Your search keyword '"Hogg ID"' showing total 42 results

1. Assessing the diversity of New Zealand freshwater harpacticoid copepods (Crustacea: Copepoda) using mitochondrial DNA (COI) barcodes

Author

Watson, NTN, primary, Duggan, IC, additional, and Hogg, ID, additional

Published

2015

2. Effects of runoff from land clearing and urban development on the distribution and abundance of macroinvertebrates in pool areas of a river

Author

Hogg, ID, primary and Norris, RH, additional

Published

1991

3. Agenesis of the internal carotid artery with an unusual primitive collateral. Case report

Author

Kees Cj, Hogg Id, and Smith Rr

Subjects

Adult, Male, medicine.medical_specialty, education, Collateral Circulation, Anastomosis, Dorsum sellae, medicine.artery, Medicine, Humans, medicine.diagnostic_test, business.industry, Head injury, Anatomy, Collateral circulation, medicine.disease, Cerebral Angiography, medicine.anatomical_structure, Carotid Arteries, Right internal carotid artery, Agenesis, Radiology, Internal carotid artery, business, Carotid Artery, Internal, Cerebral angiography

Abstract

✓ A 22-year-old man admitted to the hospital following a head injury was found to have agenesis of the right internal carotid artery with a large carotid-cavernous anastamosis at the level of the dorsum sellae.

Published

1972

4. Towards robust and repeatable sampling methods in eDNA-based studies

Author

Dickie, IA, Boyer, S, Buckley, HL, Duncan, RP, Gardner, PP, Hogg, ID, Holdaway, RJ, Lear, G, Makiola, A, Morales, SE, Powell, JR, and Weaver, L

Published

2018

5. Invertebrates

Author

Ian D. Hogg, Mark I. Stevens, Diana H. Wall, Hogg, ID, Stevens, Mark I, and Wall, DH

Subjects

trophic structure, Antarctic, microbial ecology, extremophiles, psychrotolerant, soil

Abstract

Terrestrial invertebrates are the largest permanent residents for much of the Antarctic continent with body lengths < 2 mm for most. The fauna consists of the arthropod taxa Collembola (springtails) and Acari (mites) as well as the icroinvertebrates Nematoda, Tardigrada and Rotifera. Diversity in continental Antarctica is lower compared with warmer regions such as the Antarctic Peninsula and the subantarctic islands and several taxa such as the arthropods have considerably restricted distributions. The highest diversity of 'invertebrates is found along the Transantarctic Mountains of the Ross Sea Region and taxa are likely to be relicts from a warmer past that have survived in glacial refugia. Dispersal among the extremely fragmented Antarctic landscape is likely to be limited to transport via fresh- or salt-waters, particularly for the arthropod taxa, although long-distance wind dispersal is also possible for the microinvertebrates. Invertebrates possess several adaptations to low moisture levels and extreme cold temperatures in Antarctica. For example, nematodes and tardigrades avoid extreme dry and cold temperatures by entering a desiccation-resistant anhydrobiotic state. In contrast, arthropods do not have such a resistant state and freezing is lethal. Adaptations for the arthropod taxa include freeze avoidance and the production of intracellular, antifreeze proteins. Climate changes in Antarctica are likely to pose significant challenges for the invertebrate fauna. Changes in temperature, soil moisture and associated shifts in taxon distributions as well as the potential for non-indigenous species introductions are all likely to have considerable impacts on the Antarctic fauna.

Published

2014

6. Airborne DNA reveals predictable spatial and seasonal dynamics of fungi.

Author

Abrego N, Furneaux B, Hardwick B, Somervuo P, Palorinne I, Aguilar-Trigueros CA, Andrew NR, Babiy UV, Bao T, Bazzano G, Bondarchuk SN, Bonebrake TC, Brennan GL, Bret-Harte S, Bässler C, Cagnolo L, Cameron EK, Chapurlat E, Creer S, D'Acqui LP, de Vere N, Desprez-Loustau ML, Dongmo MAK, Jacobsen IBD, Fisher BL, Flores de Jesus M, Gilbert GS, Griffith GW, Gritsuk AA, Gross A, Grudd H, Halme P, Hanna R, Hansen J, Hansen LH, Hegbe ADMT, Hill S, Hogg ID, Hultman J, Hyde KD, Hynson NA, Ivanova N, Karisto P, Kerdraon D, Knorre A, Krisai-Greilhuber I, Kurhinen J, Kuzmina M, Lecomte N, Lecomte E, Loaiza V, Lundin E, Meire A, Mešić A, Miettinen O, Monkhouse N, Mortimer P, Müller J, Nilsson RH, Nonti PYC, Nordén J, Nordén B, Norros V, Paz C, Pellikka P, Pereira D, Petch G, Pitkänen JM, Popa F, Potter C, Purhonen J, Pätsi S, Rafiq A, Raharinjanahary D, Rakos N, Rathnayaka AR, Raundrup K, Rebriev YA, Rikkinen J, Rogers HMK, Rogovsky A, Rozhkov Y, Runnel K, Saarto A, Savchenko A, Schlegel M, Schmidt NM, Seibold S, Skjøth C, Stengel E, Sutyrina SV, Syvänperä I, Tedersoo L, Timm J, Tipton L, Toju H, Uscka-Perzanowska M, van der Bank M, van der Bank FH, Vandenbrink B, Ventura S, Vignisson SR, Wang X, Weisser WW, Wijesinghe SN, Wright SJ, Yang C, Yorou NS, Young A, Yu DW, Zakharov EV, Hebert PDN, Roslin T, and Ovaskainen O

Subjects

Mycorrhizae genetics, Mycorrhizae classification, Mycorrhizae isolation & purification, Phylogeny, Spores, Fungal classification, Spores, Fungal isolation & purification, Temperature, Tropical Climate, Geographic Mapping, Air Microbiology, Biodiversity, DNA, Fungal analysis, DNA, Fungal genetics, Fungi genetics, Fungi classification, Fungi isolation & purification, Seasons, Spatio-Temporal Analysis

Abstract

Fungi are among the most diverse and ecologically important kingdoms in life. However, the distributional ranges of fungi remain largely unknown as do the ecological mechanisms that shape their distributions 1,2 . To provide an integrated view of the spatial and seasonal dynamics of fungi, we implemented a globally distributed standardized aerial sampling of fungal spores 3 . The vast majority of operational taxonomic units were detected within only one climatic zone, and the spatiotemporal patterns of species richness and community composition were mostly explained by annual mean air temperature. Tropical regions hosted the highest fungal diversity except for lichenized, ericoid mycorrhizal and ectomycorrhizal fungi, which reached their peak diversity in temperate regions. The sensitivity in climatic responses was associated with phylogenetic relatedness, suggesting that large-scale distributions of some fungal groups are partially constrained by their ancestral niche. There was a strong phylogenetic signal in seasonal sensitivity, suggesting that some groups of fungi have retained their ancestral trait of sporulating for only a short period. Overall, our results show that the hyperdiverse kingdom of fungi follows globally highly predictable spatial and temporal dynamics, with seasonality in both species richness and community composition increasing with latitude. Our study reports patterns resembling those described for other major groups of organisms, thus making a major contribution to the long-standing debate on whether organisms with a microbial lifestyle follow the global biodiversity paradigms known for macroorganisms 4,5 ., (© 2024. The Author(s).)

