully inhabited this environment and we surmise that species without haemoglobin uniquely maintain their physiology. Our study highlights the mitochondrial protein pathway differences between similar fish species according to their specific tissue oxygenation idiosyncrasies.

Published

2022

13. Evolution in chronic cold: varied loss of cellular response to heat in Antarctic notothenioid fish

Author

Kevin T. Bilyk, Luis Vargas-Chacoff, and C.-H.Christina Cheng

Subjects

Antarctic fish, Notothenioid, Cold-specialization, Cellular stress response, Stenothermal, Thermal stress, Evolution, QH359-425

Abstract

Abstract Background Confined within the freezing Southern Ocean, the Antarctic notothenioids have evolved to become both cold adapted and cold specialized. A marked signature of cold specialization is an apparent loss of the cellular heat shock response (HSR). As the HSR has been examined in very few notothenioid species to-date, it remains unknown whether HSR loss pervades the Antarctic radiation, or whether the broader cellular responses to heat stress has sustained similar loss. Understanding the evolutionary status of these responses in this stenothermal taxon is crucial for evaluating its adaptive potential to ocean warming under climate change. Results In this study, we used an acute heat stress protocol followed by RNA-Seq analyses to study the evolution of cellular-wide transcriptional responses to heat stress across three select notothenioid lineages - the basal temperate and nearest non-Antarctic sister species Eleginops maclovinus serving as ancestral proxy, the cryopelagic Pagothenia borchgrevinki and the icefish Chionodraco rastrospinosus representing cold-adapted red-blooded and hemoglobinless Antarctic notothenioids respectively. E. maclovinus displayed robust cellular stress responses including the ER Unfolded Protein Response and the cytosolic HSR, cementing the HSR as a plesiomorphy that preceded Antarctic notothenioid radiation. While the transcriptional response to heat stress was minimal in P. borchgrevinki, C. rastrospinosus exhibited robust responses in the broader cellular networks especially in inflammatory responses despite lacking the classic HSR and UPR. Conclusion The disparate patterns observed in these two archetypal Antarctic species indicate the evolutionary status in cellular ability to mitigate acute heat stress varies even among Antarctic lineages, which may affect their adaptive potential in coping with a warming world.

Published

2018

14. Cold Fusion: Massive Karyotype Evolution in the Antarctic Bullhead Notothen Notothenia coriiceps

Author

Angel Amores, Catherine A. Wilson, Corey A. H. Allard, H. William Detrich, III, and John H. Postlethwait

Subjects

Notothenioid, Antarctica, Robertsonian translocation, teleost genome duplication, karyotype reduction, Genetics, QH426-470

Abstract

Half of all vertebrate species share a series of chromosome fusions that preceded the teleost genome duplication (TGD), but we do not understand the causative evolutionary mechanisms. The “Robertsonian-translocation hypothesis” suggests a regular fusion of each ancestral acro- or telocentric chromosome to just one other by centromere fusions, thus halving the karyotype. An alternative “genome-stirring hypothesis” posits haphazard and repeated fusions, inversions, and reciprocal and nonreciprocal translocations. To study large-scale karyotype reduction, we investigated the decrease of chromosome numbers in Antarctic notothenioid fish. Most notothenioids have 24 haploid chromosomes, but bullhead notothen (Notothenia coriiceps) has 1. To understand mechanisms, we made a RAD-tag meiotic map with ∼10,000 polymorphic markers. Comparative genomics aligned about a thousand orthologs of platyfish and stickleback genes along bullhead chromosomes. Results revealed that 9 of 11 bullhead chromosomes arose by fusion of just two ancestral chromosomes and two others by fusion of three ancestral chromosomes. All markers from each ancestral chromosome remained contiguous, implying no inversions across fusion borders. Karyotype comparisons support a history of: (1) Robertsonian fusions of 22 ancestral chromosomes in pairs to yield 11 fused plus two small unfused chromosomes, like N. angustata; (2) fusion of one of the remaining two ancestral chromosomes to a preexisting fused pair, giving 12 chromosomes like N. rossii; and (3) fusion of the remaining ancestral chromosome to another fused pair, giving 11 chromosomes in N. coriiceps. These results raise the question of what selective forces promoted the systematic fusion of chromosomes in pairs and the suppression of pericentric inversions in this lineage, and provide a model for chromosome fusions in stem teleosts.

Published

2017

15. Proteomic analysis of the ATP synthase interactome in notothenioids highlights a pathway that inhibits ceruloplasmin production

Author

Brad Ebanks, Gunjan Katyal, Magnus Lucassen, Chiara Papetti, and Lisa Chakrabarti

Subjects

Proteomics, Physiology, Iron, Fishes, Antarctic Regions, Ceruloplasmin, notothenioid, Perciformes, mitochondria, Adenosine Triphosphate, Physiology (medical), ATP synthase, Animals, ceruloplasmin, proteomics

Abstract

Antarctic notothenioids have unique adaptations that allow them to thrive in subzero Antarctic waters. Within the suborder Notothenioidei, species of the family Channichthyidae (icefish) lack hemoglobin and in some instances myoglobin too. In studies of mitochondrial function of notothenioids, few have focused specifically on ATP synthase. In this study, we find that the icefish Champsocephalus gunnari has a significantly higher level of ATP synthase subunit α expression than the red-blooded Notothenia rossii, but a much smaller interactome than the other species. We characterize the interactome of ATP synthase subunit α in two red-blooded species Trematomus bernacchii, N. rossii, and in the icefish Chionodraco rastrospinosus and C. gunnari and find that, in comparison with the other species, reactome enrichment for C. gunnari lacks chaperonin-mediated protein folding, and fewer oxidative-stress-associated proteins are present in the identified interactome of C. gunnari. Reactome enrichment analysis also identifies a transcript-specific translational silencing pathway for the iron oxidase protein ceruloplasmin, which has previously been reported in studies of icefish as distinct from other red-blooded fish and vertebrates in its activity and RNA transcript expression. Ceruloplasmin protein expression is detected by Western blot in the liver of T. bernacchii, but not in N. rossii, C. rastrospinosus, and C. gunnari. We suggest that the translation of ceruloplasmin transcripts is silenced by the identified pathway in icefish notothenioids, which is indicative of altered iron metabolism and Fe(II) detoxification.

Published

2022

16. A tale of two genes: divergent evolutionary fate of haptoglobin and hemopexin in hemoglobinless Antarctic icefishes.

Author

Bilyk, Kevin T., Xuan Zhuang, Murphy, Katherine R., and Cheng, C.-H. Christina

Subjects

*PATAGONIAN toothfish, *HAPTOGLOBINS, *FISH evolution, *FISH genetics, *HEMOPEXIN, *OXYGEN carriers

Abstract

The evolution of Antarctic notothenioid fishes in the isolated freezing Southern Ocean has led to remarkable trait gains and losses. One of the most extraordinary was the loss of the major oxygen carrier hemoglobin (Hb) in the icefishes (family Channichthyidae). Although the mechanisms of this loss and the resulting compensatory changes have been well studied, the impact of Hb loss on the network of genes that once supported its recycling and disposal has remained unexplored. Here, we report the functional fate and underlying molecular changes of two such key Hb-supporting proteins across the icefish family - haptoglobin (Hp) and hemopexin (Hx), crucial in removing cytotoxic free Hb and heme, respectively. Hp plays a critical role in binding free Hb for intracellular recycling and absent its primary client, icefish Hp transcription is now vanishingly little, and translation into a functional protein is nearly silenced. Hp genotype degeneration has manifested in separate lineages of the icefish phylogeny with three distinct nonsense mutations and a deletion frame shift, as well as mutated polyadenylation signal sequences. Thus, Hb loss appears to have diminished selective constraint on Hp maintenance, resulting in its stochastic, co-evolutionary drift towards extinction. Hx binds free heme for iron recycling in hepatocytes. In contrast to Hp, Hx genotype integrity is preserved in the icefishes and transcription occurs at levels comparable to those in the red-blooded notothenioids. The persistence of Hx likely owes to continued selective pressure for its function from mitochondrial and non-Hb cellular hemoproteins. [ABSTRACT FROM AUTHOR]

Published

2019

17. Characterization and husbandry of wild broodstock of the blackfin icefish Chaenocephalus aceratus (Lönnberg 1906) from the Palmer Archipelago (Southern Ocean) for breeding purposes.

