Your search keyword '"Polar"' showing total 40,412 results

1. Surface microlayer-mediated virome dissemination in the Central Arctic.

Author

Rahlff, Janina, Westmeijer, George, Weissenbach, Julia, Antson, Alfred, and Holmfeldt, Karin

Abstract

Background: Aquatic viruses act as key players in shaping microbial communities. In polar environments, they face significant challenges such as limited host availability and harsh conditions. However, due to the restricted accessibility of these ecosystems, our understanding of viral diversity, abundance, adaptations, and host interactions remains limited. Results: To fill this knowledge gap, we studied viruses from atmosphere-close aquatic ecosystems in the Central Arctic and Northern Greenland. Aquatic samples for virus-host analysis were collected from ~60 cm depth and the submillimeter surface microlayer (SML) during the Synoptic Arctic Survey 2021 on icebreaker Oden in the Arctic summer. Water was sampled from a melt pond and open water before undergoing size-fractioned filtration, followed by genome-resolved metagenomic and cultivation investigations. The prokaryotic diversity in the melt pond was considerably lower compared to that of open water. The melt pond was dominated by a Flavobacterium sp. and Aquiluna sp., the latter having a relatively small genome size of 1.2 Mb and the metabolic potential to generate ATP using the phosphate acetyltransferase-acetate kinase pathway. Viral diversity on the host fraction (0.2–5 µm) of the melt pond was strikingly limited compared to that of open water. From the 1154 viral operational taxonomic units (vOTUs), of which two-thirds were predicted bacteriophages, 17.2% encoded for auxiliary metabolic genes (AMGs) with metabolic functions. Some AMGs like glycerol-3-phosphate cytidylyltransferase and ice-binding like proteins might serve to provide cryoprotection for the host. Prophages were often associated with SML genomes, and two active prophages of new viral genera from the Arctic SML strain Leeuwenhoekiella aequorea Arc30 were induced. We found evidence that vOTU abundance in the SML compared to that of ~60 cm depth was more positively correlated with the distribution of a vOTU across five different Arctic stations. Conclusions: The results indicate that viruses employ elaborate strategies to endure in extreme, host-limited environments. Moreover, our observations suggest that the immediate air-sea interface serves as a platform for viral distribution in the Central Arctic. Dvb_jZZ1H7pg55rxrDSVb2 Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of daily light exposure on sleep in polar regions: A meta‐analysis.

Author

Shao, Yingqi, Li, Yao, Wang, Nan, Xue, Yan, Wang, Tongyue, Qiu, Fengxi, Lu, Yi, Lan, Danmei, and Wu, Hengjing

Subjects

*SLEEP duration, *SLEEP, *SPRING, *AUTUMN, *SAMPLE size (Statistics)

Abstract

Summary: Although studies have shown that light affects sleep in polar populations, the sample size of most studies is small. This meta‐analysis provides the first systematic review of the effects of summer glare, spring and fall moderate daylight, and artificial lighting on general sleep problems (sleep duration, efficiency, and delay). This analysis included 18 studies involving 986 participants. We calculated the random effect size via an evidence‐based meta‐analysis that analysed the effect of bright/auxiliary light on sleep and the effect of three different types of light on sleep compared with conventional light. There was no significant correlation between specific light types and sleep duration. Intense summer light has a negative effect on sleep time and efficiency. Moderate, natural light in spring and autumn effectively delayed sleep but could not improve sleep efficiency. For artificial fill light, neither blue light nor enhanced white light has been found to have a significant effect. In summary, summer light has a detrimental effect on sleep in polar populations, and moderate natural light may be superior to conventional light. However, specific strategies to improve sleep and artificial lighting in polar populations must be explored further. [ABSTRACT FROM AUTHOR]

Published

2024

3. Surface microlayer-mediated virome dissemination in the Central Arctic

Author

Janina Rahlff, George Westmeijer, Julia Weissenbach, Alfred Antson, and Karin Holmfeldt

Subjects

Surface microlayer, Polar, Phage, Lysogeny, Melt pond, Metagenomics, Microbial ecology, QR100-130

Abstract

Abstract Background Aquatic viruses act as key players in shaping microbial communities. In polar environments, they face significant challenges such as limited host availability and harsh conditions. However, due to the restricted accessibility of these ecosystems, our understanding of viral diversity, abundance, adaptations, and host interactions remains limited. Results To fill this knowledge gap, we studied viruses from atmosphere-close aquatic ecosystems in the Central Arctic and Northern Greenland. Aquatic samples for virus-host analysis were collected from ~60 cm depth and the submillimeter surface microlayer (SML) during the Synoptic Arctic Survey 2021 on icebreaker Oden in the Arctic summer. Water was sampled from a melt pond and open water before undergoing size-fractioned filtration, followed by genome-resolved metagenomic and cultivation investigations. The prokaryotic diversity in the melt pond was considerably lower compared to that of open water. The melt pond was dominated by a Flavobacterium sp. and Aquiluna sp., the latter having a relatively small genome size of 1.2 Mb and the metabolic potential to generate ATP using the phosphate acetyltransferase-acetate kinase pathway. Viral diversity on the host fraction (0.2–5 µm) of the melt pond was strikingly limited compared to that of open water. From the 1154 viral operational taxonomic units (vOTUs), of which two-thirds were predicted bacteriophages, 17.2% encoded for auxiliary metabolic genes (AMGs) with metabolic functions. Some AMGs like glycerol-3-phosphate cytidylyltransferase and ice-binding like proteins might serve to provide cryoprotection for the host. Prophages were often associated with SML genomes, and two active prophages of new viral genera from the Arctic SML strain Leeuwenhoekiella aequorea Arc30 were induced. We found evidence that vOTU abundance in the SML compared to that of ~60 cm depth was more positively correlated with the distribution of a vOTU across five different Arctic stations. Conclusions The results indicate that viruses employ elaborate strategies to endure in extreme, host-limited environments. Moreover, our observations suggest that the immediate air-sea interface serves as a platform for viral distribution in the Central Arctic. Video Abstract

Published

2024

4. The utility of monitoring snow for microplastics in the Arctic: a pilot study from Iqaluktuuttiaq, Nunavut

Author

Bonnie M. Hamilton, Les N. Harris, Jennifer F. Provencher, and Chelsea M. Rochman

Subjects

plastic pollution, long-range transport, polar, atmospheric deposition, Environmental sciences, GE1-350, Environmental engineering, TA170-171

Abstract

Plastic pollution, including microplastics (

Published

2024

5. Mapping water content in drying Antarctic moss communities using UAS‐borne SWIR imaging spectroscopy

Author

Darren Turner, Emiliano Cimoli, Arko Lucieer, Ryan S. Haynes, Krystal Randall, Melinda J. Waterman, Vanessa Lucieer, and Sharon A. Robinson

Subjects

Drones, hyperspectral, polar, remote sensing, UAS, vegetation, Technology, Ecology, QH540-549.5

Abstract

Abstract Antarctic moss beds are sensitive to climatic conditions, and both their survival and community composition are particularly influenced by the availability of liquid water over summer. As Antarctic regions increasingly face climate pressures (e.g., changing hydrology and heat waves), advancing capabilities to efficiently and non‐destructively monitor water content in moss communities becomes a key research priority. Because of the complexity induced by multiple micro‐climatic drivers and its fragility, tracking the evolution and responses of moss bed moisture requires monitoring methods that are non‐intrusive, efficient, and spatially significant, such as the use of unoccupied aerial systems (UAS). In this study, we combine a multi‐species drying laboratory experiment with short‐wave infrared (SWIR) spectroscopy analyses to first develop a Random Forest regression Model (RFM) capable of predicting Antarctic moss turf water content (~5% error). The RFM was then applied to UAS‐borne SWIR imaging data (900–1700 nm,

Published

2024

6. Enzymes and biosurfactants of industrial interest produced by culturable fungi present in sediments of Boeckella Lake, Hope Bay, north-east Antarctic Peninsula.