Published

2024

7. Global Spore Sampling Project: A global, standardized dataset of airborne fungal DNA.

Author

Ovaskainen O, Abrego N, Furneaux B, Hardwick B, Somervuo P, Palorinne I, Andrew NR, Babiy UV, Bao T, Bazzano G, Bondarchuk SN, Bonebrake TC, Brennan GL, Bret-Harte S, Bässler C, Cagnolo L, Cameron EK, Chapurlat E, Creer S, D'Acqui LP, de Vere N, Desprez-Loustau ML, Dongmo MAK, Dyrholm Jacobsen IB, Fisher BL, Flores de Jesus M, Gilbert GS, Griffith GW, Gritsuk AA, Gross A, Grudd H, Halme P, Hanna R, Hansen J, Hansen LH, Hegbe ADMT, Hill S, Hogg ID, Hultman J, Hyde KD, Hynson NA, Ivanova N, Karisto P, Kerdraon D, Knorre A, Krisai-Greilhuber I, Kurhinen J, Kuzmina M, Lecomte N, Lecomte E, Loaiza V, Lundin E, Meire A, Mešić A, Miettinen O, Monkhause N, Mortimer P, Müller J, Nilsson RH, Nonti PYC, Nordén J, Nordén B, Paz C, Pellikka P, Pereira D, Petch G, Pitkänen JM, Popa F, Potter C, Purhonen J, Pätsi S, Rafiq A, Raharinjanahary D, Rakos N, Rathnayaka AR, Raundrup K, Rebriev YA, Rikkinen J, Rogers HMK, Rogovsky A, Rozhkov Y, Runnel K, Saarto A, Savchenko A, Schlegel M, Schmidt NM, Seibold S, Skjøth C, Stengel E, Sutyrina SV, Syvänperä I, Tedersoo L, Timm J, Tipton L, Toju H, Uscka-Perzanowska M, van der Bank M, Herman van der Bank F, Vandenbrink B, Ventura S, Vignisson SR, Wang X, Weisser WW, Wijesinghe SN, Joseph Wright S, Yang C, Yorou NS, Young A, Yu DW, Zakharov EV, Hebert PDN, and Roslin T

Subjects

Fungi genetics, Fungi classification, Biodiversity, Air Microbiology, Spores, Fungal, DNA, Fungal analysis

Abstract

Novel methods for sampling and characterizing biodiversity hold great promise for re-evaluating patterns of life across the planet. The sampling of airborne spores with a cyclone sampler, and the sequencing of their DNA, have been suggested as an efficient and well-calibrated tool for surveying fungal diversity across various environments. Here we present data originating from the Global Spore Sampling Project, comprising 2,768 samples collected during two years at 47 outdoor locations across the world. Each sample represents fungal DNA extracted from 24 m 3 of air. We applied a conservative bioinformatics pipeline that filtered out sequences that did not show strong evidence of representing a fungal species. The pipeline yielded 27,954 species-level operational taxonomic units (OTUs). Each OTU is accompanied by a probabilistic taxonomic classification, validated through comparison with expert evaluations. To examine the potential of the data for ecological analyses, we partitioned the variation in species distributions into spatial and seasonal components, showing a strong effect of the annual mean temperature on community composition., (© 2024. The Author(s).)

Published

2024

8. Global arthropod beta-diversity is spatially and temporally structured by latitude.

Author

Seymour M, Roslin T, deWaard JR, Perez KHJ, D'Souza ML, Ratnasingham S, Ashfaq M, Levesque-Beaudin V, Blagoev GA, Bukowski B, Cale P, Crosbie D, Decaëns T, deWaard SL, Ekrem T, El-Ansary HO, Evouna Ondo F, Fraser D, Geiger MF, Hajibabaei M, Hallwachs W, Hanisch PE, Hausmann A, Heath M, Hogg ID, Janzen DH, Kinnaird M, Kohn JR, Larrivée M, Lees DC, León-Règagnon V, Liddell M, Lijtmaer DA, Lipinskaya T, Locke SA, Manjunath R, Martins DJ, Martins MB, Mazumdar S, McKeown JTA, Anderson-Teixeria K, Miller SE, Milton MA, Miskie R, Morinière J, Mutanen M, Naik S, Nichols B, Noguera FA, Novotny V, Penev L, Pentinsaari M, Quinn J, Ramsay L, Rochefort R, Schmidt S, Smith MA, Sobel CN, Somervuo P, Sones JE, Staude HS, St Jaques B, Stur E, Telfer AC, Tubaro PL, Wardlaw TJ, Worcester R, Yang Z, Young MR, Zemlak T, Zakharov EV, Zlotnick B, Ovaskainen O, and Hebert PDN

Subjects

Animals, Geography, Spatio-Temporal Analysis, Biodiversity, Arthropods classification, Arthropods physiology

Abstract

Global biodiversity gradients are generally expected to reflect greater species replacement closer to the equator. However, empirical validation of global biodiversity gradients largely relies on vertebrates, plants, and other less diverse taxa. Here we assess the temporal and spatial dynamics of global arthropod biodiversity dynamics using a beta-diversity framework. Sampling includes 129 sampling sites whereby malaise traps are deployed to monitor temporal changes in arthropod communities. Overall, we encountered more than 150,000 unique barcode index numbers (BINs) (i.e. species proxies). We assess between site differences in community diversity using beta-diversity and the partitioned components of species replacement and richness difference. Global total beta-diversity (dissimilarity) increases with decreasing latitude, greater spatial distance and greater temporal distance. Species replacement and richness difference patterns vary across biogeographic regions. Our findings support long-standing, general expectations of global biodiversity patterns. However, we also show that the underlying processes driving patterns may be regionally linked., (© 2024. The Author(s).)

Published

2024

9. Biogeographic survey of soil bacterial communities across Antarctica.

Author

Varliero G, Lebre PH, Adams B, Chown SL, Convey P, Dennis PG, Fan D, Ferrari B, Frey B, Hogg ID, Hopkins DW, Kong W, Makhalanyane T, Matcher G, Newsham KK, Stevens MI, Weigh KV, and Cowan DA

Subjects

Humans, Antarctic Regions, Phylogeny, Biodiversity, Soil Microbiology, Soil, Cyanobacteria

Abstract

Background: Antarctica and its unique biodiversity are increasingly at risk from the effects of global climate change and other human influences. A significant recent element underpinning strategies for Antarctic conservation has been the development of a system of Antarctic Conservation Biogeographic Regions (ACBRs). The datasets supporting this classification are, however, dominated by eukaryotic taxa, with contributions from the bacterial domain restricted to Actinomycetota and Cyanobacteriota. Nevertheless, the ice-free areas of the Antarctic continent and the sub-Antarctic islands are dominated in terms of diversity by bacteria. Our study aims to generate a comprehensive phylogenetic dataset of Antarctic bacteria with wide geographical coverage on the continent and sub-Antarctic islands, to investigate whether bacterial diversity and distribution is reflected in the current ACBRs., Results: Soil bacterial diversity and community composition did not fully conform with the ACBR classification. Although 19% of the variability was explained by this classification, the largest differences in bacterial community composition were between the broader continental and maritime Antarctic regions, where a degree of structural overlapping within continental and maritime bacterial communities was apparent, not fully reflecting the division into separate ACBRs. Strong divergence in soil bacterial community composition was also apparent between the Antarctic/sub-Antarctic islands and the Antarctic mainland. Bacterial communities were partially shaped by bioclimatic conditions, with 28% of dominant genera showing habitat preferences connected to at least one of the bioclimatic variables included in our analyses. These genera were also reported as indicator taxa for the ACBRs., Conclusions: Overall, our data indicate that the current ACBR subdivision of the Antarctic continent does not fully reflect bacterial distribution and diversity in Antarctica. We observed considerable overlap in the structure of soil bacterial communities within the maritime Antarctic region and within the continental Antarctic region. Our results also suggest that bacterial communities might be impacted by regional climatic and other environmental changes. The dataset developed in this study provides a comprehensive baseline that will provide a valuable tool for biodiversity conservation efforts on the continent. Further studies are clearly required, and we emphasize the need for more extensive campaigns to systematically sample and characterize Antarctic and sub-Antarctic soil microbial communities. Video Abstract., (© 2024. The Author(s).)