Author

Le François, Nathalie, Sheehan, Eileen, Detrich, H., Desvignes, Thomas, Postlethwait, John, and Belzile, Claude

Subjects

FISH breeding, FISH reproduction -- Climatic factors, FISH mortality, FISH eggs, PALMER Archipelago

Abstract

The blackfin icefish Chaenocephalus aceratus represents a key component of the fish fauna surrounding the Antarctic Peninsula that may be especially vulnerable to the effects of climate change. Although the sensitivity of adults to elevated temperature has been evaluated, little is known about the potential impact of a warmer temperature on other life history stages including embryos and larvae. To investigate thermal effects on embryogenesis and larval development, one must establish optimal zootechnical parameters for maintaining reproductively competent broodstock in captivity. During two consecutive years, we conducted an evaluation of body morphometrics and reproductive traits and investigated appropriate husbandry practices. Absolute and relative fecundities of females were estimated as 14,367 ± 5733 and 8.87 ± 2.35 (Mean ± SD), respectively. Mean wet and dry masses (±SD) of eggs were 24.5 ± 11.0 and 15.3 ± 4.8 mg, respectively and the mean egg diameter (±SD) was 0.31 ± 0.03 cm. Post-capture mortality was high and no spawning state females survived for a sufficiently long time to allow release or extraction of mature eggs. Injecting males with gonadotropin-releasing hormone (GnRH) increased their gonadosomatic index by 2-fold and stimulated spermiation. Mean (±SD) sperm cell count per mL post-GnRH treatment was 9.9 × 10 ± 2.5 × 10, and the spermatocrit was 16.9 ± 3.8%. Our findings indicate that extending the duration of female survival post-capture will be necessary for the production of fertile eggs. Suggestions for future research are discussed. [ABSTRACT FROM AUTHOR]

Published

2017

18. Nutritional Immunity Triggers the Modulation of Iron Metabolism Genes in the Sub-Antarctic Notothenioid Eleginops maclovinus in Response to Piscirickettsia salmonis

Author

Danixa Martínez, Ricardo Oyarzún, Juan Pablo Pontigo, Alex Romero, Alejandro J. Yáñez, and Luis Vargas-Chacoff

Subjects

Eleginops maclovinus, iron metabolism, notothenioid, nutritional immunity, iron-withholding, Immunologic diseases. Allergy, RC581-607

Abstract

Iron deprivation is a nutritional immunity mechanism through which fish can limit the amount of iron available to invading bacteria. The aim of this study was to evaluate the modulation of iron metabolism genes in the liver and brain of sub-Antarctic notothenioid Eleginops maclovinus challenged with Piscirickettsia salmonis. The specimens were inoculated with two P. salmonis strains: LF-89 (ATCC® VR-1361™) and Austral-005 (antibiotic resistant). Hepatic and brain samples were collected at intervals over a period of 35 days. Gene expression (by RT-qPCR) of proteins involved in iron storage, transport, and binding were statistically modulated in infected fish when compared with control counterparts. Specifically, the expression profiles of the transferrin and hemopexin genes in the liver, as well as the expression profiles of ferritin-M, ferritin-L, and transferrin in the brain, were similar for both experimental groups. Nevertheless, the remaining genes such as ferritin-H, ceruloplasmin, hepcidin, and haptoglobin presented tissue-specific expression profiles that varied in relation to the injected bacterial strain and sampling time-point. These results suggest that nutritional immunity could be an important immune defense mechanism for E. maclovinus against P. salmonis injection. This study provides relevant information for understanding iron metabolism of a sub-Antarctic notothenioid fish.

Published

2017

19. A Mysterious Disease in Antarctic Fish

Author

DaMommio, Chloe, Postlethwait, John H., and Desvignes, Thomas

Subjects

Parasite, Nototheniops larseni, Trematomus scotti, Xcellidae, Graphic novel, Fish, Notoxcellia, SciComm, Antarctica, Alveolate, Comics, Notothenioid, X-cell

Abstract

While conducting research in Antarctica in 2018, scientists were surprised to capture many specimens of two species of fish that had massive skin tumors. In this short graphic novel, “A mysterious disease in Antarctic fish“, Chloe DaMommio, John Postlethwait, and Thomas Desvignes take us on a scientific expedition to Antarctica aboard the US Antarctic Research Vessel Laurence M. Gould to capture those diseased fish, set sail to the isolated Palmer Station to sample them, then back to their laboratory in the States to identify the origin of this mysterious disease and its effects on the fish. The graphic novel is available in English, Spanish, French, German, and Danish! And to know more about the science behind the graphic novel, the research results are now published in open-access., This material is based upon work supported by the Office of Polar Programs at the National Science Foundation under NSF grant number OPP-1947040. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the National Science Foundation.

Published

2022

20. Nutritional Immunity Triggers the Modulation of Iron Metabolism Genes in the Sub-Antarctic Notothenioid Eleginops maclovinus in Response to Piscirickettsia salmonis.

Author

Martínez, Danixa, Oyarzún, Ricardo, Pontigo, Juan Pablo, Romero, Alex, Yáñez, Alejandro J., and Vargas-Chacoff, Luis

Subjects

IRON metabolism disorders, CERULOPLASMIN, HEMOPEXIN

Abstract

Iron deprivation is a nutritional immunity mechanism through which fish can limit the amount of iron available to invading bacteria. The aim of this study was to evaluate the modulation of iron metabolism genes in the liver and brain of sub-Antarctic notothenioid Eleginops maclovinus challenged with Piscirickettsia salmonis. The specimens were inoculated with two P. salmonis strains: LF-89 (ATCC® VR-1361™) and Austral-005 (antibiotic resistant). Hepatic and brain samples were collected at intervals over a period of 35 days. Gene expression (by RT-qPCR) of proteins involved in iron storage, transport, and binding were statistically modulated in infected fish when compared with control counterparts. Specifically, the expression profiles of the transferrin and hemopexin genes in the liver, as well as the expression profiles of ferritin-M, ferritin-L, and transferrin in the brain, were similar for both experimental groups. Nevertheless, the remaining genes such as ferritin-H, ceruloplasmin, hepcidin, and haptoglobin presented tissue-specific expression profiles that varied in relation to the injected bacterial strain and sampling time-point. These results suggest that nutritional immunity could be an important immune defense mechanism for E. maclovinus against P. salmonis injection. This study provides relevant information for understanding iron metabolism of a sub-Antarctic notothenioid fish. [ABSTRACT FROM AUTHOR]

Published

2017

21. Identification, characterization and modulation of ferritin-H in the sub-Antarctic Notothenioid Eleginops maclovinus challenged with Piscirickettsia salmonis.

Author

Martínez, D., Oyarzún, R., Vargas-Lagos, C., Pontigo, J.P., Soto-Dávila, M., Saravia, J., Romero, A., Núñez, J.J., Yáñez, A.J., and Vargas-Chacoff, L.

Subjects

*FERRITIN, *NOTOTHENIOIDEI, *OXIDATIVE stress, *GRAM-negative bacteria, *ANTISENSE DNA, *GENE expression

Abstract

Ferritin is a major iron storage protein essential not only in the infectious process, but also in any circumstance generating oxidative stress. In this study, the cDNA coding sequence of ferritin-H was obtained from the sub-Antarctic Notothenioid fish Eleginops maclovinus through transcriptomic analysis of the head kidney. This sequence contained a 534 bp open reading frame that coded for a 177 amino acid protein with a molecular weight of 20,786.2 Da and a theoretical pI of 5.56. The protein displayed a region of iron putative response elements in the 5′UTR, two putative ferritin iron-binding region signatures, and seven characteristic amino acids with ferroxidase functions. Phylogenetic analysis related this sequence to ferritin-H sequences of other Antarctic Notothenioid fish, sharing 96.61% similarity. Constitutive gene expression analysis in different organs revealed increased ferritin-H gene expression in the gills, spleen, muscle, and liver. After infection with two bacterial strains of Piscirickettsia salmonis (LF-89 and Austral-005), ferritin-H was differentially expressed depending on bacterial strain and tissue. This study provides relevant information towards understanding the iron metabolism of a sub-Antarctic Notothenioid fish. [ABSTRACT FROM AUTHOR]

Published

2017

22. Draft genome of the Antarctic dragonfish, Parachaenichthys charcoti.

Author

Do-Hwan Ahn, Seung Chul Shin, Bo-Mi Kim, Seunghyun Kang, Jin-Hyoung Kim, Inhye Ahn, Joonho Park, and Hyun Park