Author

Teixeira, Elisa Amorim Amâncio, de Souza, Láuren Machado Drumond, Vieira, Rosemary, Lirio, Juan Manuel, Coria, Silvia Herminda, Convey, Peter, Rosa, Carlos Augusto, and Rosa, Luiz Henrique

Abstract

This study characterized cultivable fungi present in sediments obtained from Boeckella Lake, Hope Bay, in the north-east of the Antarctic Peninsula, and evaluated their production of enzymes and biosurfactants of potential industrial interest. A total of 116 fungal isolates were obtained, which were classified into 16 genera within the phyla Ascomycota, Basidiomycota and Mortierellomycota, in rank. The most abundant genera of filamentous fungi included Pseudogymnoascus, Pseudeurotium and Antarctomyces; for yeasts, Thelebolales and Naganishia taxa were dominant. Overall, the lake sediments exhibited high fungal diversity and moderate richness and dominance. The enzymes esterase, cellulase and protease were the most abundantly produced by these fungi. Ramgea cf. ozimecii, Holtermanniella wattica, Leucosporidium creatinivorum, Leucosporidium sp., Mrakia blollopis, Naganishia sp. and Phenoliferia sp. displayed enzymatic index > 2. Fourteen isolates of filamentous fungi demonstrated an Emulsification Index 24% (EI24%) ≥ 50%; among them, three isolates of A. psychrotrophicus showed an EI24% > 80%. Boeckella Lake itself is in the process of drying out due to the impact of regional climate change, and may be lost completely in approaching decades, therefore hosts a threatened community of cultivable fungi that produce important biomolecules with potential application in biotechnological processes. [ABSTRACT FROM AUTHOR]

Published

2024

7. Diversity and enzymatic, biosurfactant and phytotoxic activities of culturable Ascomycota fungi present in marine sediments obtained near the South Shetland Islands, maritime Antarctica.

Author

da Silva, Mayanne Karla, Barreto, Débora Luiza Costa, Vieira, Rosemary, Neto, Arthur Ayres, de Oliveira, Fábio Soares, Convey, Peter, Rosa, Carlos Augusto, Duarte, Alysson Wagner Fernandes, and Rosa, Luiz Henrique

Subjects

*MARINE fungi, *MARINE sediments, *BIOSURFACTANTS, *ASCOMYCETES, *PENICILLIUM chrysogenum, *FILAMENTOUS fungi

Abstract

We studied the culturable fungal community recovered from deep marine sediments in the maritime Antarctic, and assessed their capabilities to produce exoenzymes, emulsifiers and metabolites with phytotoxic activity. Sixty-eight Ascomycota fungal isolates were recovered and identified. The most abundant taxon recovered was the yeast Meyerozyma guilliermondii, followed by the filamentous fungi Penicillium chrysogenum, P. cf. palitans, Pseudeurotium cf. bakeri, Thelebolus balaustiformis, Antarctomyces psychrotrophicus and Cladosporium sp. Diversity indices displayed low values overall, with the highest values obtained at shallow depth, decreasing to the deepest location sampled. Only M. guilliermondii and P. cf. palitans were detected in the sediments at all depths sampled, and were the most abundant taxa at all sample sites. The most abundant enzymes detected were proteases, followed by invertases, cellulases, lipases, carrageenases, agarases, pectinases and esterases. Four isolates showed good biosurfactant activity, particularly the endemic species A. psychrotrophicus. Twenty-four isolates of P. cf. palitans displayed strong phytotoxic activities against the models Lactuca sativa and Allium schoenoprasum. The cultivable fungi recovered demonstrated good biosynthetic activity in the production of hydrolytic exoenzymes, biosurfactant molecules and metabolites with phytotoxic activity, reinforcing the importance of documenting the taxonomic, ecological and biotechnological properties of fungi present in deep oceanic sediments of the Southern Ocean. [ABSTRACT FROM AUTHOR]

Published

2024

8. Photostasis and photosynthetic adaptation to polar life.

Author

Hüner, Norman P.A., Ivanov, Alexander G., Szyszka-Mroz, Beth, Savitch, Leonid V., Smith, David R., and Kata, Victoria

Abstract

Photostasis is the light-dependent maintenance of energy balance associated with cellular homeostasis in photoautotrophs. We review evidence that illustrates how photosynthetic adaptation in polar photoautrophs such as aquatic green algae, cyanobacteria, boreal conifers as well as terrestrial angiosperms exhibit an astonishing plasticity in structure and function of the photosynthetic apparatus. This plasticity contributes to the maintenance of photostasis, which is essential for the long-term survival in the seemingly inhospitable Antarctic and Arctic habitats. However, evidence indicates that polar photoautrophic species exhibit different functional solutions for the maintenance of photostasis. We suggest that this reflects, in part, the genetic diversity symbolized by inherent genetic redundancy characteristic of polar photoautotrophs which enhances their survival in a thermodynamically challenging environment. [ABSTRACT FROM AUTHOR]

Published

2024

9. Acclimation to moderate temperatures can have strong negative impacts on heat tolerance of arctic arthropods.

Author

Sørensen, Jesper Givskov, Noer, Natasja Krog, Kristensen, Torsten Nygaard, and Bahrndorff, Simon

Subjects

*ACCLIMATIZATION, *ARTHROPODA, *HIGH temperatures, *ATMOSPHERIC temperature, *CLIMATE change, *TEMPERATURE

Abstract

The Arctic is impacted by some of the fastest temperature changes observed on Earth, but the impact on the terrestrial arthropod fauna is unclear. Acute physiological thermal limits of terrestrial ectotherms from high latitudes often exceed the local air temperatures, suggesting that they may be able to cope with increasing temperatures. However, knowledge on how Arctic terrestrial arthropods cope with elevated temperatures for longer periods is lacking.Here we investigate how acclimation temperature and exposure time affect the acute physiological heat tolerance of five terrestrial arthropod species (Neomolgus littoralis, Megaphorura arctica, Nysius groenlandicus, Psammotettix lividellus and Nabis flavomarginatus) immediately after collection in Arctic and sub‐Arctic habitats.We show that although acute heat tolerances are relatively high, even exposure to moderate (temperature span assessed ca. 3–29°C) acclimation temperatures for a 24 h period have strong negative effects on heat tolerance for four of the five species. Similarly, exposure time negatively affected heat tolerance, but depending on species and temperature.Together our results suggest that exposure to even moderately elevated temperatures for periods of 24 h or even shorter can lead to lower acute heat tolerance for cold adapted terrestrial arthropod species from sub‐Arctic and Arctic regions. Consequently, climate change leading to extended periods of mildly elevated temperatures may have strong negative effects on these species. We argue that this aspect is currently overlooked when assessing the ability of arthropods from Arctic and sub‐Artic regions to cope with climate changes as such predictions are typically based on acute heat tolerance estimates and with the assumption of beneficial acclimation responses. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

10. Properties of Convex Lattice Sets under the Discrete Legendre Transform.

Author

He, Tingting, Yue, Ruifeng, and Si, Lin

Subjects

*CONVEX sets, *CONVEX bodies

Abstract

The discrete Legendre transform is a powerful tool for analyzing the properties of convex lattice sets. In this paper, for t > 0 , we study a class of convex lattice sets and establish a relationship between vertices of the polar of convex lattice sets and vertices of the polar of its t − dilation. Subsequently, we show that there exists a class of convex lattice sets such that its polar is itself. In addition, we calculate upper and lower bounds for the discrete Mahler product of a class of convex lattice sets. [ABSTRACT FROM AUTHOR]

Published

2024

11. Unexpected sources of uncertainty in projecting habitat shifts for Arctic shorebirds under climate change.

Author

Anderson, Christine M., Fahrig, Lenore, Rausch, Jennie, and Smith, Paul A.