Published

2024

10. Microbial diversity in Antarctic Dry Valley soils across an altitudinal gradient.

Author

Mashamaite L, Lebre PH, Varliero G, Maphosa S, Ortiz M, Hogg ID, and Cowan DA

Abstract

Introduction: The Antarctic McMurdo Dry Valleys are geologically diverse, encompassing a wide variety of soil habitats. These environments are largely dominated by microorganisms, which drive the ecosystem services of the region. While altitude is a well-established driver of eukaryotic biodiversity in these Antarctic ice-free areas (and many non-Antarctic environments), little is known of the relationship between altitude and microbial community structure and functionality in continental Antarctica., Methods: We analysed prokaryotic and lower eukaryotic diversity from soil samples across a 684 m altitudinal transect in the lower Taylor Valley, Antarctica and performed a phylogenic characterization of soil microbial communities using short-read sequencing of the 16S rRNA and ITS marker gene amplicons., Results and Discussion: Phylogenetic analysis showed clear altitudinal trends in soil microbial composition and structure. Cyanobacteria were more prevalent in higher altitude samples, while the highly stress resistant Chloroflexota and Deinococcota were more prevalent in lower altitude samples. We also detected a shift from Basidiomycota to Chytridiomycota with increasing altitude. Several genera associated with trace gas chemotrophy, including Rubrobacter and Ornithinicoccus , were widely distributed across the entire transect, suggesting that trace-gas chemotrophy may be an important trophic strategy for microbial survival in oligotrophic environments. The ratio of trace-gas chemotrophs to photoautotrophs was significantly higher in lower altitude samples. Co-occurrence network analysis of prokaryotic communities showed some significant differences in connectivity within the communities from different altitudinal zones, with cyanobacterial and trace-gas chemotrophy-associated taxa being identified as potential keystone taxa for soil communities at higher altitudes. By contrast, the prokaryotic network at low altitudes was dominated by heterotrophic keystone taxa, thus suggesting a clear trophic distinction between soil prokaryotic communities at different altitudes. Based on these results, we conclude that altitude is an important driver of microbial ecology in Antarctic ice-free soil habitats., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer BA declared a past co-authorship with the author IDH to the handling editor at the time of review., (Copyright © 2023 Mashamaite, Lebre, Varliero, Maphosa, Ortiz, Hogg and Cowan.)

Published

2023

11. Contribution of soil bacteria to the atmosphere across biomes.

Author

Archer SDJ, Lee KC, Caruso T, Alcami A, Araya JG, Cary SC, Cowan DA, Etchebehere C, Gantsetseg B, Gomez-Silva B, Hartery S, Hogg ID, Kansour MK, Lawrence T, Lee CK, Lee PKH, Leopold M, Leung MHY, Maki T, McKay CP, Al Mailem DM, Ramond JB, Rastrojo A, Šantl-Temkiv T, Sun HJ, Tong X, Vandenbrink B, Warren-Rhodes KA, and Pointing SB

Subjects

Soil, Bacteria, Atmosphere, Temperature, Soil Microbiology, Ecosystem, Microbiota

Abstract

The dispersion of microorganisms through the atmosphere is a continual and essential process that underpins biogeography and ecosystem development and function. Despite the ubiquity of atmospheric microorganisms globally, specific knowledge of the determinants of atmospheric microbial diversity at any given location remains unresolved. Here we describe bacterial diversity in the atmospheric boundary layer and underlying soil at twelve globally distributed locations encompassing all major biomes, and characterise the contribution of local and distant soils to the observed atmospheric community. Across biomes the diversity of bacteria in the atmosphere was negatively correlated with mean annual precipitation but positively correlated to mean annual temperature. We identified distinct non-randomly assembled atmosphere and soil communities from each location, and some broad trends persisted across biomes including the enrichment of desiccation and UV tolerant taxa in the atmospheric community. Source tracking revealed that local soils were more influential than distant soil sources in determining observed diversity in the atmosphere, with more emissive semi-arid and arid biomes contributing most to signatures from distant soil. Our findings highlight complexities in the atmospheric microbiota that are relevant to understanding regional and global ecosystem connectivity., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

12. Biogeography and Genetic Diversity of Terrestrial Mites in the Ross Sea Region, Antarctica.

Author

Collins GE, Young MR, Convey P, Chown SL, Cary SC, Adams BJ, Wall DH, and Hogg ID

Subjects

Animals, Antarctic Regions, Phylogeny, Genetic Drift, Genetic Variation genetics, Mites genetics

Abstract

Free-living terrestrial mites (Acari) have persisted through numerous glacial cycles in Antarctica. Very little is known, however, of their genetic diversity and distribution, particularly within the Ross Sea region. To redress this gap, we sampled mites throughout the Ross Sea region, East Antarctica, including Victoria Land and the Queen Maud Mountains (QMM), covering a latitudinal range of 72-85 °S, as well as Lauft Island near Mt. Siple (73 °S) in West Antarctica and Macquarie Island (54 o S) in the sub-Antarctic. We assessed genetic diversity using mitochondrial cytochrome c oxidase subunit I gene sequences (COI-5P DNA barcode region), and also morphologically identified voucher specimens. We obtained 130 sequences representing four genera: Nanorchestes ( n = 30 sequences), Stereotydeus ( n = 46), Coccorhagidia ( n = 18) and Eupodes ( n = 36). Tree-based analyses (maximum likelihood) revealed 13 genetic clusters, representing as many as 23 putative species indicated by barcode index numbers (BINs) from the Barcode of Life Datasystems (BOLD) database. We found evidence for geographically-isolated cryptic species, e.g., within Stereotydeus belli and S. punctatus , as well as unique genetic groups occurring in sympatry (e.g., Nanorchestes spp. in QMM). Collectively, these data confirm high genetic divergence as a consequence of geographic isolation over evolutionary timescales. From a conservation perspective, additional targeted sampling of understudied areas in the Ross Sea region should be prioritised, as further diversity is likely to be found in these short-range endemic mites.

Published

2023

13. Strong Dispersal Limitation of Microbial Communities at Shackleton Glacier, Antarctica.

Author

Lemoine NP, Adams BJ, Diaz M, Dragone NB, Franco ALC, Fierer N, Lyons WB, Hogg ID, and Wall DH

Subjects

Humans, Antarctic Regions, Ice Cover, Soil, Plants, Biodiversity, Microbiota

Abstract

Microbial communities can be structured by both deterministic and stochastic processes, but the relative importance of these processes remains unknown. The ambiguity partly arises from an inability to disentangle soil microbial processes from confounding factors, such as aboveground plant communities or anthropogenic disturbance. In this study, we characterized the relative contributions of determinism and stochasticity to assembly processes of soil bacterial communities across a large environmental gradient of undisturbed Antarctic soils. We hypothesized that harsh soils would impose a strong environmental selection on microbial communities, whereas communities in benign soils would be structured largely by dispersal. Contrary to our expectations, dispersal was the dominant assembly mechanism across the entire soil environmental gradient, including benign environments. The microbial community composition reflects slowly changing soil conditions and dispersal limitation of isolated sites. Thus, stochastic processes, as opposed to deterministic, are primary drivers of soil ecosystem assembly across space at our study site. This is especially surprising given the strong environmental constraints on soil microorganisms in one of the harshest environments on the planet, suggesting that dispersal could be a driving force in microbial community assembly in soils worldwide. IMPORTANCE Because of their diversity and ubiquity, microbes provide an excellent means to tease apart how natural communities are structured. In general, ecologists believe that stochastic assembly processes, like random drift and dispersal, should dominate in benign environments while deterministic processes, like environmental filtering, should be prevalent in harsh environments. To help resolve this debate, we analyzed microbial community composition in pristine Antarctic soils devoid of human influence or plant communities for eons. Our results demonstrate that dispersal limitation is a surprisingly potent force of community limitation throughout all soil conditions. Thus, dispersal appears to be a driving force of microbial community assembly, even in the harshest of conditions.

Published

2023

14. Human access and deterministic processes play a major role in structuring planktonic and sedimentary bacterial and eukaryotic communities in lakes.