Subjects

*BATHYDRACONIDAE, *NOTOTHENIOIDEI, *GENOMES, *RNA, *BIOMASS, *OSTEICHTHYES

Abstract

The Antarctic bathydraconid dragonfish, Parachaenichthys charcoti, is an Antarctic notothenioid teleost endemic to the Southern Ocean. The Southern Ocean has cooled to -1.8°C over the past 30 million years, and the seawater had retained this cold temperature and isolated oceanic environment because of the Antarctic Circumpolar Current. Notothenioids dominate Antarctic fish, making up 90% of the biomass, and all notothenioids have undergone molecular and ecological diversification to survive in this cold environment. Therefore, they are considered an attractive Antarctic fish model for evolutionary and ancestral genomic studies. Bathydraconidae is a speciose family of the Notothenioidei, the dominant taxonomic component of Antarctic teleosts. To understand the process of evolution of Antarctic fish, we select a typical Antarctic bathydraconid dragonfish, P. charcoti. Here, we have sequenced, de novo assembled, and annotated a comprehensive genome from P. charcoti. The draft genome of P. charcoti is 709 Mb in size. The N50 contig length is 6145 bp, and its N50 scaffold length 178 362 kb. The genome of P. charcoti is predicted to contain 32 712 genes, 18 455 of which have been assigned preliminary functions. A total of 8951 orthologous groups common to 7 species of fish were identified, while 333 genes were identified in P. charcoti only; 2519 orthologous groups were also identified in both P. charcoti and N. coriiceps, another Antarctic fish. Four gene ontology terms were statistically overrepresented among the 333 genes unique to P. charcoti, according to gene ontology enrichment analysis. The draft P. charcoti genome will broaden our understanding of the evolution of Antarctic fish in their extreme environment. It will provide a basis for further investigating the unusual characteristics of Antarctic fishes. [ABSTRACT FROM AUTHOR]

Published

2017

23. First characterization of gastrointestinal culturable bacteria of Patagonian toothfish Dissostichus eleginoides (Nototheniidae).

Author

Urtubia, Rocio, Gallardo, Pablo, Cárdenas, César A., Lavin, Paris, and González-Aravena, Marcelo

Abstract

The Patagonian toothfish Dissostichus eleginoides is one of the most important fisheries from the Southern Ocean. The biology of this species is relatively well studied and some nutritionals issues have also been reported; however there is no information about the composition of the bacterial community of the gastrointestinal tract, which is essential to characterize the microbiota of this fish. The bacterial flora of D. eleginoides is here described for the first time using culturable methods. By applying traditional culture-based techniques and 16S rDNA sequencing methods it was possible to characterize the families Vibronaceae and Moraxellaceae, which were mainly represented by Vibrio and Psychrobacter, respectively. This Patagonian fish shows a microbiota very similar to other cold waters fishes. [ABSTRACT FROM AUTHOR]

Published

2017

24. Cold Fusion: Massive Karyotype Evolution in the Antarctic Bullhead Notothen Notothenia coriiceps.

Author

Amores, Angel, Wilson, Catherine A., Allard, Corey A. H., Detrich III, H. William, and Postlethwait, John H.

Subjects

*FISHES, *OSTEICHTHYES, *FISH genomes, *CHROMOSOMES, *NOTOTHENIA, *CLASSIFICATION of fish

Abstract

Half of all vertebrate species share a series of chromosome fusions that preceded the teleost qenome duplication (TGD), but we do not understand the causative evolutionary mechanisms. The "Robertsonian-translocation hypothesis" suggests a regular fusion of each ancestral acro- or telocentric chromosome to just one other by centromere fusions, thus halving the karyotype. An alternative "genome-stirring hypothesis" posits haphazard and repeated fusions, inversions, and reciprocal and nonreciprocal translocations. To study large-scale karyotype reduction, we investigated the decrease of chromosome numbers in Antarctic notothenioid fish. Most notothenioids have 24 haploid chromosomes, but bullhead notothen (Notothenia coriiceps) has 11. To understand mechanisms, we made a RAD-tag meiotic map with ~10,000 polymorphic markers. Comparative genomics aligned about a thousand orthologs of platyfish and stickleback genes along bullhead chromosomes. Results revealed that 9 of 11 bullhead chromosomes arose by fusion of just two ancestral chromosomes and two others by fusion of three ancestral chromosomes. All markers from each ancestral chromosome remained contiguous, implying no inversions across fusion borders. Karyotype comparisons support a history of: (1) Robertsonian fusions of 22 ancestral chromosomes in pairs to yield 11 fused plus two small unfused chromosomes, like N. angustata; (2) fusion of one of the remaining two ancestral chromosomes to a preexisting fused pair, giving 12 chromosomes like N. rossii; and (3) fusion of the remaining ancestral chromosome to another fused pair, giving 11 chromosomes in N. coriiceps. These results raise the question of what selective forces promoted the systematic fusion of chromosomes in pairs and the suppression of pericentric inversions in this lineage, and provide a model for chromosome fusions in stem teleosts. [ABSTRACT FROM AUTHOR]

Published

2017

25. Head Kidney Transcriptome Analysis and Characterization for the Sub-Antarctic Notothenioid Fish Eleginops maclovinus

Author

Danixa Martínez, Juan Pablo Pontigo, Francisco J. Morera, Alejandro. Yañéz, and Luis Vargas-Chacoff

Subjects

Eleginops maclovinus, transcriptome, notothenioid, immunity, head kidney, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

This study describes de novo transcriptome sequencing and annotation analyses for the head kidney of the sub-Antarctic notothenioid fish Eleginops maclovinus, a sister group of the Antarctic notothenioid fish clade. Moreover, E. maclovinus is one of the most eurythermal and euryhaline representatives of the Notothenioidei suborder. RNA-seq data were generated by the 454 GS Junior system, resulting in 11,207 contigs that were then assembled by the Genomic Workbench CLC software. The transcriptome was annotated by BLASTing each sequence against the universal, non-redundant NCBI database (National Center for Biotechnology Information) using the AUSTRAL-omics computer cluster. A significant number of transcripts related to innate and adaptive immunity were found in the sequences, which could be used as references in future immunological studies in E. maclovinus.

Published

2018

26. Embryogenesis and early skeletogenesis in the antarctic bullhead notothen, Notothenia coriiceps.

Author

Postlethwait, John H., Yan, Yi‐lin, Desvignes, Thomas, Allard, Corey, Titus, Tom, Le François, Nathalie R., and Detrich, H. William

Abstract

Background: Environmental temperature influences rates of embryonic development, but a detailed staging series for vertebrate embryos developing in the subzero cold of Antarctic waters is not yet available from fertilization to hatching. Given projected warming of the Southern Ocean, it is imperative to establish a baseline to evaluate potential effects of changing climate on fish developmental dynamics. Results: We studied the Bullhead notothen ( Notothenia coriiceps), a notothenioid fish inhabiting waters between -1.9 and +2 °C. In vitro fertilization produced embryos that progressed through cleavage, epiboly, gastrulation, segmentation, organogenesis, and hatching. We compared morphogenesis spatially and temporally to Zebrafish and medaka. Experimental animals hatched after about 6 months to early larval stages. To help understand skeletogenesis, we analyzed late embryos for expression of sox9 and runx2, which regulate chondrogenesis, osteogenesis, and eye development. Results revealed that, despite their prolonged developmental time course, N. coriiceps embryos developed similarly to those of other teleosts with large yolk cells. Conclusions: Our studies set the stage for future molecular analyses of development in these extremophile fish. Results provide a foundation for understanding the impact of ocean warming on embryonic development and larval recruitment of notothenioid fish, which are key factors in the marine trophic system. Developmental Dynamics 245:1066-1080, 2016. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2016

27. Transcriptome analysis of immune response genes induced by pathogen agonists in the Antarctic bullhead notothen Notothenia coriiceps.