Subjects

*GENERAL circulation model, *SHORE birds, *DISTRIBUTION (Probability theory), *CLIMATE change, *TIMBERLINE, *TUNDRAS

Abstract

Aim: The rapidly changing Arctic is ideal for investigating uncertainties in climate projections. Despite the challenges of collecting data in this region, an unprecedented large‐scale survey of shorebirds has been conducted over the last 30 years. Our study aimed to (1) develop probabilistic estimates for the change in suitable habitat for 10 Arctic shorebird species in Canada by 2075 and (2) assess the contribution of modelling decisions to the uncertainty in these estimates. Location: Arctic Canada. Methods: To evaluate uncertainty, we considered six classes of modelling decisions, yielding 216 unique projections for each species. We tested three decisions that are less commonly explored − the pool of candidate variables, a method for selecting variables, and the maximum distance of tree line dispersal, as well as the modelling algorithm, carbon emissions scenario, and global circulation model. We used a bootstrapping approach, creating a probability distribution for the proportional change in suitable habitat for each species. Results: Our findings indicated a substantial risk for 8/10 species to lose over half of their suitable breeding habitat, but this projection is much less certain than has been described previously. While much uncertainty is unexplained, we were surprised that the largest source of uncertainty among our modelling decisions was from our choice of methods for variable selection, that the other modelling decisions were relatively small sources of uncertainty, overshadowing other modelling decisions. Main Conclusions: While most scenarios predict a northward shift and significant habitat loss for Arctic‐breeding shorebirds, the Arctic Archipelago of Canada will remain an important refuge because in many other Arctic regions, there is no land farther north for these species to shift into. A comprehensive understanding of uncertainty is important for deciding if future projections can or should be used when planning climate‐resilient protected area networks. [ABSTRACT FROM AUTHOR]

Published

2024

12. Buoyancy Gliders Opening New Research Opportunities in the Southern Ocean.

Author

Schofield, Oscar, Kerfoot, John, Waite, Nicole, Nardelli, Schuyler, McKee, Darren C., Brearley, J. Alexander, and Reiss, Christian

Subjects

ICE navigation, GLIDERS (Aeronautics), UNDERWATER gliders, BUOYANCY, RESEARCH vessels, OCEAN circulation, SHIPS, ADAPTIVE natural resource management, OCEAN

Abstract

Polar systems are experiencing major changes that has significant implications for ocean circulation and global biogeochemistry. While these changes are accelerating, access to polar systems is decreasing as ships and logistical capabilities are declining. Autonomous underwater buoyancy gliders have proven to be robust technologies that are capable of filling sampling gaps. Gliders have also provided a more sustained presence in polar seas than ships are able. Along the West Antarctic Peninsula, one of the most rapidly warming regions on this planet, gliders have proven to be a useful tool being used by the international community to link land research stations without requiring major research vessel ship support. The gliders are capable of adaptive sampling of subsurface features not visible from satellites, sustained sampling to characterize seasonal dynamics, and they increasingly play a central role in themanagement of natural resources. Future challenges to expand their utility include: (A) developing robust navigation under ice, which would allow gliders to provide a sustained bridge between the research stations when ship support is declining, and (B) expanding online resources to provide the international community open access to quality data in near real time. These advances will accelerate the use of gliders to fill critical sampling gaps for these remote ocean environments. [ABSTRACT FROM AUTHOR]

Published

2024

13. Mapping water content in drying Antarctic moss communities using UAS‐borne SWIR imaging spectroscopy.

Author

Turner, Darren, Cimoli, Emiliano, Lucieer, Arko, Haynes, Ryan S., Randall, Krystal, Waterman, Melinda J., Lucieer, Vanessa, and Robinson, Sharon A.

Subjects

SPECTRAL imaging, HEAT waves (Meteorology), SNOW cover, SPECTRAL reflectance, MOSSES, RANDOM forest algorithms, TUNDRAS

Abstract

Antarctic moss beds are sensitive to climatic conditions, and both their survival and community composition are particularly influenced by the availability of liquid water over summer. As Antarctic regions increasingly face climate pressures (e.g., changing hydrology and heat waves), advancing capabilities to efficiently and non‐destructively monitor water content in moss communities becomes a key research priority. Because of the complexity induced by multiple micro‐climatic drivers and its fragility, tracking the evolution and responses of moss bed moisture requires monitoring methods that are non‐intrusive, efficient, and spatially significant, such as the use of unoccupied aerial systems (UAS). In this study, we combine a multi‐species drying laboratory experiment with short‐wave infrared (SWIR) spectroscopy analyses to first develop a Random Forest regression Model (RFM) capable of predicting Antarctic moss turf water content (~5% error). The RFM was then applied to UAS‐borne SWIR imaging data (900–1700 nm, <16 nm spectral resolution) of the moss beds at high spatial resolution (2 cm) across three sites in the vicinity of Casey Station, Antarctica. The sites differed in terrain, snow cover, and moisture availability to evaluate method capabilities under different conditions. Optimum RFM parameters and input variables (spectral indices and reflectance spectra) were determined. Maps of moss moisture were validated via acquiring moss spectra and water content (using sponges inserted into the moss turf) collected in situ, for which an exponential correlation (R2 = 0.72) was reported. RFM further allowed investigation of the influential spectral variables to model water content in moss and associated spectral water absorption features. We demonstrated that UAS‐borne SWIR imaging is a promising new tool to map and quantify water content in Antarctic moss beds. Hyperspectral mapping facilitates the exploration of the spatial variability of moss health and enables the creation of a baseline against which changes in these moss communities can be measured. [ABSTRACT FROM AUTHOR]

Published

2024

14. On the terrestrial and freshwater invertebrate diversity of the High Arctic archipelago of Svalbard: a revised species inventory and synopsis of the community composition

Author

Stephen J. Coulson, Jesamine Bartlett, Sven Boström, John E. Brittain, Kirsten S. Christoffersen, Peter Convey, Willem H. De Smet, Klára Dózsa-Farkas, Torbjørn Ekrem, Arne Fjellberg, Leo Füreder, Mark A.K. Gillespie, Daniel Gustafsson, Dariusz J. Gwiazdowicz, Łukasz Kaczmarek, Małgorzata Kolicka, Ronald Laniecki, Tirza M. Moerman, Stanisław Seniczak, Anna Seniczak, Jean-Christophe Simon, Elisabeth Stur, Geir E. E. Søli, Karina Wieczorek, Krzysztof Zawierucha, and Katarzyna Zmudczynska-Skarbek

Subjects

biodiversity, micrometazoans, polar, microarthropod, insect, community, Environmental sciences, GE1-350, Environmental engineering, TA170-171

Abstract

Arctic terrestrial invertebrate biodiversity is generally poorly known, but the archipelago of Svalbard has one of the most up-to-date inventories of its terrestrial and freshwater faunas of any Arctic region, offering a baseline for long term monitoring of invertebrate communities in space and time. Since the most recent review of the Svalbard invertebrate fauna was produced in 2014, knowledge of this fauna has developed and this inventory is here critically revised and updated. Our aims are (1) to critically review the inventory based on current taxonomic knowledge, (2) publish the complete species inventory, including cross-referencing to the relevant publications, in an open access data archive (GBIF), and (3) highlight the particular advantages that working in Svalbard may bring for scientists working on terrestrial, freshwater, and cryospheric environments. The inventory contains a total 1091 valid species names or interim names. A gap analysis in the Barcode of Life Data Systems reveals that 50% of the species currently documented from Svalbard lack COI (Cytochrome c oxidase subunit 1) barcode reference sequences in this database. Gaps in our knowledge of the Svalbard fauna and how these may be resolved are discussed.

Published

2024

15. Influence of the New Environment on the Skin : Environmental Related Skin Disorders in Immigrants and Tourists

Author

Nguyen, A. L., Badeloe, S., Berth-Jones, John, Series Editor, Goh, Chee Leok, Series Editor, Maibach, Howard I., Series Editor, Lipner, Shari R., Series Editor, and Robles, Wanda, editor

Published

2024

16. Gamma-Ray Polarimetry of Transient Sources with POLAR

Author

Kole, Merlin, Sun, Jianchao, Bambi, Cosimo, editor, and Santangelo, Andrea, editor

Published

2024

17. Lp-Brunn–Minkowski inequality for projection bodies

Author

Wang, W. D.