Author

Pearman JK, Thomson-Laing G, Thompson L, Waters S, Vandergoes MJ, Howarth JD, Duggan IC, Hogg ID, and Wood SA

Subjects

Humans, Ecosystem, Eukaryota, Bacteria genetics, Lakes microbiology, Plankton microbiology

Abstract

Lakes provide habitat for a diverse array of species and offer a wide range of ecosystem services for humanity. However, they are highly vulnerable as they are not only impacted by adverse actions directly affecting them, but also those on the surrounding environment. Improving knowledge on the processes responsible for community assembly in different biotic components will aid in the protection and restoration of lakes. Studies to date suggested a combination of deterministic (where biotic/abiotic factors act on fitness differences amongst taxa) and stochastic (where dispersal plays a larger factor in community assembly) processes are responsible for structuring biotic communities, but there is no consensus on the relative roles these processes play, and data is lacking for lakes. In the present study, we sampled different biotic components in 34 lakes located on the South Island of New Zealand. To obtain a holistic view of assembly processes in lakes we used metabarcoding to investigate bacteria in the sediment and surface waters, and eukaryotes in the sediment and two different size fractions of the water column. Physicochemical parameters were collected in parallel. Results showed that deterministic processes dominated the assembly of lake communities although the relative importance of variable and homogeneous selection differed among the biotic components. Variable selection was more important in the sediment (SSbact and SSeuks) and for the bacterioplankton (Pbact) while the assembly of the eukaryotic plankton (SPeuks, LPeuks) was driven more by homogeneous selection. The ease of human access to the lakes had a significant effect on lake communities. In particular, clade III of SAR11 and Daphnia pulex were only present in lakes with public access. This study provides insights into the distribution patterns of different biotic components and highlights the value in understanding the drivers of different biological communities within lakes., Competing Interests: Susanna A Wood is an Academic Editor for PeerJ. John K. Pearman, Georgia Thomson-Laing, Lucy Thompson, Sean Waters and Susanna A. Wood are employed by the Cawthron Institute. Marcus J. Vandergoes is employed by GNS Science., (© 2022 Pearman et al.)

Published

2022

15. The Resilience of Polar Collembola (Springtails) in a Changing Climate.

Author

Beet CR, Hogg ID, Cary SC, McDonald IR, and Sinclair BJ

Abstract

Assessing the resilience of polar biota to climate change is essential for predicting the effects of changing environmental conditions for ecosystems. Collembola are abundant in terrestrial polar ecosystems and are integral to food-webs and soil nutrient cycling. Using available literature, we consider resistance (genetic diversity; behavioural avoidance and physiological tolerances; biotic interactions) and recovery potential for polar Collembola. Polar Collembola have high levels of genetic diversity, considerable capacity for behavioural avoidance, wide thermal tolerance ranges, physiological plasticity, generalist-opportunistic feeding habits and broad ecological niches. The biggest threats to the ongoing resistance of polar Collembola are increasing levels of dispersal (gene flow), increased mean and extreme temperatures, drought, changing biotic interactions, and the arrival and spread of invasive species. If resistance capacities are insufficient, numerous studies have highlighted that while some species can recover from disturbances quickly, complete community-level recovery is exceedingly slow. Species dwelling deeper in the soil profile may be less able to resist climate change and may not recover in ecologically realistic timescales given the current rate of climate change. Ultimately, diverse communities are more likely to have species or populations that are able to resist or recover from disturbances. While much of the Arctic has comparatively high levels of diversity and phenotypic plasticity; areas of Antarctica have extremely low levels of diversity and are potentially much more vulnerable to climate change., Competing Interests: The authors declare no financial conflicts associated with this research. Brent J. Sinclair is Editor-in-Chief of Current Research in Insect Science. Given his role, he had no involvement in the evaluation or peer review of this manuscript, and has no access to information regarding its peer review., (© 2022 The Authors. Published by Elsevier B.V.)

Published

2022

16. Assessing population genetic structure of three New Zealand stream insects using mitochondrial and nuclear DNA markers.

Author

de Araujo Barbosa V, Graham SE, Smith BJ, Hogg ID, and McGaughran A

Subjects

Animals, DNA, Mitochondrial genetics, Genetic Markers, Genetic Variation, Humans, Insecta genetics, New Zealand, Genetics, Population, Rivers

Abstract

Assessing genetic differentiation among natural populations can aid understanding of dispersal patterns and connectivity among habitats. Several molecular markers have become increasingly popular in determining population genetic structure for this purpose. Here, we compared the resolution of mitochondrial cytochrome c oxidase subunit I (COI) and nuclear single nucleotide polymorphism (SNP) markers for detecting population structure among stream insects at small spatial scales. Individuals of three endemic taxa- Coloburiscus humeralis (Ephemeroptera), Zelandobius confusus (Plecoptera), and Hydropsyche fimbriata (Trichoptera)-were collected from forested streams that flow across open pasture in the North Island of New Zealand. Both COI and SNP data indicated limited population structure across the study area, and small differences observed among these species were likely related to their putative dispersal abilities. For example, fine-scale genetic differentiation between and among neighbouring stream populations for H. fimbriata suggests that gene flow, and hence dispersal, may be more limited for this species relative to the others. Based on the generally similar results provided by both types of markers, we suggest that either COI or SNP markers can provide suitable initial estimates of fine-scale population genetic differentiation in stream insects.

Published

2022

17. Elevational Constraints on the Composition and Genomic Attributes of Microbial Communities in Antarctic Soils.

Author

Dragone NB, Henley JB, Holland-Moritz H, Diaz M, Hogg ID, Lyons WB, Wall DH, Adams BJ, and Fierer N

Subjects

Antarctic Regions, Soil Microbiology, Bacteria, Archaea, Metagenomics methods, Soil chemistry, Microbiota

Abstract

The inland soils found on the Antarctic continent represent one of the more challenging environments for microbial life on Earth. Nevertheless, Antarctic soils harbor unique bacterial and archaeal (prokaryotic) communities able to cope with extremely cold and dry conditions. These communities are not homogeneous, and the taxonomic composition and functional capabilities (genomic attributes) of these communities across environmental gradients remain largely undetermined. We analyzed the prokaryotic communities in soil samples collected from across the Shackleton Glacier region of Antarctica by coupling quantitative PCR, marker gene amplicon sequencing, and shotgun metagenomic sequencing. We found that elevation was the dominant factor explaining differences in the structures of the soil prokaryotic communities, with the drier and saltier soils found at higher elevations harboring less diverse communities and unique assemblages of cooccurring taxa. The higher-elevation soil communities also had lower maximum potential growth rates (as inferred from metagenome-based estimates of codon usage bias) and an overrepresentation of genes associated with trace gas metabolism. Together, these results highlight the utility of assessing community shifts across pronounced environmental gradients to improve our understanding of the microbial diversity found in Antarctic soils and the strategies used by soil microbes to persist at the limits of habitability. IMPORTANCE Antarctic soils represent an ideal system to study how environmental properties shape the taxonomic and functional diversity of microbial communities given the relatively low diversity of Antarctic soil microbial communities and the pronounced environmental gradients that occur across soils located in reasonable proximity to one another. Moreover, the challenging environmental conditions typical of most Antarctic soils present an opportunity to investigate the traits that allow soil microbes to persist in some of the most inhospitable habitats on Earth. We used cultivation-independent methods to study the bacterial and archaeal communities found in soil samples collected from across the Shackleton Glacier region of the Transantarctic Mountains. We show that those environmental characteristics associated with elevation have the greatest impact on the structure of these microbial communities, with the colder, drier, and saltier soils found at higher elevations sustaining less diverse communities that were distinct from those in more hospitable soils with respect to their composition, genomic attributes, and overall life-history strategies. Notably, the harsher conditions found in higher-elevation soils likely select for taxa with lower maximum potential growth rates and an increased reliance on trace gas metabolism to support growth.