Author

Ahn, Do-Hwan, Kang, Seunghyun, and Park, Hyun

Subjects

*OSTEICHTHYES, *IMMUNE response in fishes, *ANTIGEN processing, *TUMOR necrosis factors, *NOTOTHENIOIDEI, *NUCLEOTIDE sequence

Abstract

Fish are a representative population of lower vertebrates that serve as an essential link to early vertebrate evolution, and this has fueled academic interest in studying ancient vertebrate immune defense mechanisms in teleosts. Notothenia coriiceps , a typical Antarctic notothenioid teleost, has evolved to adapt to the cold and thermally stable Antarctic sea. In this study, we examined adaptive signaling pathways and immune responses to bacterial and viral pathogenic exposure in N. coriiceps . Using RNA sequencing, we investigated transcriptional differences in the liver tissues of N. coriiceps challenged with two pathogen-mimicking agonists, a bacterial ligand (heat-killed Escherichia coli , HKEB) and a viral ligand (polyinosinic:polycytidylic acid, Poly I:C). We found that 567 unique genes were up-regulated two-fold in the HKEB-exposed group, whereas 392 unique genes, including 124 immune-relevant genes, were up-regulated two-fold in the Poly I:C-exposed group. A KEGG pathway analysis of the 124 immune-relevant genes revealed that they exhibited major features of antigen processing and presentation bacterial ligand exposure, but they were down-regulated after viral ligand exposure. A quantitative real time RT-PCR analysis revealed that TNFα and TNF2, major inducers of apoptosis, were highly up-regulated after exposure to the viral ligand but not the bacterial ligand. The results suggest that the bacterial and viral ligands up-regulate inducers of different immune mechanisms in N. coriiceps liver tissue. N. coriiceps has an immune response defense strategy that uses antigen presentation against bacterial infection, but it may use a different defense, such as TNF-mediated apoptosis, against viral infection. The specific immune responses of N. coriiceps may be adaptations to the Antarctic environment and pathogens. These results will help define the characteristics of Antarctic fish and increase our understanding of their immune response mechanisms. [ABSTRACT FROM AUTHOR]

Published

2016

28. RNA-seq reveals a diminished acclimation response to the combined effects of ocean acidification and elevated seawater temperature in Pagothenia borchgrevinki.

Author

Huth, Troy J. and Place, Sean P.

Abstract

Purpose The IPCC has reasserted the strong influence of anthropogenic CO 2 contributions on global climate change and highlighted the polar-regions as highly vulnerable. With these predictions the cold adapted fauna endemic to the Southern Ocean, which is dominated by fishes of the sub-order Notothenioidei, will face considerable challenges in the near future. Recent physiological studies have demonstrated that the synergistic stressors of elevated temperature and ocean acidification have a considerable, although variable, impact on notothenioid fishes. The present study explored the transcriptomic response of Pagothenia borchgrevinki to increased temperatures and p CO 2 after 7, 28 and 56 days of acclimation. We compared this response to short term studies assessing heat stress alone and foretell the potential impacts of these stressors on P. borchgrevinki ' s ability to survive a changing Southern Ocean. Results P. borchgrevinki did demonstrate a coordinated stress response to the dual-stressor condition, and even indicated that some level of inducible heat shock response may be conserved in this notothenioid species. However, the stress response of P. borchgrevinki was considerably less robust than that observed previously in the closely related notothenioid, Trematomus bernacchii , and varied considerably when compared across different acclimation time-points. Furthermore, the molecular response of these fish under multiple stressors displayed distinct differences compared to their response to short term heat stress alone. Conclusions When exposed to increased sea surface temperatures, combined with ocean acidification, P. borchgrevinki demonstrated a coordinated stress response that has already peaked by 7 days of acclimation and quickly diminished over time. However, this response is less dramatic than other closely related notothenioids under identical conditions, supporting previous research suggesting that this notothenioid species is less sensitive to environmental variation. [ABSTRACT FROM AUTHOR]

Published

2016

29. Evolution in an extreme environment: developmental biases and phenotypic integration in the adaptive radiation of antarctic notothenioids.

Author

Yinan Hu, Ghigliotti, Laura, Vacchi, Marino, Pisano, Eva, Detrich III, H. William, and Albertson, R. Craig

Subjects

*PARTICLE scattering functions, *PHENOTYPES, *ADAPTIVE radiation, *NOTOTHENIOIDEI, *EXTREME environments

Abstract

Background: Over the past 40 million years water temperatures have dramatically dropped in the Southern Ocean, which has led to the local extinction of most nearshore fish lineages. The evolution of antifreeze glycoproteins in notothenioids, however, enabled these ancestrally benthic fishes to survive and adapt as temperatures reached the freezing point of seawater (−1.86 °C). Antarctic notothenioids now represent the primary teleost lineage in the Southern Ocean and are of fundamental importance to the local ecosystem. The radiation of notothenioids has been fostered by the evolution of "secondary pelagicism", the invasion of pelagic habitats, as the group diversified to fill newly available foraging niches in the water column. While elaborate craniofacial modifications have accompanied this adaptive radiation, little is known about how these morphological changes have contributed to the evolutionary success of notothenioids. Results: We used a 3D-morphometrics approach to investigate patterns of morphological variation in the craniofacial skeleton among notothenioids, and show that variation in head shape is best explained by divergent selection with respect to foraging niche. We document further an accelerated rate of morphological evolution in the icefish family Channichthyidae, and show that their rapid diversification was accompanied by the evolution of relatively high levels of morphological integration. Whereas most studies suggest that extensive integration should constrain phenotypic evolution, icefish stand out as a rare example of increased integration possibly facilitating evolutionary potential. Finally, we show that the unique feeding apparatus in notothenioids in general, and icefish in particular, can be traced to shifts in early developmental patterning mechanisms and ongoing growth of the pharyngeal skeleton. Conclusion: Our work suggests that ecological opportunity is a major factor driving craniofacial variation in this group. Further, the observation that closely related lineages can differ dramatically in integration suggests that this trait can evolve quickly. We propose that the evolution of high levels of phenotypic integration in icefishes may be considered a key innovation that facilitated their morphological evolution and subsequent ecological expansion. [ABSTRACT FROM AUTHOR]

Published

2016

30. Juvenile Antarctic rockcod (Trematomus bernacchii) are physiologically robust to CO2-acidified seawater.

Author

Davis, Brittany E., Miller, Nathan A., Flynn, Erin E., and Todgham, Anne E.

Subjects

*TREMATOMUS bernacchii, *OCEAN acidification, *CARBON dioxide in seawater, *WATER acidification, *CITRATE synthase

Abstract

To date, numerous studies have shown negative impacts of CO2- acidified seawater (i.e. ocean acidification, OA) on marine organisms, including calcifying invertebrates and fishes; however, limited research has been conducted on the physiological effects of OA on polar fishes and even less on the impact of OA on early developmental stages of polar fishes. We evaluated aspects of aerobic metabolism and cardiorespiratory physiology of juvenile emerald rockcod, Trematomus bernacchii, an abundant fish in the Ross Sea, Antarctica, to elevated partial pressure of carbon dioxide (PCO2) [420 (ambient), 650 (moderate) and 1050 (high) μatm PCO2] over a 1 month period. We examined cardiorespiratory physiology, including heart rate, stroke volume, cardiac output and ventilation rate, whole organism metabolism via oxygen consumption rate and sub-organismal aerobic capacity by citrate synthase enzyme activity. Juvenile fish showed an increase in ventilation rate under high PCO2 compared with ambient PCO2, whereas cardiac performance, oxygen consumption and citrate synthase activity were not significantly affected by elevated PCO2. Acclimation time had a significant effect on ventilation rate, stroke volume, cardiac output and citrate synthase activity, such that all metrics increased over the 4 week exposure period. These results suggest that juvenile emerald rockcod are robust to near-future increases in OA and may have the capacity to adjust for future increases in PCO2 by increasing acid-base compensation through increased ventilation. [ABSTRACT FROM AUTHOR]

Published

2016

31. Transcriptome wide analyses reveal a sustained cellular stress response in the gill tissue of Trematomus bernacchii after acclimation to multiple stressors.

Author

Huth, Troy J. and Place, Sean P.