Published

2024

18. Nutrient cycling in the Arctic and Subarctic oceans : a stable isotope study

Author

Debyser, Margot, Ganeshram, Raja, Pichevin, Laetitia, and Tuerena, Robyn

Subjects

nutrient, isotope, biogeochemistry, Arctic Ocean, polar

Abstract

Anthropogenic global warming is actively changing nutrient supply and the food web of the Arctic Ocean and the subpolar regions. This study uses the stable isotopes of dissolved silicon and nitrate, two vital nutrients for marine life, to investigate the marine biogeochemical cycling of nutrients in these regions. This work analyses datasets acquired from 7 oceanographic expeditions in three key regions: the Laptev Sea shelf, polar outflow waters of the Fram Strait (79˚N) and a full transect across the subpolar North Atlantic (50-60˚N). Hydrographic data, alongside concentrations of nitrate (NO3), dissolved silicon (DSi) and their isotopic composition (d15N-NO3, d18O-NO3, d30Si(OH)4) is presented to provide spatially and temporally integrated information on biogeochemical cycling in these regions. The overall objective of this work is to determine the processes which control nutrient budgets and cycling in the Arctic Ocean, export to the subpolar regions and the sensitivity of these processes to ongoing climate change. On the shallow Eurasian shelves of the Arctic Ocean, nitrogen is strongly depleted. This results from intense biological utilisation and significant benthic denitrification in the coastal regions, coupled with nitrogen-poor freshwater sources. Primary production in these regions is limited by N availability as a result of this. This puts a biological control on the extent of DSi utilisation in surface waters and modulates its export to the central Arctic Ocean. Over 40% of riverine DSi supplied by the Lena river is consumed and buried into the sediments of the Laptev shelf, enabled by vigorous recycling of nitrogen. Extrapolating these burial rates to the Eurasian shelf leads to an excess riverine DSi export of 3.10 ± 0.71 kmol/s through the Transpolar Drift to the central Arctic Ocean and outflowing currents. Consequently, Eurasian rivers significantly contribute to the DSi inventory of outflow polar surface waters, providing 40 ± 4% of the total DSi. By contrast, Pacific sources, which were previously estimated to be an important source of export of DSi, only contribute to 8 ± 1% of the total inventory. Glacial DSi influence from melting of the Greenland Ice sheet was found to be negligible. The Si budget is thus primarily controlled by biological processes on Arctic shelves, which currently act to enrich the d30Si(OH)4 outflowing water masses by 0.1‰ compared to Atlantic inflow (1.7‰). Climate change is increasing riverine inputs of DSi faster than N. As the export of DSi from the Arctic Ocean is dependent on N-availability, outflow waters could transport a larger flux of DSi in the future, with lowered isotopic signature. In the subpolar North Atlantic, nutrient properties of surface waters are integrated into the deep through convective water mass formation. Thus, biological assimilation and regeneration of nutrient stocks at high and low latitudes impact the nutrient inventory of North Atlantic deep waters. Surface waters of the North Atlantic have lighter d30Si(OH)4 (1.7‰) than predicted considering its nutrient deplete nature. Important processes at low latitudes act to dilute DSi concentrations of Atlantic surface waters and dampen their isotopic signature. This signal is integrated with the one of heavily utilised surface waters from the subpolar regions and the Nordic Seas into the deep North Atlantic. In recent years, deviation of the Labrador Current to the subpolar North Atlantic has reduced N assimilation. The freshwater content of the subpolar regions is predicted to increase from increased glacial melt and freshwater supply. This can act to increase stratification and decrease primary production of the region in the future. Due to the interconnectivity of the subpolar regions on the global scale, this can be reflected into the deep convective waters of the Atlantic and affect nutrient availability in the Eurasian Arctic.

Published

2023

19. What does the fox say? Arctic fox vocalization and associated den behaviours

Author

Kayla J. Buhler, Gustaf Samelius, Ray Alisauskas, and Emily Jenkins

Subjects

communication, canine, vulpes lagopus, polar, barking, ursus arctos, Environmental sciences, GE1-350, Oceanography, GC1-1581

Abstract

Foxes (Vulpes spp.) are small, solitary canids with relatively low social complexity compared to more gregarious canids, such as wolves and dogs. They are, therefore, expected to have a relatively simple vocal repertoire, with limited low-intensity sounds for close communication and many high-intensity sounds for long-distance communication. Arctic foxes (Vulpes lagopus), like many other foxes, are largely solitary outside of the breeding season. However, they have the largest litter size in the order Carnivora and may experience enhanced social complexity during the breeding season. In this study, we document the vocal repertoire of the Arctic fox during the breeding season, and how it changes before and after the emergence of pups. We also describe the relationship between vocalizations and other denning behaviours. Camera-traps captured six distinct sounds produced by breeding pairs of Arctic foxes and their young at dens: territorial barks, warning barks, alarm calls, cooing, whines and growling. Our study shows that although high-intensity sounds, such as territorial barks, are an important form of long-distance communication among Arctic foxes, low-intensity sounds and sound mixing are used on their dens following pup emergence. Thus, Arctic fox vocalization may be more complex than previously documented.

Published

2024

20. Fluorinated liquid crystals and their mixtures giving polar phases with enhanced low-temperature stability.

Author

Yang, Chen, Ye, Fan, Huang, Xiang, Li, Jinxing, Zhang, Xinxin, Song, Yaohao, Aya, Satoshi, and Huang, Mingjun

Subjects

*LIQUID crystals, *LIQUID crystal states, *SMECTIC liquid crystals, *LIQUID mixtures, *DIPOLE moments, *OPTOELECTRONIC devices

Abstract

The fluid ferroelectrics, called ferroelectric nematics (NF), have recently become available by incorporating strong polarity into rod-shaped liquid crystal molecules. Its unprecedented electro-optic properties have created significant excitement in soft matter research. The further progression from the NF phase to the antiferroelectric smectic Z (SmZA) phase, and ultimately to the ferroelectric Smectic A (SmAF) phase, represents a remarkable journey in emerging polar liquid crystal states. Nevertheless, the limitation of NF liquid crystal materials remains one of the prominent obstacles to physical property optimization and optoelectronic device development. In this work, we synthesized a series of fluorinated liquid crystal molecules with large dipole moments and systematically investigated their phase behavior. We designed them with a similar fluorinated aromatic skeleton and varied the structures of the terminal group and bridging bond. We found that the dipole moment density and shape anisotropy significantly affect the phase behavior. Notably, diverse polar liquid crystal phases, including NF, SmZA, and SmAF were observed. Through a multi-component mixing strategy, we successfully achieved a much-expanded temperature window and improved low-temperature stability not only in the NF phase but also in the SmZA and SmAF phases. [ABSTRACT FROM AUTHOR]

Published

2024

21. Truncated vector lattices: A Maeda-Ogasawara type representation.

Author

Boulabiar, Karim and Hajji, Rawaa

Subjects

RIESZ spaces, COMMERCIAL space ventures, HAUSDORFF spaces, CHARACTERISTIC functions, COMPACT spaces (Topology)

Abstract

Let L be a truncated Archimedean vector lattice whose truncation is denoted by *. In a recent paper, we proved that there exists a locally compact Hausdorff space X such that L is a lattice isomorphic with a truncated vector lattice of functions in C∞(X) whose truncation is provided by meet with some characteristic function on X. This representation, no matter how interesting it is, has a major drawback, namely, C∞(X) need not be a vector lattice, unless X is extremally disconnected. The main purpose of this paper is to remedy this shortcoming by proving that, indeed, an extremally disconnected locally compact space X can be found such that L can be seen as an order dense vector sublattice of C∞(X) whose truncation is provided, again, by meet with some characteristic function on X. [ABSTRACT FROM AUTHOR]

Published

2024

22. The use of weather, water, ice and climate (WWIC) information in the Polar Regions: What is known after the decade-long Polar Predication Project?

Author

Heinrich, VJ, Stewart, Emma, and Liggett, D

Published

2024

23. Cryologger Ice Tracking Beacon: A Low-Cost, Open-Source Platform for Tracking Icebergs and Ice Islands.

Author

Garbo, Adam and Mueller, Derek

Subjects

*ICE navigation, *ICEBERGS, *ANTARCTIC ice, *ISLANDS, *DATA loggers, *BEACONS

Abstract

Icebergs and ice islands (large, tabular icebergs) present a significant hazard to marine vessels and infrastructure at a time when demand for access to Arctic waters is increasing. There is a growing demand for in situ iceberg tracking data to monitor their drift trajectories and improve models used for operational forecasting of ice hazards, yet the high cost of commercial tracking devices often prevents monitoring at optimal spatial and temporal resolutions. Here, we provide a detailed description of the Cryologger Ice Tracking Beacon (ITB), a low-cost, robust, and user-friendly data logger and telemeter for tracking icebergs and ice islands based on the Arduino open-source electronics platform. Designed for deployments of at least 2 years with an hourly sampling interval that is remotely modifiable by the end user, the Cryologger ITB provides long-term measurements of position, temperature, pressure, pitch, roll, heading, and battery voltage. Data are transmitted via the Iridium satellite network at user-specified intervals. We present the results of field campaigns in 2018 and 2019, which saw the deployment of 16 ITBs along the coasts of Greenland and Ellesmere and Baffin islands. The overall success of these ITB deployments has demonstrated that inexpensive, open-source hardware and software can provide a reliable and cost-effective method of monitoring icebergs and ice islands in the polar regions. [ABSTRACT FROM AUTHOR]