Published

2022

18. Multiple energy sources and metabolic strategies sustain microbial diversity in Antarctic desert soils.

Author

Ortiz M, Leung PM, Shelley G, Jirapanjawat T, Nauer PA, Van Goethem MW, Bay SK, Islam ZF, Jordaan K, Vikram S, Chown SL, Hogg ID, Makhalanyane TP, Grinter R, Cowan DA, and Greening C

Subjects

Antarctic Regions, Autotrophic Processes, Biodiversity, Hydrogenase metabolism, Metagenome, Oxidation-Reduction, Phototrophic Processes, Desert Climate, Gases metabolism, Ice Cover microbiology, Microbiota, Soil Microbiology

Abstract

Numerous diverse microorganisms reside in the cold desert soils of continental Antarctica, though we lack a holistic understanding of the metabolic processes that sustain them. Here, we profile the composition, capabilities, and activities of the microbial communities in 16 physicochemically diverse mountainous and glacial soils. We assembled 451 metagenome-assembled genomes from 18 microbial phyla and inferred through Bayesian divergence analysis that the dominant lineages present are likely native to Antarctica. In support of earlier findings, metagenomic analysis revealed that the most abundant and prevalent microorganisms are metabolically versatile aerobes that use atmospheric hydrogen to support aerobic respiration and sometimes carbon fixation. Surprisingly, however, hydrogen oxidation in this region was catalyzed primarily by a phylogenetically and structurally distinct enzyme, the group 1l [NiFe]-hydrogenase, encoded by nine bacterial phyla. Through gas chromatography, we provide evidence that both Antarctic soil communities and an axenic Bacteroidota isolate ( Hymenobacter roseosalivarius ) oxidize atmospheric hydrogen using this enzyme. Based on ex situ rates at environmentally representative temperatures, hydrogen oxidation is theoretically sufficient for soil communities to meet energy requirements and, through metabolic water production, sustain hydration. Diverse carbon monoxide oxidizers and abundant methanotrophs were also active in the soils. We also recovered genomes of microorganisms capable of oxidizing edaphic inorganic nitrogen, sulfur, and iron compounds and harvesting solar energy via microbial rhodopsins and conventional photosystems. Obligately symbiotic bacteria, including Patescibacteria, Chlamydiae, and predatory Bdellovibrionota, were also present. We conclude that microbial diversity in Antarctic soils reflects the coexistence of metabolically flexible mixotrophs with metabolically constrained specialists., Competing Interests: The authors declare no competing interest.

Published

2021

19. High diversity and local endemism in Aotearoa New Zealand's groundwater crustacean fauna.

Author

Fenwick GD, Greenwood MJ, Hogg ID, and Meyer SJ

Abstract

We used DNA barcoding to assess the diversity and distribution of New Zealand's groundwater amphipods and isopods (Crustacea) and to determine whether biodiversity and endemism within tectonically active New Zealand are similar to those of more tectonically stable continents. Sixty-five wells were sampled in seven aquifers across four regions within the North and South islands of New Zealand, and resident invertebrates were morphologically identified and then assessed using sequencing of the mitochondrial DNA cytochrome c oxidase subunit one (COI) gene. Invertebrates were found in 54 wells. Of the 228 individual amphipods and isopods found in 36 of the wells, 154 individuals were successfully sequenced for COI (68% success rate) from 25 wells, with at least one well in each aquifer containing sequenced individuals. Of the 45 putative species identified using Barcode Index Numbers (BINs), 30 BINs (78% of all taxa and 83% of amphipods) were previously unrecorded. Substantial morphologically cryptic, species-level diversity was revealed, particularly within the amphipod Family Paraleptamphopidae. Similarly, one isopod taxon morphologically identified as Cruregens fontanus was assigned to five well-separated BINs based on COI sequences. Endemism appeared high, with all taxa regionally endemic; 87% of species were restricted to one aquifer and more than 50% restricted to one well. Non-saturated species accumulation curves indicated that, while additional sampling may increase the range of some currently identified taxa, additional range-restricted taxa are also likely to be discovered. Patterns of diversity and short-range endemism were similar to those found elsewhere, including locations which are more tectonically stable. The predominance of local endemism within New Zealand's groundwater fauna suggests that land-use activities and groundwater extraction require careful evaluation to minimize threats to groundwater biodiversity., Competing Interests: The authors declare no conflicting interests., (© 2021 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2021

20. Genetic diversity of soil invertebrates corroborates timing estimates for past collapses of the West Antarctic Ice Sheet.

Author

Collins GE, Hogg ID, Convey P, Sancho LG, Cowan DA, Lyons WB, Adams BJ, Wall DH, and Green TGA

Subjects

Animals, Antarctic Regions, Climate Change, Ice Cover, Seasons, Genetic Variation, Invertebrates genetics, Soil

Abstract

During austral summer field seasons between 1999 and 2018, we sampled at 91 locations throughout southern Victoria Land and along the Transantarctic Mountains for six species of endemic microarthropods (Collembola), covering a latitudinal range from 76.0°S to 87.3°S. We assembled individual mitochondrial cytochrome c oxidase subunit 1 (COI) sequences ( n = 866) and found high levels of sequence divergence at both small (<10 km) and large (>600 km) spatial scales for four of the six Collembola species. We applied molecular clock estimates and assessed genetic divergences relative to the timing of past glacial cycles, including collapses of the West Antarctic Ice Sheet (WAIS). We found that genetically distinct lineages within three species have likely been isolated for at least 5.54 My to 3.52 My, while the other three species diverged more recently (<2 My). We suggest that Collembola had greater dispersal opportunities under past warmer climates, via flotation along coastal margins. Similarly increased opportunities for dispersal may occur under contemporary climate warming scenarios, which could influence the genetic structure of extant populations. As Collembola are a living record of past landscape evolution within Antarctica, these findings provide biological evidence to support geological and glaciological estimates of historical WAIS dynamics over the last ca 5 My., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published

2020

21. A DNA Barcoding Survey of an Arctic Arthropod Community: Implications for Future Monitoring.

Author

Pentinsaari M, Blagoev GA, Hogg ID, Levesque-Beaudin V, Perez K, Sobel CN, Vandenbrink B, and Borisenko A

Abstract

Accurate and cost-effective methods for tracking changes in arthropod communities are needed to develop integrative environmental monitoring programs in the Arctic. To date, even baseline data on their species composition at established ecological monitoring sites are severely lacking. We present the results of a pilot assessment of non-marine arthropod diversity in a middle arctic tundra area near Ikaluktutiak (Cambridge Bay), Victoria Island, Nunavut, undertaken in 2018 using DNA barcodes. A total of 1264 Barcode Index Number (BIN) clusters, used as a proxy for species, were recorded. The efficacy of widely used sampling methods was assessed. Yellow pan traps captured 62% of the entire BIN diversity at the study sites. When complemented with soil and leaf litter sifting, the coverage rose up to 74.6%. Combining community-based data collection with high-throughput DNA barcoding has the potential to overcome many of the logistic, financial, and taxonomic obstacles for large-scale monitoring of the Arctic arthropod fauna.

Published

2020

22. Ancient landscapes of the Namib Desert harbor high levels of genetic variability and deeply divergent lineages for Collembola.

Author

Collins GE, Hogg ID, Baxter JR, Maggs-Kölling G, and Cowan DA

Abstract

Aim: To assess spatial patterns of genetic and species-level diversity for Namib Desert Collembola using mitochondrial DNA cytochrome c oxidase subunit I (COI) gene sequences., Location: Namib Desert gravel plains., Taxon: Collembola (springtails)., Methods: A total of 77 soil samples were collected along NE-SW (60 km) and E-W (160 km) transects from within a 4,000 km 2 area of the Namib Desert gravel plains. We extracted 434 springtails from the 37 samples which contained Collembola and sequenced them at the COI gene locus. In the absence of specific taxonomic keys and previous genetic data for these taxa, we used Generalized Mixed Yule Coalescent (GMYC) analyses to provide putative species-level designations., Results: We obtained 341 successful COI sequences, 175 of which were unique haplotypes. GMYC analyses identified 30 putative species, with up to 28% sequence divergence (uncorrected p-distance). The distribution of genetic variants was disjunct, with 97% of haplotypes and 70% of "GMYC species" found only at single sites., Main Conclusions: Dispersal events, although rare, may be facilitated by environmental events such as prevailing onshore winds or occasional flow of rainwater to the coast. We conclude that the high genetic diversity we observed is the result of ancient springtail lineages, patchy distribution of suitable habitats, and limited dispersal (gene flow) among habitable locations.