Subjects

*OCEAN acidification, *THERMAL stresses, *RNA sequencing, *NOTOTHENIOIDEI, *GENE expression

Abstract

Background: As global climate change progresses, the Southern Ocean surrounding Antarctica is poised to undergo potentially rapid and substantial changes in temperature and pCO2. To survive in this challenging environment, the highly cold adapted endemic fauna of these waters must demonstrate sufficient plasticity to accommodate these changing conditions or face inexorable decline. Previous studies of notothenioids have focused upon the short-term response to heat stress; and more recently the longer-term physiological response to the combined stress of increasing temperatures and pCO2. This inquiry explores the transcriptomic response of Trematomus bernacchii to increased temperatures and pCO2 at 7, 28 and 56 days, in an attempt to discern the innate plasticity of T. bernacchii available to cope with a changing Southern Ocean. Results: Differential gene expression analysis supported previous research in that T. bernacchii exhibits no inducible heat shock response to stress conditions. However, T. bernacchii did demonstrate a strong stress response to the multi-stressor condition in the form of metabolic shifts, DNA damage repair, immune system processes, and activation of apoptotic pathways combined with negative regulation of cell proliferation. This response declined in magnitude over time, but aspects of this response remained detectable throughout the acclimation period. Conclusions: When exposed to the multi-stressor condition, T. bernacchii demonstrates a cellular stress response that persists for a minimum of 7 days before returning to near basal levels of expression at longer acclimation times. However, subtle changes in expression persist in fish acclimated for 56 days that may significantly affect the fitness T. bernacchii over time. [ABSTRACT FROM AUTHOR]

Published

2016

32. Zonation of demersal fishes off Anvers Island, western Antarctic Peninsula.

Author

Amsler, Margaret O., Eastman, Joseph T., Smith, Kathryn E., Mcclintock, James B., Singh, Hanumant, Thatje, Sven, and Aronson, Richard B.

Subjects

DEMERSAL zone, MARINE habitats, FISHES, CHANNICTHYIDAE, MACROURIDAE

Abstract

The Antarctic fish fauna from outer continental shelf/upper slope depths is under-sampled compared to that of the inner shelf, and there are limited quantitative data available on absolute abundance and taxonomic change with depth. A photographic survey of demersal fishes was conducted along a depth-gradient of 400–2099 m on the outer shelf and upper slope west of Anvers Island, Palmer Archipelago. A total of 1490 fishes were identified at least to the family level. Notothenioids composed 52.7% of absolute abundance and non-notothenioids 47.3%. The most abundant families were Nototheniidae (39.4%), followed by Macrouridae (28.9%), Zoarcidae (16.9%), and Channichthyidae (12.1%). The most abundant species were the notothenioids Lepidonotothen squamifrons (30.5%) and Chionobathyscus dewitti (11.7%), and the non-notothenioid Macrourus spp. (29.5%). The absolute abundance of all fishes peaked at 400–599 m. Depths of maximum abundance were 400–599 m for L. squamifrons, 700–1499 m for Macrourus spp., and 900–1499 for C. dewitti. At 700–999 m the abundance shifted from primarily notothenioids to the non-notothenioids Macrourus spp. and zoarcids. Fishes of the outer shelf and upper slope are not provincialized like those of the inner shelf and are circum-Antarctic. [ABSTRACT FROM AUTHOR]

Published

2016

33. Bone microstructure and bone mineral density are not systemically different in Antarctic icefishes and related Antarctic notothenioids

Author

Oghenevwogaga J. Atake, Thomas Desvignes, Katie Ovens, David M. L. Cooper, Isaac V. Pratt, Amir M. Ashique, B. Frank Eames, Ruiyi Guo, John H. Postlethwait, and H. William Detrich

Subjects

0106 biological sciences, Histology, Zoology, Antarctic Regions, Chaenocephalus aceratus, 010603 evolutionary biology, 01 natural sciences, notothenioid, 03 medical and health sciences, Bone Density, Swim bladder, Animals, 14. Life underwater, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, bone microstructure, Bone mineral, 0303 health sciences, Original Paper, biology, Antarctic icefish, Champsocephalus, micro‐CT, Fishes, Cell Biology, Comparative anatomy, biology.organism_classification, Skeleton (computer programming), Channichthyidae, Original Papers, Perciformes, skeletal evolution, comparative anatomy, Anatomy, bone mineral density, Heterochrony, Developmental Biology

Abstract

Ancestors of the Antarctic icefishes (family Channichthyidae) were benthic and had no swim bladder, making it energetically expensive to rise from the ocean floor. To exploit the water column, benthopelagic icefishes were hypothesized to have evolved a skeleton with “reduced bone,” which gross anatomical data supported. Here, we tested the hypothesis that changes to icefish bones also occurred below the level of gross anatomy. Histology and micro‐CT imaging of representative craniofacial bones (i.e., ceratohyal, frontal, dentary, and articular) of extant Antarctic fish species specifically evaluated two features that might cause the appearance of “reduced bone”: bone microstructure (e.g., bone volume fraction and structure linear density) and bone mineral density (BMD, or mass of mineral per volume of bone). Measures of bone microstructure were not consistently different in bones from the icefishes Chaenocephalus aceratus and Champsocephalus gunnari, compared to the related benthic notothenioids Notothenia coriiceps and Gobionotothen gibberifrons. Some quantitative measures, such as bone volume fraction and structure linear density, were significantly increased in some icefish bones compared to homologous bones of non‐icefish. However, such differences were rare, and no microstructural measures were consistently different in icefishes across all bones and species analyzed. Furthermore, BMD was similar among homologous bones of icefish and non‐icefish Antarctic notothenioids. In summary, “reduced bone” in icefishes was not due to systemic changes in bone microstructure or BMD, raising the prospect that “reduced bone” in icefish occurs only at the gross anatomic level (i.e., smaller or fewer bones). Given that icefishes exhibit delayed skeletal development compared to non‐icefish Antarctic fishes, combining these phenotypic data with genomic data might clarify genetic changes driving skeletal heterochrony., Antarctic icefishes are amazing examples of evolutionary adaptation. Here, we show quantitatively that icefish skeletons did not change bone microstructure or bone mineral density, relative to closely related fish species.

Published

2021

34. Characterization of Toll-like receptor gene expression and the pathogen agonist response in the antarctic bullhead notothen Notothenia coriiceps.

Author

Ahn, Do, Shin, Seung, and Park, Hyun

Subjects

*TOLL-like receptors, *GENE expression in fishes, *NOTOTHENIA, *NATURAL immunity, *FISH immunology, *FISH phylogeny, *FISH evolution

Abstract

Notothenia coriiceps, a typical Antarctic notothenioid teleost, has evolved to adapt to the extreme Antarctic marine environment. We previously reported an extensive analysis of the Antarctic notothenioid transcriptome. In this study, we focused on a key component of the innate immune system, the Toll-like receptors (TLRs). We cloned the full-length sequence of 12 TLRs of N. coriiceps. The N. coriiceps transcriptome for TLR homologue (ncTLR) genes encode a typical TLR structure, with multiple extracellular leucine-rich regions and an intracellular Toll/IL-1 receptor (TIR) domain. Using phylogenetic analysis, we established that all of the cloned ncTLR genes could be classified into the same orthologous clade with other teleost TLRs. ncTLRs were widely expressed in various organs, with the highest expression levels observed in immune-related tissues, such as the skin, spleen, and kidney. A subset of the ncTLR genes was expressed at higher levels in fish exposed to pathogen-mimicking agonists, heat-killed Escherichia coli, and polyinosinic-polycytidylic acid (poly(I:C)). However, the mechanism involved in the upregulation of TLR expression following pathogen exposure in fish is currently unknown. Further research is required to elucidate these mechanisms and to thereby increase our understanding of vertebrate immune system evolution. [ABSTRACT FROM AUTHOR]

Published

2014

35. Is warmer better? Decreased oxidative damage in notothenioid fish after long-term acclimation to multiple stressors.

Author

Enzor, Laura A. and Place, Sean P.

Subjects

*NOTOTHENIOIDEI, *ECOLOGICAL disturbances, *CLIMATE change, *CATALASE, *SEAWATER, *OXIDANT status

Abstract

The article discusses the increment in the susceptibility to oxidative damage for the Notothenioidei fish and the environmental perturbations brought by the climate change. Topics discussed include information on the ability of Antarctic fish, changes in the total enzymatic activity of catalase and acclimation to decreased seawater pH. Also mentioned is that the ability of Notothenioidei fishes to predict the antioxidant capacity of oceans.

Published

2014

36. Changes in physiological responses of an Antarctic fish, the emerald rock cod (Trematomus bernacchii), following exposure to polybrominated diphenyl ethers (PBDEs)

Author

Ghosh, Ruma, Lokman, P. Mark, Lamare, Miles D., Metcalf, Victoria J., Burritt, David J., Davison, William, and Hageman, Kimberly J.