Published

2024

24. Quantifying zoobenthic blue carbon storage across habitats within the Arctic's Barents Sea.

Author

Souster, Terri A., Barnes, David K. A., Primicerio, Raul, and Jørgensen, Lis Lindal

Subjects

SEA ice, HABITATS, TUNDRAS, CARBON, MARINE ecology, VALUE investing (Finance), FUNCTIONAL groups

Abstract

Introduction: The Arctic sea ice extent in September (when it is at its lowest) has declined 13% Q10 per decade, and the Arctic Ocean is becoming a more Atlantic-influenced system. Rapid climate-forced changes are taking place in many high-latitude marine ecosystems. The Barents Sea is one such highlatitude shelf ecosystem, between approximately 70° and 80°N in the Norwegian Arctic. The purpose of the current study was to estimate zoobenthic blue carbon across multiple habitats within the Barents Sea (trough, basin, shelf, and shallows), potentially providing values to aid ecosystem-based management of these areas under future climate change scenarios. Method: We tested this by capture and analysis of 947 high-resolution (each 405.7 × 340.6 mm, 12 MB, 5 megapixels) seabed images at 17 sites with latitudinal cline, linked to a collection of corresponding oceanographic data. Biotas within these images were identified to one of the 14 functional groups and the density was calculated. Mean stored carbon per individual was assigned by ash mass (AM) and ash-free dry mass (AFDM) of individuals caught within Agassiz trawl deployments at the same sites. Results: Trough sites, except for one site (B16), have a low quantity of zoobenthic blue carbon compared with the shallow, shelf, and basin habitats. Discussion: The results of a previous study focused entirely on trough habitats and are therefore difficult to scale up as the basis for a meaningful estimate of across-habitat zoobenthic blue carbon in the Barents Sea. Compared with the trough and the basin, the shelf and shallow habitats of the Barents Sea are also subjected to more trawling events through demersal fisheries and showed higher zoobenthic blue carbon stock values. [ABSTRACT FROM AUTHOR]

Published

2024

25. Vertical distribution of brown and red macroalgae along the central Western Antarctic Peninsula.

Author

Amsler, Charles D., Amsler, Margaret O., Heiser, Sabrina, McClintock, James B., Iken, Katrin, Galloway, Aaron W. E., and Klein, Andrew G.

Subjects

*MARINE algae, *SEA ice, *PENINSULAS, *WATER depth, *SPECIES diversity, *CERAMIALES, *RED algae

Abstract

Fleshy macroalgae dominate the hard bottom, shallow waters along the Western Antarctic Peninsula (WAP). Although there are numerous reports on their ecology, geographic distribution, and to a lesser extent, vertical (depth) distribution in the northern portions of the WAP, much less is known farther south along the central portion of the WAP. Here we provide the first report of the vertical distributions of brown and red fleshy macroalgae in this region based on scuba-derived collections at 14 study sites between southern Anvers Island (64.8°S, 64.4°W) in the north and central Marguerite Bay (68.7°S, 67.5°W) in the south. Although several overstory brown macroalgal species that can be common along the northern WAP including Desmarestia anceps and Cystosphaera jacquinotii are mostly absent from the central WAP, the vertical distributions of the brown macroalgae Desmarestia menziesii and Himantothallus grandifolius are similar to the northern WAP even though their percent cover is much lower. Likewise, the vertical distribution of the 14 most widespread red macroalgae, where they occur, mirrored those known from the northern part of the WAP even though macroalgal cover, biomass, and total species richness declined markedly to the south across this region due to increasing sea ice concentrations. [ABSTRACT FROM AUTHOR]

Published

2024

26. Sociopoétique de la figure de l'enquêteur dans le polar d'Afrique francophone.

Author

Togola, Adama

Abstract

Copyright of Alternative Francophone is the property of Alternative Francophone and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

27. Quad polarimetric synthetic aperture radar analysis of icebergs in Greenland and Svalbard

Author

Bailey, Johnson, Marino, Armando, Akbari, Vahid, and Spyrakos, Evangelos

Subjects

SAR, synthetic aperture radar, radar, polarimetry, icebergs, backscattering, remote sensing, earth observation, PolSAR, polar

Abstract

Polarimetric synthetic aperture radar (PolSAR) has been widely used in ocean and cryospheric applications. This is because, PolSAR can be used in all-day operations and in areas of cloud cover, and therefore can provide valuable large-scale monitoring in polar regions, which is very helpful to shipping and offshore maritime operations. In the last decades, attention has turned to the potential of PolSAR to detect icebergs in the Arctic since they are a major hazard to vessels. However, there is a substantial lack of literature exploring the potentialities of PolSAR and the understanding of iceberg scattering mechanisms. Additionally, it is not known if high resolution PolSAR can be used to detect icebergs smaller than 120 metres. This thesis aims to improve the knowledge of the use of PolSAR scattering mechanisms of icebergs, and detection of small icebergs. First, an introduction to PolSAR is outlined in chapter two, and monitoring of icebergs is presented in chapter three. The first data chapter (Chapter 4) is focused on developing a multi-scale analysis of icebergs using parameters from the Cloude-Pottier and the Yamaguchi decompositions, the polarimetric span and the Pauli scattering vector. This method is carried out using ALOS-2 PALSAR quad polarimetric L-band SAR on icebergs in Greenland. This approach outlines the good potential for using PolSAR for future iceberg classification. One of the main important outcomes is that icebergs are composed by a combination of single targets, which therefore may require a more complex way of processing SAR data to properly extract physical information. In chapter five, the problem of detecting icebergs is addressed by introducing six state-of-the-art detectors previously applied to vessel monitoring. These detectors are the Dual Intensity Polarisation Ratio Anomaly Detector (iDPolRAD), Polarimetric Notch Filter (PNF), Polarimetric Matched Filter (PMF), reflection symmetry (sym), Optimal Polarimetric Detector (OPD) and the Polarimetric Whitening Filter (PWF). Cloude-Pottier entropy, and first and third eigenvalues (eig1 and eig3) of the coherency matrix are also utilised as parameters for comparison. This approach uses the same ALOS-2 dataset, but also evaluates detection performance in two scenarios: icebergs in open ocean, and in sea ice. Polarimetric modes (quad-pol, dual-pol, and single intensities) are also considered for comparison. Currently it is very difficult to detect icebergs less than 120 metres in length using this approach, due to the scattering mechanisms of icebergs and sea ice being very similar. However, it was possible to obtain detection performances of the OPD and PWF, which both showed a Probability of Detection (PF) of 0.99 when the Probability of False Alarms (PF) was set to 10-5 in open ocean. Similarly, in dual pol images, the PWF gave the best performance with a PD of 0.90. Results in sea ice found eig3 to be the best detector with a PD of 0.90 while in dual-pol mode, iDPolRAD gave a PD of 0.978. Single intensity detector performance found the HV channel gave the best detection with a PD of 0.99 in open ocean and 0.87 in sea ice. In the previous two approaches, only satellite data is used. However, in chapter six, data from a ground-based Ku-band Gamma Portable Radio Interferometer (GPRI) instrument is introduced, providing images that are synchronised with the satellite acquisitions. In this approach, the same six detectors are applied to three multitemporal RADARSAT-2 quad pol C-band SAR images on icebergs in Kongsfjorden, Svalbard to evaluate the detection performance within a changing fjord environment. As before, we also make use of Cloude-Pottier entropy, eig1 and eig3. Finally, we evaluate the target-to-clutter ratio (TCR) of the icebergs and check for correlation between the backscattering coefficients and the iceberg dimension. The results obtained from this thesis present original additions to the literature that contributes to the understanding of PolSAR in cryospheric applications. Although these methods are applied to PolSAR and ground-based radar on vessels, they have been applied for the first time on icebergs in this thesis. To summarise, the main findings are that icebergs cannot be represented as single or partial targets, but they do exhibit a collection of single targets clustered together. This result leads to the fact that entropy is not sufficient as a parameter to detect icebergs. Detection results show that the OPD and PWF detectors perform best in an open ocean setting and using quad-pol mode. These results are degraded in dual-pol mode, while single intensity detection is best in the HV cross polarisation channel. When these detectors are applied to the RADARSAT-2 in Svalbard, the OPD and PWF detectors also perform best with PD values ranging between 0.5-0.75 for a PF of 0.01-0.05. However, the sea ice present in the fjord degrades performance across all detectors. Correlation plots with iceberg size show that a regression is not straightforward and Computer Vision methodologies may work best for this.