Published

2019

23. Trends in DNA barcoding and metabarcoding.

Author

Adamowicz SJ, Boatwright JS, Chain F, Fisher BL, Hogg ID, Leese F, Lijtmaer DA, Mwale M, Naaum AM, Pochon X, Steinke D, Wilson JJ, Wood S, Xu J, Xu S, Zhou X, and van der Bank M

Subjects

Africa, Conservation of Natural Resources, Databases, Nucleic Acid, Phylogeny, Biodiversity, Biota, DNA Barcoding, Taxonomic trends, Evolution, Molecular

Published

2019

24. Biotic interactions are an unexpected yet critical control on the complexity of an abiotically driven polar ecosystem.

Author

Lee CK, Laughlin DC, Bottos EM, Caruso T, Joy K, Barrett JE, Brabyn L, Nielsen UN, Adams BJ, Wall DH, Hopkins DW, Pointing SB, McDonald IR, Cowan DA, Banks JC, Stichbury GA, Jones I, Zawar-Reza P, Katurji M, Hogg ID, Sparrow AD, Storey BC, Allan Green TG, and Cary SC

Subjects

Animals, Antarctic Regions, Arthropods classification, Biodiversity, Cyanobacteria classification, Ecosystem, Fungi classification, Models, Statistical, Nematoda classification, Rotifera classification, Tardigrada classification, Arthropods physiology, Cyanobacteria physiology, Fungi physiology, Nematoda physiology, Rotifera physiology, Tardigrada physiology

Abstract

Abiotic and biotic factors control ecosystem biodiversity, but their relative contributions remain unclear. The ultraoligotrophic ecosystem of the Antarctic Dry Valleys, a simple yet highly heterogeneous ecosystem, is a natural laboratory well-suited for resolving the abiotic and biotic controls of community structure. We undertook a multidisciplinary investigation to capture ecologically relevant biotic and abiotic attributes of more than 500 sites in the Dry Valleys, encompassing observed landscape heterogeneities across more than 200 km 2 . Using richness of autotrophic and heterotrophic taxa as a proxy for functional complexity, we linked measured variables in a parsimonious yet comprehensive structural equation model that explained significant variations in biological complexity and identified landscape-scale and fine-scale abiotic factors as the primary drivers of diversity. However, the inclusion of linkages among functional groups was essential for constructing the best-fitting model. Our findings support the notion that biotic interactions make crucial contributions even in an extremely simple ecosystem., Competing Interests: The authors declare no competing interests.

Published

2019

25. Nematodes in a polar desert reveal the relative role of biotic interactions in the coexistence of soil animals.

Author

Caruso T, Hogg ID, Nielsen UN, Bottos EM, Lee CK, Hopkins DW, Cary SC, Barrett JE, Green TGA, Storey BC, Wall DH, and Adams BJ

Subjects

Animals, Antarctic Regions, Arthropods classification, Biodiversity, Cyanobacteria classification, Cyanobacteria physiology, Ecosystem, Fungi classification, Fungi physiology, Models, Statistical, Nematoda classification, Rotifera classification, Soil parasitology, Soil Microbiology, Tardigrada classification, Arthropods physiology, Nematoda physiology, Rotifera physiology, Soil chemistry, Tardigrada physiology

Abstract

Abiotic factors are major determinants of soil animal distributions and their dominant role is pronounced in extreme ecosystems, with biotic interactions seemingly playing a minor role. We modelled co-occurrence and distribution of the three nematode species that dominate the soil food web of the McMurdo Dry Valleys (Antarctica). Abiotic factors, other biotic groups, and autocorrelation all contributed to structuring nematode species distributions. However, after removing their effects, we found that the presence of the most abundant nematode species greatly, and negatively, affected the probability of detecting one of the other two species. We observed similar patterns in relative abundances for two out of three pairs of species. Harsh abiotic conditions alone are insufficient to explain contemporary nematode distributions whereas the role of negative biotic interactions has been largely underestimated in soil. The future challenge is to understand how the effects of global change on biotic interactions will alter species coexistence., Competing Interests: The authors declare no competing interests.

Published

2019

26. Historical translocations by Māori may explain the distribution and genetic structure of a threatened surf clam in Aotearoa (New Zealand).

Author

Ross PM, Knox MA, Smith S, Smith H, Williams J, and Hogg ID

Subjects

Animals, DNA, Mitochondrial genetics, Ecosystem, Electron Transport Complex IV genetics, Genetics, Population methods, Humans, Mitochondria genetics, New Zealand, Population Groups, Bivalvia genetics, Genetic Variation genetics

Abstract

The population genetic structure of toheroa (Paphies ventricosa), an Aotearoa (New Zealand) endemic surf clam, was assessed to determine levels of inter-population connectivity and test hypotheses regarding life history, habitat distribution and connectivity in coastal vs. estuarine taxa. Ninety-eight toheroa from populations across the length of New Zealand were sequenced for the mitochondrial cytochrome c oxidase I gene with analyses suggesting a population genetic structure unique among New Zealand marine invertebrates. Toheroa genetic diversity was high in Te Ika-a Māui (the North Island of New Zealand) but completely lacking in the south of Te Waipounamu (the South Island), an indication of recent isolation. Changes in habitat availability, long distance dispersal events or translocation of toheroa to southern New Zealand by Māori could explain the observed geographic distribution of toheroa and their genetic diversity. Given that early-Māori and their ancestors, were adept at food cultivation and relocation, the toheroa translocation hypothesis is plausible and may explain the disjointed modern distribution of this species. Translocation would also explain the limited success in restoring what may in some cases be ecologically isolated populations located outside their natural distributions and preferred niches.

Published

2018

27. Towards robust and repeatable sampling methods in eDNA-based studies.

Author

Dickie IA, Boyer S, Buckley HL, Duncan RP, Gardner PP, Hogg ID, Holdaway RJ, Lear G, Makiola A, Morales SE, Powell JR, and Weaver L

Abstract

DNA-based techniques are increasingly used for measuring the biodiversity (species presence, identity, abundance and community composition) of terrestrial and aquatic ecosystems. While there are numerous reviews of molecular methods and bioinformatic steps, there has been little consideration of the methods used to collect samples upon which these later steps are based. This represents a critical knowledge gap, as methodologically sound field sampling is the foundation for subsequent analyses. We reviewed field sampling methods used for metabarcoding studies of both terrestrial and freshwater ecosystem biodiversity over a nearly three-year period (n = 75). We found that 95% (n = 71) of these studies used subjective sampling methods and inappropriate field methods and/or failed to provide critical methodological information. It would be possible for researchers to replicate only 5% of the metabarcoding studies in our sample, a poorer level of reproducibility than for ecological studies in general. Our findings suggest greater attention to field sampling methods, and reporting is necessary in eDNA-based studies of biodiversity to ensure robust outcomes and future reproducibility. Methods must be fully and accurately reported, and protocols developed that minimize subjectivity. Standardization of sampling protocols would be one way to help to improve reproducibility and have additional benefits in allowing compilation and comparison of data from across studies., (© 2018 John Wiley & Sons Ltd.)

Published

2018

28. From Barcodes to Biomes: Special Issues from the 6th International Barcode of Life Conference.

Author

Adamowicz SJ, Chain FJ, Clare EL, Deiner K, Dincă V, Elías-Gutiérrez M, Hausmann A, Hogg ID, Kekkonen M, Lijtmaer DA, Naaum A, Steinke D, Valdez-Moreno M, Van der Bank M, Wilson JJ, and Xu J

Subjects

Animals, Biodiversity, Ecosystem, Humans, International Cooperation, Inventions, DNA Barcoding, Taxonomic methods, DNA Barcoding, Taxonomic standards

Published

2016

29. The Trichoptera barcode initiative: a strategy for generating a species-level Tree of Life.

Author

Zhou X, Frandsen PB, Holzenthal RW, Beet CR, Bennett KR, Blahnik RJ, Bonada N, Cartwright D, Chuluunbat S, Cocks GV, Collins GE, deWaard J, Dean J, Flint OS Jr, Hausmann A, Hendrich L, Hess M, Hogg ID, Kondratieff BC, Malicky H, Milton MA, Morinière J, Morse JC, Mwangi FN, Pauls SU, Gonzalez MR, Rinne A, Robinson JL, Salokannel J, Shackleton M, Smith B, Stamatakis A, StClair R, Thomas JA, Zamora-Muñoz C, Ziesmann T, and Kjer KM