Subjects

*FISH physiology, *TREMATOMUS bernacchii, *POLYBROMINATED diphenyl ethers, *BIOTIC communities, *SEWAGE purification, *PHYSIOLOGICAL models, *OXIDATIVE stress

Abstract

Abstract: Although polybrominated diphenyl ethers (PBDEs) have the ability to undergo long-range atmospheric transport to remote ecosystems like Antarctica, a recent study found evidence for a local source within the Antarctic. PBDEs from sewage treatment outfalls of McMurdo Station and Scott Base on Ross Island have been attributed to the high concentrations measured in emerald rock cod (Trematomus bernacchii). The potential impact of PBDEs on Antarctic fish physiology is unknown and therefore, the aim of this study was to obtain a greater understanding of physiological responses of emerald rock cod for assessing changes in ecosystem quality. A PBDE mixture (ΣPBDE 8 congeners) was administered fortnightly over 42 days and physiological changes were observed throughout this period and for a further 14 days thereafter. Changes in liver composition, molecular level changes and enzyme activities of selected detoxification-mediated and antioxidant defence markers were measured. Changes in total lipid, lipid peroxide and protein carbonyl concentrations in emerald rock cod liver were consistent with increases in nucleus surface area in the PBDE-treated groups, suggesting alterations in cellular function. Changes in the activities of selected antioxidant enzymes indirectly indicated oxidative stress, possibly resulting in the changes in liver composition. Additionally, glutathione-S-transferase (GST) activity reached its peak faster than that of ethoxyresorufin-O-deethylase (EROD), suggesting that during the early response to PBDE exposures there could be a greater involvement of GST-mediated detoxification. Thus, for at least the species examined here, protein carbonyl and lipid peroxides were useful and informative biomarkers for cellular level responses following PBDE-related exposure. Furthermore, our findings suggest that emerald rock cod exposed to PBDEs develop oxidative stress – a condition with potential consequences for fish growth, health and reproduction. [Copyright &y& Elsevier]

Published

2013

37. High latitude fish in a high CO2 world: Synergistic effects of elevated temperature and carbon dioxide on the metabolic rates of Antarctic notothenioids

Author

Enzor, Laura A., Zippay, Mackenzie L., and Place, Sean P.

Subjects

*OCEAN acidification, *OSTEICHTHYES, *TREMATOMUS bernacchii, *FISH physiology, *PHYSIOLOGICAL effects of carbon dioxide, *GLOBAL environmental change, *ACCLIMATIZATION, *HIGH temperatures

Abstract

Abstract: Although the physiological response of teleost fishes to increased temperature has been well documented, there is only a small body of literature that examines the effects of ocean acidification on fish under ecologically relevant scenarios. Furthermore, little data exists which examines the possible synergistic effects of increased sea surface temperatures and pCO2 levels, although it is well established that both will co-committedly change in the coming centuries. In this study we examined the effects of increased temperature, increased pCO2, and a combination of these treatments on the resting metabolic rate (RMR) of four species of notothenioid fish, Trematomus bernacchii, T. hansoni, T. newnesi, and Pagothenia borchgrevinki, acclimated to treatment conditions for 7, 14 or 28days. While most species appear capable of rapidly acclimating to increased pCO2, temperature continues to impact RMRs for up to 28days. One species in particular, T. newnesi, displayed no acclimatory response to any of the treatments regardless of acclimation time and may have a reduced capacity to respond to environmental change. Furthermore, we present evidence that temperature and pCO2 act synergistically to further elevate the RMR and slow acclimation when compared to temperature or pCO2 increases alone. [Copyright &y& Elsevier]

Published

2013

38. Molecular cloning of cDNA encoding red opsin gene in the retinas of five Antarctic notothenioid fishes.

Author

Miyazaki, Taeko and Iwami, Tetsuo

Subjects

MOLECULAR genetics, GENETIC engineering, CLONING, MOLECULAR cloning, PHOTOBIOLOGY

Abstract

Previous evidence suggested that notothenioid fish had lost red-sensitive (LWS) visual pigment and photoreceptors, but retained ultraviolet-sensitive (SWS1), blue-sensitive (SWS2), and green-sensitive (RH2) pigments. We used RT-PCR and Southern blot to isolate the LWS opsin gene in five notothenioid species. We determined full-coding LWS opsin sequences and genomic sequences. The expected peak absorbance of the LWS opsin, based on the five-sites rule that is primarily responsible for the spectral sensitivities in vertebrates, ranged from 541 to 553 nm. In Antarctic waters, light of this wavelength penetrates to dozens of meters. Thus, we conclude that notothenioids use tetrachromatic color vision in shallower waters, at least during the Antarctic summer. [ABSTRACT FROM AUTHOR]

Published

2012

39. Metabolic shifts in the Antarctic fish Notothenia rossii in response to rising temperature and PCO2.

Author

Strobel, Anneli, Bennecke, Swaantje, Leo, Elettra, Mintenbeck, Katja, P”rtner, Hans O., and Mark, Felix C.

Subjects

*HIGH temperatures, *NOTOTHENIA rossi, *ACCLIMATIZATION, *VITAL signs, *PHOTOSYNTHETIC oxygen evolution

Abstract

Introduction: Ongoing ocean warming and acidification increasingly affect marine ecosystems, in particular around the Antarctic Peninsula. Yet little is known about the capability of Antarctic notothenioid fish to cope with rising temperature in acidifying seawater. While the whole animal level is expected to be more sensitive towards hypercapnia and temperature, the basis of thermal tolerance is set at the cellular level, with a putative key role for mitochondria. This study therefore investigates the physiological responses of the Antarctic Notothenia rossii after long-term acclimation to increased temperatures (7°C) and elevated PCO2 (0.2 kPa CO2) at different levels of physiological organisation. Results: For an integrated picture, we analysed the acclimation capacities of N. rossii by measuring routine metabolic rate (RMR), mitochondrial capacities (state III respiration) as well as intra- and extracellular acid-base status during acute thermal challenges and after long-term acclimation to changing temperature and hypercapnia. RMR was partially compensated during warm- acclimation (decreased below the rate observed after acute warming), while elevated PCO2 had no effect on cold or warm acclimated RMR. Mitochondrial state III respiration was unaffected by temperature acclimation but depressed in cold and warm hypercapnia-acclimated fish. In both cold- and warm-exposed N. rossii, hypercapnia acclimation resulted in a shift of extracellular pH (pHe) towards more alkaline values. A similar overcompensation was visible in muscle intracellular pH (pHi). pHi in liver displayed a slight acidosis after warm normo- or hypercapnia acclimation, nevertheless, long-term exposure to higher CO2 was compensated for by intracellular bicarbonate accumulation. Conclusion: The partial warm compensation in whole animal metabolic rate indicates beginning limitations in tissue oxygen supply after warm-acclimation of N. rossii. Compensatory mechanisms of the reduced mitochondrial capacities under chronic hypercapnia may include a new metabolic equilibrium to meet the elevated energy demand for acid-base regulation. New set points of acid-base regulation under hypercapnia, visible at the systemic and intracellular level, indicate that N. rossii can at least in part acclimate to ocean warming and acidification. It remains open whether the reduced capacities of mitochondrial energy metabolism are adaptive or would impair population fitness over longer timescales under chronically elevated temperature and PCO2. [ABSTRACT FROM AUTHOR]

Published

2012

40. Metabolic shifts in the Antarctic fish Notothenia rossii in response to rising temperature and PCO2.

Author

Strobel, Anneli, Bennecke, Swaantje, Leo, Elettra, Mintenbeck, Katja, P”rtner, Hans O., and Mark, Felix C.