Published

2022

28. The Polar Mediterranean Imaginary. A Renewed Paradigm by Vilhjalmur Stefansson

Author

Santiago Villalobos Dantas

Subjects

arctic, braudel, castoriadis, mediterranean, polar, pytheas, vilhjalmur stefansson, imaginary, transpolar, Social sciences (General), H1-99, Human ecology. Anthropogeography, GF1-900

Abstract

Southern social imaginaries have typically conceived of the North as a frozen and inhospitable area, depriving it of much interest. However, during the first part of the 20th century, the anthropologist and explorer Vilhjalmur Stefansson unveiled many mysteries about the Arctic. Throughout his life and writings, he tried to modify many inaccurate and now old-fashioned imaginings and imaginaries about the Arctic. The concept of the Polar Mediterranean Imaginary was thus proposed by him, whereby the Arctic region could be seen as a place similar to the Mediterranean region, i.e., an important socio-cultural, economic and political hub. Past and present events (e.g., global conflicts, scientific and technologic developments) contribute also to determining how the Arctic is shaped and understood today. The contemporary twin trends of globalization and climate change are making the North more and more globally connected and interconnected, especially through the rise of transpolar routes, which represent an opportunity for the affirmation of the Arctic’s central role, precisely along the lines envisioned by Vilhjalmur Stefansson and his Polar Mediterranean Imaginary one hundred years ago.

Published

2024

29. Long days and long nights: an integrative study reveals survival strategies of an Antarctic diatom during the cold and dark polar winter.

Author

Morgan‐Kiss, Rachael

Subjects

*DIATOMS, *WINTER, *CIRCADIAN rhythms, *AQUATIC habitats

Abstract

This article is a Commentary on Joli et al. (2024), 241: 2193–2208. [ABSTRACT FROM AUTHOR]

Published

2024

30. Properties of Convex Lattice Sets under the Discrete Legendre Transform

Author

Tingting He, Ruifeng Yue, and Lin Si

Subjects

convex lattice sets, polar, discrete Legendre transform, discrete Mahler product, Mathematics, QA1-939

Abstract

The discrete Legendre transform is a powerful tool for analyzing the properties of convex lattice sets. In this paper, for t>0, we study a class of convex lattice sets and establish a relationship between vertices of the polar of convex lattice sets and vertices of the polar of its t−dilation. Subsequently, we show that there exists a class of convex lattice sets such that its polar is itself. In addition, we calculate upper and lower bounds for the discrete Mahler product of a class of convex lattice sets.

Published

2024

31. How to Prepare Your Samples for Polar Metabolite Analysis?

Author

Want, Elizabeth, Ivanisevic, Julijana, editor, and Giera, Martin, editor

Published

2023

32. Waveform and Source Analyses

Author

Izadian, Afshin and Izadian, Afshin

Published

2023

33. Sociopoétique de la figure de l'enquêteur dans le polar d'Afrique francophone

Author

Adama Togola

Subjects

littérature africaine, polar, sociopoétique, culture populaire, discours, French literature - Italian literature - Spanish literature - Portuguese literature, PQ1-3999, Social Sciences

Abstract

L’enjeu principal de cette réflexion consiste à proposer une lecture sociopoétique de la figure de l’enquêteur dans le polar d’Afrique francophone, en partant de l’hypothèse que celle-ci apparaît comme l’un des moyens privilégiés de contestation sociale, politique et culturelle. De l’enquêteur déçu, intermédiaire au forban hilare, l’on remarque que le polar d’Afrique francophone se caractérise par le dédoublement de l’enquête, la réécriture du passé et la convocation de divers types de savoirs qui constituent le renouvellement du discours littéraire africain. Cette perspective sociopoétique vise ainsi à montrer que l’intrigue policière relève d’abord d’une énonciation littéraire qui tente de dire et comprendre le fonctionnement social et culturel des sociétés africaines contemporaines

Published

2024

34. Spatial and temporal control of lysis by the lambda holin

Author

Jesse Cahill, Ashley Holt, Matthew Theodore, Russell Moreland, Chandler O'Leary, Cody Martin, Kelsey Bettridge, Jie Xiao, and Ry Young

Subjects

holes, rafts, lysis, polar, thioflavin-T, plasmolysis, Microbiology, QR1-502

Abstract

ABSTRACT The infection cycle of phage λ terminates in lysis mediated by three types of lysis proteins, each disrupting a layer in the bacterial envelope: the S105 holin, the R endolysin, and the Rz/Rz1 spanin complex targeting the inner membrane, cell wall or peptidoglycan, and the outer membrane, respectively. Video microscopy has shown that in most infections, lysis occurs as a sudden, explosive event at a cell pole, such that the initial product is a less refractile ghost that retains rod-shaped morphology. Here, we investigate the molecular basis of polar lysis using time-lapse fluorescence microscopy. The results indicate that the holin determines the morphology of lysis by suddenly forming two-dimensional rafts at the poles about 100 s prior to lysis. Given the physiological and biochemical similarities between the lambda holin and other class I holins, dynamic redistribution and sudden concentration may be common features of holins, probably reflecting the fitness advantage of all-or-nothing lysis regulation.IMPORTANCEIn this study, we use fluorescent video microscopy to track -green fluorescent protein (GFP)-labeled holin in the minutes prior to phage lysis. Our work contextualizes prior genetic and biochemical data, showing when hole formation starts and where holin oligomers form in relation to the site of lytic rupture. Furthermore, prior work showed that the morphology of lambda-infected cells is characterized by an explosive event starting at the cell pole; however, the basis for this was not clear. This study shows that holin most often oligomerizes at cell poles and that the site of the oligomerization is spatially correlated with the site of lytic blowout. Therefore, the holin is the key contributor to polar lysis morphology for phage lambda.

Published

2024

35. Analisis Kinerja Jaringan 5G dengan Pengkodean QC-LDPC dan Polar

Author

RENI DYAH WAHYUNINGRUM, MELINDA BR GINTING, KHOIRUN NI’AMAH, and SOLICHAH LARASATI

Subjects

5g, bpsk, ofdm, polar, qc-ldpc, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

ABSTRAK Jaringan 5G telah menjadi penanda penting dalam evolusi teknologi nirkabel yang menawarkan kecepatan dan kinerja yang luar biasa untuk memenuhi kebutuhan konektivitas yang semakin meningkat. Dalam jaringan 5G, pengkodean kanal merupakan elemen penting dalam memastikan pengiriman data yang handal dan efisien. Penelitian ini mengkaji sistem 5G pada frekuensi 26 GHz dan bandwidth 200 MHz menggunakan Orthogonal Frequency Division Multiplexing (OFDM) dengan ukuran Fast Fourier Transform (FFT) sebesar 256 dan modulasi Binary Phase Shift Keying (BPSK). Penelitian ini mengevaluasi perbandingan penambahan channel coding yaitu QC-LDPC dan polar codes. Performansi QC-LDPC codes pada BER sebesar 10-4 dapat dicapai dengan SNR 𛾠= 17 ð‘‘ðµ untuk kode QC-LDPC dan SNR 𛾠= 15 ð‘‘ðµ untuk polar codes. Hasil menunjukkan bahwa penambahan channel coding mampu menangkap diversity order kedua dan performansi polar codes lebih baik dibandingkan dengan QC-LDPC. Kata kunci: 5G, BPSK, OFDM, Polar, QC-LDPC  ABSTRACT The 5G network has become a significant milestone in the evolution of wireless technology, offering remarkable speed and performance to meet the growing demands of connectivity. In the 5G network, channel coding is a crucial element to ensure reliable and efficient data transmission. This research evaluate the 5G network operating at a frequency of 26 GHz and a bandwidth of 200 MHz, utilizing Orthogonal Frequency Division Multiplexing (OFDM) with an Fast Fourier Transform (FFT) size of 256 and Binary Phase Shift Keying (BPSK) modulation. The research evaluates the comparison of adding channel coding using QC-LDPC and polar codes. The performance of QC-LDPC codes at a bit error rate (BER) of 10-4 can be achieved with an SNR of 𛾠= 17 ð‘‘ðµ for QC-LDPC codes and an SNR of 𛾠= 15 ð‘‘ðµ for polar codes. The results shows the addition of channel coding is capable of capturing second-order diversity, and polar codes outperforms QC-LDPC in terms of performances. Keywords: 5G, BPSK, OFDM, Polar, QC-LDPC