Subjects

Animals, Biodiversity, Haplotypes, Insecta genetics, Sequence Analysis, DNA, DNA Barcoding, Taxonomic, Insecta classification, Phylogeny

Abstract

DNA barcoding was intended as a means to provide species-level identifications through associating DNA sequences from unknown specimens to those from curated reference specimens. Although barcodes were not designed for phylogenetics, they can be beneficial to the completion of the Tree of Life. The barcode database for Trichoptera is relatively comprehensive, with data from every family, approximately two-thirds of the genera, and one-third of the described species. Most Trichoptera, as with most of life's species, have never been subjected to any formal phylogenetic analysis. Here, we present a phylogeny with over 16 000 unique haplotypes as a working hypothesis that can be updated as our estimates improve. We suggest a strategy of implementing constrained tree searches, which allow larger datasets to dictate the backbone phylogeny, while the barcode data fill out the tips of the tree. We also discuss how this phylogeny could be used to focus taxonomic attention on ambiguous species boundaries and hidden biodiversity. We suggest that systematists continue to differentiate between 'Barcode Index Numbers' (BINs) and 'species' that have been formally described. Each has utility, but they are not synonyms. We highlight examples of integrative taxonomy, using both barcodes and morphology for species description.This article is part of the themed issue 'From DNA barcodes to biomes'., (© 2016 The Authors.)

Published

2016

30. Genetic diversity among populations of Antarctic springtails (Collembola) within the Mackay Glacier ecotone.

Author

Beet CR, Hogg ID, Collins GE, Cowan DA, Wall DH, and Adams BJ

Subjects

Animals, Antarctic Regions, DNA, Mitochondrial, Electron Transport Complex IV genetics, Evolution, Molecular, Haplotypes, Phylogeny, Arthropods classification, Arthropods genetics, Genetic Variation, Genetics, Population

Abstract

Climate changes are likely to have major influences on the distribution and abundance of Antarctic terrestrial biota. To assess arthropod distribution and diversity within the Ross Sea region, we examined mitochondrial DNA (COI) sequences for three currently recognized species of springtail (Collembola) collected from sites in the vicinity, and to the north of, the Mackay Glacier (77°S). This area acts as a transition between two biogeographic regions (northern and southern Victoria Land). We found populations of highly divergent individuals (5%-11.3% intraspecific sequence divergence) for each of the three putative springtail species, suggesting the possibility of cryptic diversity. Based on molecular clock estimates, these divergent lineages are likely to have been isolated for 3-5 million years. It was during this time that the Western Antarctic Ice Sheet (WAIS) was likely to have completely collapsed, potentially facilitating springtail dispersal via rafting on running waters and open seaways. The reformation of the WAIS would have isolated newly established populations, with subsequent dispersal restricted by glaciers and ice-covered areas. Given the currently limited distributions for these genetically divergent populations, any future changes in species' distributions can be easily tracked through the DNA barcoding of springtails from within the Mackay Glacier ecotone.

Published

2016

31. Mitochondrial DNA (COI) analyses reveal that amphipod diversity is associated with environmental heterogeneity in deep-sea habitats.

Author

Knox MA, Hogg ID, Pilditch CA, Lörz AN, Hebert PD, and Steinke D

Subjects

Amphipoda classification, Animals, Molecular Sequence Data, New Zealand, Oceans and Seas, Sequence Analysis, DNA, Amphipoda genetics, Biodiversity, DNA, Mitochondrial genetics, Genetic Variation

Abstract

The relationship between species diversity and environmental parameters is poorly understood for the mobile macrofauna of deep-sea habitats due to under-sampling and subsequent lack of accurate taxonomic information. To redress this, cytochrome oxidase c subunit I (COI) DNA sequences were used to estimate species diversity and to compare phoxocephalid amphipod assemblages among 20 stations encompassing a range of environmental conditions. Two regions, east (Chatham Rise) and west (Challenger Plateau) of New Zealand were sampled to depths of 200-1200 m with an epibenthic sled. Using a comparison among identified morphospecies, we found a clear gap in sequence divergences between 6% and 13% and used a 6% threshold to designate molecular operational taxonomic units (MOTUs), as a surrogate to putative species. DNA sequences (n = 297) revealed high total diversity (n = 49 MOTUs), as well as high beta diversity (28 MOTUs found at single location only). Novel phoxocephalid MOTUs were found at most stations, especially on Challenger Plateau and the flanks of Chatham Rise. Analyses of interstation assemblages revealed a major split between regions, indicating minimal overlap in taxon distributions. A cluster of highly similar stations was identified, broadly distributed over the crest of Chatham Rise, in association with elevated food availability, probably resulting from higher surface productivity and relatively shallow depth. Accordingly, multivariate analysis revealed a strong correlation between phoxocephalid assemblages and food supply. This study highlights the value of molecular approaches, in particular COI sequences, for quantifying and comparing diversity in under-sampled and/or under-studied taxa., (© 2012 Blackwell Publishing Ltd.)

Published

2012

32. Isolation and characterization of microsatellites in the lichen Buellia frigida (Physciaceae), an Antarctic endemic.

Author

Jones TC, Green TG, Hogg ID, and Wilkins RJ

Subjects

Antarctic Regions, DNA Primers, Genetic Loci genetics, Molecular Sequence Data, DNA, Plant genetics, DNA, Plant isolation & purification, Lichens genetics, Microsatellite Repeats genetics

Abstract

Premise of the Study: Microsatellite markers were characterized for an Antarctic endemic, Buellia frigida, to investigate population structure and origin of Antarctic lichens., Methods and Results: Five primer sets were characterized. All loci were polymorphic with eight to 16 alleles per locus in a sample of 59 lichens., Conclusions: The microsatellite markers potentially provide insight into population structure and gene flow of B. frigida.

Published

2012

33. Extreme Glacial Legacies: A Synthesis of the Antarctic Springtail Phylogeographic Record.

Author

McGaughran A, Stevens MI, Hogg ID, and Carapelli A

Abstract

We review current phylogeographic knowledge from across the Antarctic terrestrial landscape with a focus on springtail taxa. We describe consistent patterns of high genetic diversity and structure among populations which have persisted in glacial refugia across Antarctica over both short (10 Mya) timescales. Despite a general concordance of results among species, we explain why location is important in determining population genetic patterns within bioregions. We complete our review by drawing attention to the main limitations in the field of Antarctic phylogeography, namely that the scope of geographic focus is often lacking within studies, and that large gaps remain in our phylogeographic knowledge for most terrestrial groups.

Published

2011

34. The phylogeography of Adelie penguin faecal flora.

Author

Banks JC, Cary SC, and Hogg ID

Subjects

Animals, Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, DNA, Ribosomal Spacer chemistry, DNA, Ribosomal Spacer genetics, Genes, rRNA, Molecular Sequence Data, Phylogeny, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Bacteria classification, Bacteria isolation & purification, Feces microbiology, Spheniscidae microbiology

Abstract

The gut of animals changes quickly from a totally sterile environment before birth to a numerous and highly diverse microbial community shortly after birth. However, few studies have examined the source of the bacteria colonizing the gut. We used a genetic based approach to investigate the distribution and acquisition of faecal microbial communities by Adelie penguins, Pygoscelis adeliae, breeding in the Ross Sea region of Antarctica by cloning a portion of the 16S rRNA gene and by automated ribosomal intergenic spacer analysis (ARISA). We hypothesized that bacteria were either acquired from the penguins' neighbours or inherited from their ancestors. Samples were collected from Adelie penguin breeding colonies at the north-western edge of the Ross Sea coast through to the southernmost Adelie penguin colonies on Ross Island. Most of the bacterial sequences we obtained were only distantly homologous with previously published sequences. Bacterial taxa appear to have a restricted distribution as the majority of 16S rRNA clones were isolated from only one or two hosts. Faecal bacterial community similarity was strongly negatively correlated with the genetic distance between hosts suggesting that bacterial communities are inherited. There was little support for a correlation between distance between collection sites and community similarity.