Subjects

HIGH temperatures, NOTOTHENIA rossi, ACCLIMATIZATION, VITAL signs, PHOTOSYNTHETIC oxygen evolution

Abstract

Introduction: Ongoing ocean warming and acidification increasingly affect marine ecosystems, in particular around the Antarctic Peninsula. Yet little is known about the capability of Antarctic notothenioid fish to cope with rising temperature in acidifying seawater. While the whole animal level is expected to be more sensitive towards hypercapnia and temperature, the basis of thermal tolerance is set at the cellular level, with a putative key role for mitochondria. This study therefore investigates the physiological responses of the Antarctic Notothenia rossii after long-term acclimation to increased temperatures (7°C) and elevated PCO2 (0.2 kPa CO2) at different levels of physiological organisation. Results: For an integrated picture, we analysed the acclimation capacities of N. rossii by measuring routine metabolic rate (RMR), mitochondrial capacities (state III respiration) as well as intra- and extracellular acid-base status during acute thermal challenges and after long-term acclimation to changing temperature and hypercapnia. RMR was partially compensated during warm- acclimation (decreased below the rate observed after acute warming), while elevated PCO2 had no effect on cold or warm acclimated RMR. Mitochondrial state III respiration was unaffected by temperature acclimation but depressed in cold and warm hypercapnia-acclimated fish. In both cold- and warm-exposed N. rossii, hypercapnia acclimation resulted in a shift of extracellular pH (pHe) towards more alkaline values. A similar overcompensation was visible in muscle intracellular pH (pHi). pHi in liver displayed a slight acidosis after warm normo- or hypercapnia acclimation, nevertheless, long-term exposure to higher CO2 was compensated for by intracellular bicarbonate accumulation. Conclusion: The partial warm compensation in whole animal metabolic rate indicates beginning limitations in tissue oxygen supply after warm-acclimation of N. rossii. Compensatory mechanisms of the reduced mitochondrial capacities under chronic hypercapnia may include a new metabolic equilibrium to meet the elevated energy demand for acid-base regulation. New set points of acid-base regulation under hypercapnia, visible at the systemic and intracellular level, indicate that N. rossii can at least in part acclimate to ocean warming and acidification. It remains open whether the reduced capacities of mitochondrial energy metabolism are adaptive or would impair population fitness over longer timescales under chronically elevated temperature and PCO2. [ABSTRACT FROM AUTHOR]

Published

2012

41. Adaptive radiation at a low taxonomic level: divergence in buoyancy of the ecologically similar Antarctic fish Notothenia coriiceps and N. rossii.

Author

Eastman, Joseph T., Barrera-Oro, Esteban, and Moreira, Eugenia

Subjects

BIOLOGICAL divergence, NOTOTHENIA, DEVELOPMENTAL biology, PELAGIC fishes

Abstract

The article focuses on a study about the divergence in buoyancy of the sister Antarctic fish species Notothenia (N.) coriiceps and N. rossii that have been collected at King George Island, South Shetland Islands. The eggs, larvae and early juvenile stages of both species are regarded as pelagic and near neutral buoyancy yet both have also become demersal in coastal regions. The study involved 99 specimens of N. coriiceps and 164 specimens of N. rossii. Results of the study show that the difference in buoyancies between the two species is about 0.5% B units.

Published

2011

42. Heat tolerance and its plasticity in Antarctic fishes

Author

Bilyk, Kevin T. and DeVries, Arthur L.

Subjects

*NOTOTHENIOIDEI, *PHYSIOLOGICAL effects of heat, *PHENOTYPIC plasticity, *WATER temperature, *HEAT adaptation, *ACCLIMATIZATION

Abstract

Abstract: The adaptive radiation of the Antarctic notothenioid ancestral benthic fish stock within the chronic freezing waters of the Southern Ocean gave rise to five highly cold adapted families. Their stenothermy, first observed from several high-latitude McMurdo Sound species, has been of increasing recent interest given the threat of rising polar water temperatures from global climate change. In this study we determined the heat tolerance in a geographically diverse group of 11 Antarctic species as their critical thermal maximum (CTMax). When acclimatized to their natural freezing water temperatures, environmental CTMaxs ranged from 11.95 to 16.17°C, well below those of fishes endemic to warmer waters. There was a significant regional split, with higher CTMaxs in species from the more northerly and thermally variable Seasonal Pack-ice Zone. When eight of the Antarctic species were warm acclimated to 4°C all showed a significant increase over their environmental CTMaxs, with several showing plasticity comparable in magnitude to some far more eurythermal fishes. When the accrual of heat tolerance during acclimation was followed in three high-latitude McMurdo Sound species, it was found to develop slowly in two of them, which was correlated with their low metabolic rates. [Copyright &y& Elsevier]

Published

2011

43. Warm-induced bradycardia and cold-induced tachycardia: mechanisms of cardiac and ventilatory control in a warm-acclimated Antarctic fish.

Author

Robinson, Esme, Egginton, Stuart, and Davison, William

Subjects

MARINE organisms, FISHES, ACCLIMATIZATION, HEART beat, BRADYCARDIA, TEMPERATURE, TACHYCARDIA

Abstract

While many Antarctic organisms possess only limited ability to respond to environmental temperature change, there is now substantial evidence to confirm that the notothenioid fish, Pagothenia borchgrevinki, has retained some thermal flexibility and can successfully acclimate to a 5°C increase in temperature. Previous research demonstrated that after acclimation to 4°C, resting cardiac output in this species was thermally independent, while cold-adapted fish demonstrated thermal dependence of cardiac output. Here, we extend this research into cardiovascular plasticity and report the following: (1) The mechanisms responsible for the thermal independence of cardiac output in warm-acclimated (4°C, for 4 weeks) fish include a combination of warm-induced bradycardia and cold-induced tachycardia bouts. (2) These acute responses are under cholinergic control. (3) Changes to the thermal sensitivity of heart rate and ventilation rate result in concomitant changes to cardio-respiratory coupling in warm-acclimated fish. [ABSTRACT FROM AUTHOR]

Published

2011

44. Relationship among circulating hemoglobin, nitric oxide synthase activities and angiogenic poise in red- and white-blooded Antarctic notothenioid fishes

Author

Beers, Jody M., Borley, Kimberly A., and Sidell, Bruce D.

Subjects

*HEMOGLOBINS, *NITRIC-oxide synthases, *VASCULAR endothelial growth factors, *NOTOTHENIOIDEI, *HEMATOCRIT, *POLYMERASE chain reaction, *ONTOGENY

Abstract

Abstract: Nitric oxide (NO)-mediated angiogenesis may play a role in establishing dense retinal vasculatures of Antarctic hemoglobinless icefishes (suborder: Notothenioidei). We hypothesized that loss of hemoglobin (Hb) leads to elevation in [NO] due to decreased degradation of the compound when the NO-scavenger Hb is absent, thereby inducing vascular growth. We found that total mass of NO metabolites, nitrite plus nitrate (NO x ), in plasma is greater in icefishes than in red-blooded notothenioids [e.g. C. aceratus (Hb−), 22.7±2.9μM; N. coriiceps (Hb+), 14.7±1.7μM], suggesting a higher NO load in hemoglobinless animals. High NO levels do not appear to be a result of greater NO synthesis; we consistently measured lower activities of the enzyme catalyzing NO production, nitric oxide synthase, in tissues of icefishes than in Hb-expressing notothenioids [e.g. 96±10 and 216±39 pmol(min g wet wt)−1 in brain tissue of C. aceratus (Hb−) and G. gibberifrons (Hb+), respectively]. Levels of mRNA for hypoxia-induced (HIF-1α and PHD2) and angiogenic genes (VEGF) were similar in red- and white-blooded species, indicating that vascular maintenance in adult animals does not require differences in angiogenic tone. This does not preclude a cause-and-effect relationship between absence of Hb and NO-mediated angiogenesis during earlier ontogenetic stages of icefishes. [Copyright &y& Elsevier]

Published

2010

45. How do Antarctic notothenioid fishes cope with internal ice? A novel function for antifreeze glycoproteins.

Author

Evans, Clive W., Gubala, Vladimir, Nooney, Robert, Williams, David E., Brimble, Margaret A., and Devries, Arthur L.

Subjects

NOTOTHENIOIDEI, FISHES, ANTIFREEZE proteins, MARINE biology, NANOPARTICLES

Abstract

Antarctic fishes survive freezing through the secretion of antifreeze glycoproteins (AFGPs), which bind to ice crystals to inhibit their growth. This mode of action implies that ice crystals must be present internally for AFGPs to function. The entry and internal accumulation of ice is likely to be lethal, however, so how do fishes survive in its presence? We propose a novel function for the interaction between internal ice and AFGPs, namely the promotion of ice uptake by splenic phagocytes. We show here that i) external mucus of Antarctic notothenioids contains AFGPs and thus has a potential protective role against ice entry, ii) AFGPs are distributed widely through the extracellular space ensuring that they are likely to come into immediate contact with ice that penetrates their protective barriers, and iii) using AFGP-coated nanoparticles as a proxy for AFGP adsorbed onto ice, we suggest that internal ice crystals are removed from the circulation through phagocytosis, primarily in the spleen. We argue that intracellular sequestration in the spleen minimizes the risks associated with circulating ice and enables the fish to store the ice until it can be dealt with at a later date, possibly by melting during a seasonal warming event. [ABSTRACT FROM AUTHOR]

Published

2010

46. Freezing avoidance of the Antarctic icefishes (Channichthyidae) across thermal gradients in the Southern Ocean.

Author

Bilyk, Kevin T. and DeVries, Arthur L.