Published

2024

36. Quantifying zoobenthic blue carbon storage across habitats within the Arctic’s Barents Sea

Author

Terri A. Souster, David K. A. Barnes, Raul Primicerio, and Lis Lindal Jørgensen

Subjects

blue carbon, nature-based solutions, polar, Arctic, benthic, climate change, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

IntroductionThe Arctic sea ice extent in September (when it is at its lowest) has declined 13% Q10 per decade, and the Arctic Ocean is becoming a more Atlantic-influenced system. Rapid climate-forced changes are taking place in many high-latitude marine ecosystems. The Barents Sea is one such high-latitude shelf ecosystem, between approximately 70° and 80°N in the Norwegian Arctic. The purpose of the current study was to estimate zoobenthic blue carbon across multiple habitats within the Barents Sea (trough, basin, shelf, and shallows), potentially providing values to aid ecosystem-based management of these areas under future climate change scenarios.MethodWe tested this by capture and analysis of 947 high-resolution (each 405.7 × 340.6 mm, 12 MB, 5 megapixels) seabed images at 17 sites with latitudinal cline, linked to a collection of corresponding oceanographic data. Biotas within these images were identified to one of the 14 functional groups and the density was calculated. Mean stored carbon per individual was assigned by ash mass (AM) and ash-free dry mass (AFDM) of individuals caught within Agassiz trawl deployments at the same sites.ResultsTrough sites, except for one site (B16), have a low quantity of zoobenthic blue carbon compared with the shallow, shelf, and basin habitats.DiscussionThe results of a previous study focused entirely on trough habitats and are therefore difficult to scale up as the basis for a meaningful estimate of across-habitat zoobenthic blue carbon in the Barents Sea. Compared with the trough and the basin, the shelf and shallow habitats of the Barents Sea are also subjected to more trawling events through demersal fisheries and showed higher zoobenthic blue carbon stock values.

Published

2024

37. Le roman noir français et les marges rurales : modalités, enjeux et évolutions.

Author

Natacha Levet

Subjects

roman noir, polar, ruralité, genre, marges sociales, Communication. Mass media, P87-96

Abstract

Le cadre rural n’est pas si nouveau qu’on pourrait le croire dans les romans noirs français. Cependant, le genre explore depuis les années 2010 les territoires ruraux de manière spécifique, dans le sillage du country noir et du nature writing états-uniens. Il poursuit ainsi l’exploration des marges sociales et la relation des hommes à leur environnement naturel. Après une reconfiguration historique de l’apparition du monde rural dans le roman noir français, l’article envisagera le noir rural comme une nouvelle déclinaison romanesque des marges sociales, qui va bien au-delà d’une représentation mimétique. Articulant le pessimisme inhérent au genre et la vision décliniste du monde de la ruralité, le rural noir parvient cependant à transcender la marginalité pour en faire une forme d’ensauvagement revendiqué.

Published

2023

38. Les paradoxes fondateurs du country noir

Author

Benoît Tadié

Subjects

roman noir, polar, histoire culturelle, poétique des genres, marché éditorial, Communication. Mass media, P87-96

Abstract

Cet article a pour sujet les origines et la floraison, entre les années 1930 et 1960, de ce qu’on appelle aujourd’hui le country noir. Situant ce genre dans le sillage de William Faulkner et Erskine Caldwell et dans le contexte d’un roman noir américain qu’on a trop souvent tendance à réduire au thème hammetto-chandlerien de la « ville pourrie », il en analyse les principales options narratives ainsi que les caractéristiques matérielles, dans une perspective à la fois esthétique et sociologique. Après avoir relié l’essor du genre à celui du livre de poche (paperback) dans les années 1950, il s’interroge sur les raisons de son succès, qui apparaît paradoxal à l’heure où la société américaine – et les lecteurs de paperbacks avec elle – semble se reconstruire autour d’un nouveau paradigme essentiellement urbain, le white collar (col blanc), aux antipodes des criminels solitaires du Sud ou de l’Ouest qui peuplent le country noir.

Published

2023

39. Élucider l’écocide : le pétropolar gabonais à l’heure de l’extractivisme

Author

Anne-Laure Bonvalot

Subjects

polar, Afrique, environnement, écopolar, pétropolar, Communication. Mass media, P87-96

Abstract

Cet article s’intéresse au roman Petroleum de la romancière helvéto-gabonaise Bessora publié en 2004. En envisageant ce texte à travers le prisme de la catégorie générique du pétropolar, l’étude cherche à appréhender l’écopolar pétrolier dans toutes ses spécificités narratologiques et poétiques, afin de cerner la forme particulière de justice environnementale que ce type de fiction prétend formuler.

Published

2023

40. The significance of recent glacial history for the limno-terrestrial microfauna in Trygghamna (Svalbard, High Arctic).

Author

Lukashanets, Dzmitry, Petkuvienė, Jolita, and Barisevičiūtė, Rūta

Subjects

TARDIGRADA, GLACIAL melting, ALPINE glaciers, ATMOSPHERIC deposition, CLIMATE change, NEMATODES, ROTIFERA, TWENTIETH century

Abstract

The diversity and spatial distribution of microscopic invertebrates in the Arctic have yet to be studied in detail. Knowledge of this is especially important in the context of glacier shrinking, one of the most visible environmental consequences of climate change. To understand how time since deglaciation shapes the communities of limno-terrestrial microfauna, we analysed samples of moss collected during the summer of 2021 in forefields of Trygghamna (Svalbard), where glaciers thought to have started to recede at the beginning of the twentieth century. We estimated the taxonomic and trophic composition and abundance of all microfauna groups (with a specific focus on little-known bdelloid rotifers) in two areas, which correspond to the different stages of the glacial retreat. The impact of 14 other environmental parameters (distance from the sea, moisture, moss structural complexity, soil nutrient, and isotopic composition) was considered. Thirty-seven microfauna taxa were found, wherein Dorylaimida nematodes (Dorylaimida, Nematoda) dominated both in frequency (present at all sites) and abundance (50 ± 21% from all individuals). Less prevalent bdelloid rotifers (Bdelloidea, Rotifera) were followed by tardigrades (Tardigrada), which, in contrast to others, were more abundant in the later deglaciated area. In general, environmental parameters explained 81.8% of the microfauna distribution. Time since deglaciation was the most significant factor (9.5%). Among the variables that act at a fine scale, the most important were moisture in the habitat (6%), presence of ground in the samples (4%), and δ15N (4%). The moss structural complexity did not have a significant effect, and neither did most of the variables characterising soil nutrient and isotopic composition. However, some variability was observed for different lower taxa. [ABSTRACT FROM AUTHOR]

Published

2023

41. Diversity of Cyanobacteria and Algae in Biological Soil Crusts of the Northern Ural Mountain Region Assessed through Morphological and Metabarcoding Approaches.

Author

Patova, Elena, Novakovskaya, Irina, Gusev, Evgeniy, and Martynenko, Nikita

Subjects

*CRUST vegetation, *BIOTIC communities, *GENETIC barcoding, *CYANOBACTERIA, *NITROGEN fixation, *CHRYSOPHYCEAE, *ALGAE, *MOUNTAINS, *FOSSIL microorganisms

Abstract

In mountain regions, biological soil crusts (BSCs) provide essential ecological services by being involved in primary production and nitrogen fixation. Eukaryotic algae and cyanobacteria are important photosynthetic components of these unique cryptogamic communities. Here, we present an overview of the eukaryotic and prokaryotic diversity of such phototrophs in BSCs in the mountain tundra of the northern Ural Mountains. Such assessment is based on morphological surveys and the first metabarcoding analysis in the region. In total, 166 taxa of Cyanobacteria and 256 eukaryotic algae (including Euglenophyta, Ochrophyta, Dinophyta, Bacillariophyta, Chlorophyta, and Charophyta) were identified. For the first time, 86 taxa new to the BSCs of the high-mountain belt of the region were discovered. Considering species composition, Cyanobacteria and Chlorophyta are the most abundant taxa in all the analyzed BSCs. The genera Nostoc, Coccomyxa, Chlamydomonas, Leptolyngbya, Stenomitos, Pycnacronema, Stigonema, and Eunotia had the highest number of taxonomic units. These groups shape the structure, function, and ecology of the BSC communities in the studied region. Our results show that BSCs in the tundras of the Ural Mountains have a high active and passive biodiversity of terrestrial cyanobacteria and algae. Both implemented methods resulted in similar results with a comparable number of algae and cyanobacteria species per sample. Metabarcoding could be implemented in future in the region to accurately screen photosynthetic organisms in BSCs. [ABSTRACT FROM AUTHOR]

Published

2023

42. Antinorms and Self-Polar Polyhedra.

Author

Makarov, M. S.