Published

2009

35. Patterns of population genetic structure for springtails and mites in southern Victoria Land, Antarctica.

Author

McGaughran A, Hogg ID, and Stevens MI

Subjects

Animals, Antarctic Regions, Arthropods genetics, DNA, Mitochondrial chemistry, Electron Transport Complex IV genetics, Genetic Variation, Genetics, Population, Geography, Mites genetics, Arthropods classification, Mites classification, Phylogeny

Abstract

We sequenced the mitochondrial (mt) DNA cytochrome c oxidase subunit I gene to examine comparative phylogeographic patterns for the springtail Gomphiocephalus hodgsoni and the mite Stereotydeus mollis throughout their ranges in southern Victoria Land, Antarctica. Our aim was to extend previous genetic work to encompass a large ice-free area in the Dry Valleys. In particular, we sought to determine if this new region harboured high levels of genetic diversity and if patterns of genetic structure were congruent across taxa. Phylogenetic and nested clade analyses for G. hodgsoni and S. mollis showed similar patterns of population sub-structuring among locations and highlighted several potential refugia that may have existed during glacial maxima. We identified greater levels of genetic divergence in S. mollis and suggest that there is a nucleotide substitution (mutation) rate difference between S. mollis and G. hodgsoni, and/or that S. mollis has had a longer association with the Antarctic landscape.

Published

2008

36. Proceedings of the SMBE Tri-National Young Investigators' Workshop 2005. Southern hemisphere springtails: could any have survived glaciation of Antarctica?

Author

Stevens MI, Greenslade P, Hogg ID, and Sunnucks P

Subjects

Animals, Antarctic Regions, Biological Evolution, Climate, Codon, Environment, Evolution, Molecular, Genetic Variation, Geography, Geological Phenomena, Geology, Insecta, Phylogeny, Time Factors, DNA, Mitochondrial genetics

Abstract

Throughout the Southern Hemisphere many terrestrial taxa have circum-Antarctic distributions. This pattern is generally attributed to ongoing dispersal (by wind, water, or migrating birds) or relict Gondwanan distributions. Few of these terrestrial taxa have extant representatives in Antarctica, but such taxa would contribute to our understanding of the evolutionary origins of the continental Antarctic fauna. Either these taxa have survived the harsh climate cooling in Antarctica over the last 23 Myr (Gondwanan/vicariance origin) or they have dispersed there more recently (<2 MYA). In this context, we examined mtDNA (COI) sequence variation in Cryptopygus and related extant Antarctic and subantarctic terrestrial springtails (Collembola). Sequence divergence was estimated under a maximum likelihood model (general time reversible+I+Gamma) between individuals from subantarctic islands, Australia, New Zealand, Patagonia, Antarctic Peninsula, and continental Antarctica. Recent dispersal/colonization (<2 MYA) of Cryptopygus species was inferred between some subantarctic islands, and there was a close association between estimated times of divergences based on a molecular clock and proposed geological ages of islands. Most lineages generally grouped according to geographic proximity or by inferred dispersal/colonization pathways. In contrast, the deep divergences found for the four endemic Antarctic species indicate that they represent a continuous chain of descent dating from the break up of Gondwana to the present. We suggest that the diversification of these springtail species (21-11 MYA) in ice-free glacial refugia throughout the Trans-Antarctic Mountains was caused by the glaciation of the Antarctic continent during the middle to late Miocene.

Published

2006

37. Long-term isolation and recent range expansion from glacial refugia revealed for the endemic springtail Gomphiocephalus hodgsoni from Victoria Land, Antarctica.

Author

Stevens MI and Hogg ID

Subjects

Animals, Antarctic Regions, Base Sequence, Climate, Cluster Analysis, DNA, Mitochondrial genetics, Electrophoresis, Insecta physiology, Isoenzymes, Molecular Sequence Data, Sequence Analysis, DNA, Environment, Evolution, Molecular, Genetic Variation, Geography, Insecta genetics, Movement physiology, Phylogeny

Abstract

We examined the phylogeography of the endemic Antarctic collembolan Gomphiocephalus hodgsoni using allozymes and mitochondrial DNA (mtDNA; COI) to determine if potentially limited dispersal and long-term habitat fragmentation have promoted regional genetic differentiation. Allozyme analyses showed that differentiation among 21 populations within the Ross Dependency was high (FST = 0.55) with two main groups each representing a distinct geographical region: (1) Ross Island and Beaufort Island; and (2) all continental sites. Ross Island populations showed low levels of differentiation (FST = 0.05) and no correlation with geographical distance, suggesting their derivation from a single glacial refuge. By contrast, continental regions revealed moderate levels of differentiation (FST = 0.27) and a strong correlation with geographical distance, indicating a much older history with several refugia likely. Two sympatric allozyme genotypes were found at three continental sites from Taylor Valley and were congruent with two mtDNA haplotypes, implying nonrandom breeding groups. Although haplotype sharing between one Ross Island site (Cape Bird) and one continental site (Granite Harbour) was identified, the clades showed mostly fragmented allopatric distributions. The extensive Pleistocene glaciations, in conjunction with limited dispersal opportunities, appear to have promoted isolation and divergence among the fragmented habitats. Furthermore, the McMurdo Sound appears to be an effective isolating barrier to dispersal. However, we suggest that the unaided dispersal capacity of G. hodgsoni is unlikely to account for the limited mixing of haplotypes across the McMurdo Sound and recent human- or bird-mediated dispersal is highly probable.

Published

2003

38. The development of sensory innervation in the mouth and pharynx of the albino Norway rat (Mus norvegicus albinus).

Author

Hogg ID and Bryant JW

Subjects

Age Factors, Animals, Basement Membrane, Deglutition, Facial Nerve embryology, Female, Fetus, Gestational Age, Glossopharyngeal Nerve embryology, Mouth embryology, Mouth Mucosa innervation, Nerve Endings embryology, Palate innervation, Pharynx embryology, Pregnancy, Rats, Reflex, Sensory Receptor Cells embryology, Tongue embryology, Tongue innervation, Tongue physiology, Trigeminal Nerve embryology, Vagus Nerve embryology, Cranial Nerves embryology, Mouth innervation, Pharynx innervation, Sensory Receptor Cells physiology

Published

1969

39. Agenesis of the internal carotid artery with an unusual primitive collateral. Case report.

Author

Smith RR, Kees CJ, and Hogg ID

Subjects

Adult, Carotid Artery, Internal abnormalities, Cerebral Angiography, Humans, Male, Carotid Arteries abnormalities, Collateral Circulation

Published

1972

40. Theoretical anomalies of the stapedial artery.

Author

Hogg ID, Stephens CB, and Arnold GE

Subjects

Animals, Aorta embryology, Basilar Artery embryology, Blood Vessels embryology, Brain Stem embryology, Branchial Region blood supply, Carotid Arteries embryology, Cerebral Arteries embryology, Ear Ossicles embryology, Female, Humans, Mandibular Nerve embryology, Maxillary Artery embryology, Pregnancy, Rats, Trigeminal Nerve blood supply, Cerebral Arteries abnormalities, Ear Ossicles blood supply

Published

1972

41. Observations of the development of the nucleus of Edinger-Westphal in man and the albino rat.

Author

Hogg ID

Subjects

Anatomy, Comparative, Animals, Axons, Cell Differentiation, Histological Techniques, Humans, Mice, Neurons, Parasympathetic Nervous System embryology, Rats, Silver, Staining and Labeling, Limbic System embryology, Oculomotor Nerve embryology

Published

1966

42. Development of the sensory component of the respiratory mechanism of the toadfish (Opsanus tau).

Author

Tracy HC and Hogg ID

Subjects

Animals, Brain Mapping, Central Nervous System embryology, Facial Nerve embryology, Ganglia embryology, Glossopharyngeal Nerve embryology, Metamorphosis, Biological, Nerve Fibers, Myelinated embryology, Respiration, Trigeminal Nerve embryology, Vagus Nerve embryology, Cranial Nerves embryology, Fishes, Poisonous embryology, Respiratory System innervation

Published

1968