Subjects

PATAGONIAN toothfish, CHANNICTHYIDAE, BIOGEOGRAPHY, REGRESSION analysis

Abstract

Biogeographic studies separate the Antarctic Notothenioid fish fauna into high- and low-latitude species. Past studies indicate that some species found in the high-latitude freezing waters of the High-Antarctic Zone have low-serum hysteresis freezing points, while other species restricted to the low-latitude seasonal pack ice zone have higher serum hysteresis freezing points above the freezing point of seawater (−1.9°C), but the relationship has not been systematically investigated. Freeze avoidance was quantified in 11 species of Antarctic icefishes by determining the hysteresis freezing points of their blood serum, in addition, the freezing point depression from serum osmolytes, the antifreeze activity from serum antifreeze glycoproteins (AFGPs), and the antifreeze activity from serum antifreeze potentiating protein were measured for each species. Serum hysteresis freezing point, a proxy for organismal freeze avoidance, decreased as species were distributed at increasing latitude (linear regression r2 0.66, slope −0.046°C °latitude−1), which appeared largely independent of phylogenetic influences. Greater freeze avoidance at high latitudes was largely a result of higher levels of antifreeze activity from serum AFGPs relative to those in species inhabiting the low-latitude waters. The icefish fauna could be separated into a circum High-Antarctic Group of eight species that maintained serum hysteresis freezing points below −1.9°C even when sampled from less severe habitats. The remaining three species with low-latitude ranges restricted to the waters of the northern part of the west Antarctic Peninsula and Scotia Arc Islands had serum hysteresis freezing points at or above −1.9°C due to significantly lower combined activity from all of their serum antifreeze proteins than found in the High-Antarctic Zone icefish. [ABSTRACT FROM AUTHOR]

Published

2010

47. Characterization of the intestinal microbiota of two Antarctic notothenioid fish species.

Author

Ward, Naomi L., Steven, Blaire, Penn, Kevin, Methé, Barbara A., and Detrich, III, William H.

Subjects

*NOTOTHENIOIDEI, *FISHES, *GRAM-negative bacteria, *VIBRIONACEAE, *BIOMASS

Abstract

The fish fauna of the Southern Ocean is dominated by species of the perciform suborder Notothenioidei, which constitute 46% of fish species and 90% of biomass. Notothenioids have undergone rapid morphological and ecological diversification and developed physiological adaptations to a cold, highly oxygenated environment. Microbes inhabiting animal intestines include those that perform essential nutritional functions, but notothenioid gut microbial communities have not been investigated using cultivation-independent approaches. We analyzed bacterial 16S rRNA gene sequences obtained from the intestinal tract of Notothenia coriiceps and Chaenocephalus aceratus, which differ in their pelagic distribution and feeding strategies. Both samples showed dominance of Gammaproteobacteria (mostly Vibrionaceae), as has been reported for temperate teleost species. Both samples showed low diversity relative to that reported for other fish microbiota studies, with C. aceratus containing fewer OTUs than N. coriiceps. Despite the small sample size of this preliminary study, our findings suggest that Antarctic notothenioids carry a gut microbiota similar in composition to that of temperate fish, but exhibiting lower species-level diversity. The omnivorous N. coriiceps individual exhibited greater diversity than the exclusively carnivorous C. aceratus individual, which may indicate that increasing herbivory in fish leads to gut microbe diversification, as found in mammals. Lastly, we detected members of taxa containing known microbial pathogens, which have not been previously reported in Antarctic notothenioid fish. [ABSTRACT FROM AUTHOR]

Published

2009

48. Antarctic fish can survive prolonged exposure to elevated temperatures.

Author

Robinson, E. and Davison, W.

Subjects

*NOTOTHENIIDAE, *FISH behavior, *EFFECT of temperature on fishes, *FISH physiology, *FISHERY sciences, *BIOLOGY

Abstract

The Antarctic notothenioid Pagothenia borchgrevinki was collected from the stenothermal waters of McMurdo Sound in the summers of 2004, 2005 and 2006. Acclimation ability at 4° C was tested in healthy P. borchgrevinki and in individuals infected with x-cell gill disease. All healthy fish successfully acclimated to 4° C, establishing compensatory changes in resting oxygen consumption rate ( Rrest) and critical swimming speed ( Ucrit) during a 1 month acclimation period, which were maintained during a longer, 6 month acclimation period. In contrast, individuals infected with x-cell disease were unable to acclimate to 4° C, demonstrating significantly reduced survival rates compared with healthy individuals at 4° C. Measurements of Rrest suggest that limitations in the ability of x-cell fish to uptake oxygen from the external milieu may have a negative effect on their survival at 4° C. [ABSTRACT FROM AUTHOR]

Published

2008

49. The Antarctic notothenioid fish Pagothenia borchgrevinki is thermally flexible: acclimation changes oxygen consumption.

Author

Robinson, Esme and Davison, William

Subjects

ACCLIMATIZATION, CLIMATE change, METABOLISM, ANIMAL introduction, BIOLOGICAL adaptation, FISHES

Abstract

Antarctic marine organisms are considered to have extremely limited ability to respond to environmental temperature change. However, here we show that the Antarctic notothenioid fish Pagothenia borchgrevinki is an exception to this theory. P. borchgrevinki was able to acclimate its resting metabolic rate and resting ventilation frequency after a 5°C rise in temperature. Acute exposure to 4°C resulted in an elevation in metabolic rate (57.8 ± 4.79 mg O2 kg−1 h−1) and resting ventilation rate (40.38 ± 1.61 breaths min−1) compared with fish at −1°C (metabolic rate 34.45 ± 3.12 mg O2 kg−1 h−1; ventilation rate 29.88 ± 3.72 breaths min−1). However, after a 1-month acclimation period, there was no significant difference in the metabolic rate (cold fish 29.52 ± 3.01; warm fish 31.13 ± 2.30 mg O2 kg−1 h−1), or the resting ventilation rate (cold fish 28.75 ± 0.98; warm fish 34.25 ± 2.28 breaths min−1) of cold and warm acclimated fish. Acclimation changes to the rate of oxygen consumption following exhaustive exercise were complex. The pattern of oxygen consumption during recovery from exhaustive exercise was not significantly different in either cold or warm acclimated fish. [ABSTRACT FROM AUTHOR]

Published

2008

50. Is cold the new hot? Elevated ubiquitin-conjugated protein levels in tissues of Antarctic fish as evidence for cold-denaturation of proteins in vivo.

Author

Todgham, Anne E., Hoaglund, Elizabeth A., and Hofmann, Gretchen E.

Subjects

*UBIQUITIN, *BIOMOLECULES, *LYMPHOID tissue, *PHYSIOLOGY, *DENATURATION of proteins, *IMMOBILIZED proteins, *BLOOD coagulation, *METABOLIC regulation, *PHYSIOLOGICAL control systems

Abstract

Levels of ubiquitin (Ub)-conjugated proteins, as an index of misfolded or damaged proteins, were measured in notothenioid fishes, with both Antarctic ( Trematomus bernacchii, T. pennellii, Pagothenia borchgrevinki) and non-Antarctic ( Notothenia angustata, Bovichtus variegatus) distributions, as well as non-notothenioid fish from the Antarctic ( Lycodichthys dearborni, Family Zoarcidae) and New Zealand ( Bellapiscis medius, Family Tripterygiidae), in an effort to better understand the effect that inhabiting a sub-zero environment has on maintaining the integrity of the cellular protein pool. Overall, levels of Ub-conjugated proteins in cold-adapted Antarctic fishes were significantly higher than New Zealand fishes in gill, liver, heart and spleen tissues suggesting that life at sub-zero temperatures impacts protein homeostasis. The highest tissue levels of ubiquitinated proteins were found in the spleen of all fish. Ub conjugate levels in the New Zealand N. angustata, more closely resembled levels measured in other Antarctic fishes than levels measured in other New Zealand species, likely reflecting their recent shared ancestry with Antarctic notothenioids. [ABSTRACT FROM AUTHOR]

Published

2007