Subjects

*DUALITY theory (Mathematics), *UNIT ball (Mathematics), *POLYHEDRA, *FUNCTIONALS, *CONES, *POLYHEDRAL functions, *FUNCTIONAL analysis

Abstract

Antinorms (homogeneous concave functionals on a cone) have many applications in functional analysis, matrix theory, etc. Some duality theory results, like Young's inequality, the Fenchel–Moreau theorem, and others, carry over to antinorms. The essential difference is however the existence of infinitely many nontrivial self-dual antinorms, whereas only the Euclidean norm has this property among convex norms. The unit ball of a self-dual antinorm is a self-polar set (i.e., a set with its polar). The complete classification of self-dual antinorms in is available which includes piecewise-linear (polyhedral) antinorms. The existence of these antinorms in higher dimensions was stated as an open problem in 2021. This article presents some construction of polyhedral antinorms in for . The unit balls of the antinorms (i.e., self-polar infinite polyhedra) can have arbitrary prescribed numbers of vertices. [ABSTRACT FROM AUTHOR]

Published

2023

43. Large-scale culturing of Neogloboquadrina pachyderma, its growth in, and tolerance of, variable environmental conditions.

Author

WestgÅrd, Adele, Ezat, Mohamed M, Chalk, Thomas B, Chierici, Melissa, Foster, Gavin L, and Meilland, Julie

Subjects

*CALCITE, *ASEXUAL reproduction, *OCEAN acidification, *SEAWATER composition, *HYDROGRAPHY, *CALCIUM carbonate, *MARINE ecology

Abstract

The planktic foraminifera Neogloboquadrina pachyderma is a calcifying marine protist and the dominant planktic foraminifera species in the polar oceans, making it a key species in marine polar ecosystems. The calcium carbonate shells of foraminifera are widely used in palaeoclimate studies because their chemical composition reflects the seawater conditions in which they grow. This species provides unique proxy data for past surface ocean hydrography, which can provide valuable insight to future climate scenarios. However, little is known about the response of N. pachyderma to variable and changing environmental conditions. Here, we present observations from large-scale culturing experiments where temperature, salinity and carbonate chemistry were altered independently. We observed overall low mortality, calcification of new chambers and addition of secondary calcite crust in all our treatments. In-culture asexual reproduction events also allowed us to monitor the variable growth of N. pachyderma 's offspring. Several specimens had extended periods of dormancy or inactivity after which they recovered. These observations suggest that N. pachyderma can tolerate, adapt to and calcify within a wide range of environmental conditions. This has implications for the species-level response to ocean warming and acidification, for future studies aiming to culture N. pachyderma and use in palaeoenvironmental reconstruction. [ABSTRACT FROM AUTHOR]

Published

2023

44. Human‐induced salinity changes impact marine organisms and ecosystems.

Author

Röthig, Till, Trevathan‐Tackett, Stacey M., Voolstra, Christian R., Ross, Cliff, Chaffron, Samuel, Durack, Paul J., Warmuth, Laura M., and Sweet, Michael

Subjects

*MARINE ecology, *TROPHIC cascades, *SEAWATER salinity, *MARINE organisms, *SALINITY, *OCEAN currents, *HABITAT modification, *BIOGEOCHEMICAL cycles, *CORAL communities

Abstract

Climate change is fundamentally altering marine and coastal ecosystems on a global scale. While the effects of ocean warming and acidification on ecology and ecosystem functions and services are being comprehensively researched, less attention is directed toward understanding the impacts of human‐driven ocean salinity changes. The global water cycle operates through water fluxes expressed as precipitation, evaporation, and freshwater runoff from land. Changes to these in turn modulate ocean salinity and shape the marine and coastal environment by affecting ocean currents, stratification, oxygen saturation, and sea level rise. Besides the direct impact on ocean physical processes, salinity changes impact ocean biological functions with the ecophysiological consequences are being poorly understood. This is surprising as salinity changes may impact diversity, ecosystem and habitat structure loss, and community shifts including trophic cascades. Climate model future projections (of end of the century salinity changes) indicate magnitudes that lead to modification of open ocean plankton community structure and habitat suitability of coral reef communities. Such salinity changes are also capable of affecting the diversity and metabolic capacity of coastal microorganisms and impairing the photosynthetic capacity of (coastal and open ocean) phytoplankton, macroalgae, and seagrass, with downstream ramifications on global biogeochemical cycling. The scarcity of comprehensive salinity data in dynamic coastal regions warrants additional attention. Such datasets are crucial to quantify salinity‐based ecosystem function relationships and project such changes that ultimately link into carbon sequestration and freshwater as well as food availability to human populations around the globe. It is critical to integrate vigorous high‐quality salinity data with interacting key environmental parameters (e.g., temperature, nutrients, oxygen) for a comprehensive understanding of anthropogenically induced marine changes and its impact on human health and the global economy. [ABSTRACT FROM AUTHOR]

Published

2023

45. Physiological and metabolic characteristics of polar diatoms : insights into cold adaptation and potential for biotechnology

Author

Coffin, Sam, Smith, Alison, Clark, Melody, and Davey, Matthew

Subjects

Polar, Antarctica, Diatoms, Physiology, Thermal tolerance, B12

Abstract

The polar regions represent two of the most extreme environments on Earth, with sub-zero temperatures, sustained light in the summer and complete darkness in the winter. Marine diatoms are prevalent in the polar oceans, significantly contributing to primary productivity and ecosystem functioning. They are characterized by having optimal growth at low temperatures (< 10°C) and have developed various genetic adaptations to cope with these extreme environments. The polar regions, however, are experiencing unprecedented environmental changes because of regional climate change. We currently lack detailed knowledge on polar diatom ecophysiology and metabolism, which means we do not know how these species may be impacted by future environmental changes. One barrier to our understanding of polar diatoms is the availability of living strains for experimental study. The number of polar diatom strains in public collections is low and of those that are available, many have been kept in culture for many decades. Hence, there is an urgent requirement to isolate new environmental strains that have not been exposed to artificial conditions for many decades and also to increase the number and diversity of species available. In this project I conducted fieldwork in Antarctica to isolate several new Antarctic strains and used these alongside Arctic and Antarctic strains from culture collections to study whether physiological and metabolic characteristics are conserved between diatoms from the two regions. My studies focused primarily on the response to temperature with the aim of predicting the effects of future climate change on polar diatom physiology and metabolism. The project also aimed to identify potential candidate strains for biotechnological exploitation. Conducting fieldwork on the Western Antarctic Peninsula, I isolated 36 strains encompassing 12 different species of polar diatoms. These have been genetically and morphologically identified and representatives deposited in the Culture Collection for Algae and Protozoa. I investigated the ecophysiology of two diatom species found in both polar regions, Fragilariopsis cylindrus and Porosira glacialis. My results showed how the thermal tolerance differed between Arctic and Antarctic strains with optimal growth temperatures of the Arctic F. cylindrus being 3°C higher than the Antarctic strain. On the contrary, P. glacialis from the Arctic had an optimal growth temperature 5.5°C lower than the Antarctic strain. In addition, the thermal tolerance of newly isolated strains of F. cylindrus was investigated and found to be similar to the laboratory strain except for one, which was able to grow at 12°C. The difference in temperature tolerance between the Arctic and Antarctic F. cylindrus strains led me to investigate the vitamin B12 requirements of these strains. Previously it had been suggested that there are links between B12 dependency and temperature tolerance, and the Antarctic F. cylindrus was previously found to be B12 independent. My results demonstrated that all three Arctic F. cylindrus strains had an obligate requirement for exogenous vitamin B12, whereas all three Antarctic strains did not. Further investigation failed to isolate and identify the B12-independent methionine synthase gene (METE) in Arctic strains, but this gene was identified in Antarctic strains. In contrast, the B12-dependent methionine synthase gene (METH) was identified and partially sequenced in all strains. Several single nucleotide polymorphisms were identified in the Arctic strains which are hypothesised to be non-deleterious. These results provide a potential explanation for the B12 dependency in Arctic isolates, and reasons for how this might have arisen are considered. Lastly, polar diatoms are thought to offer a unique resource for biotechnology offering potentially novel metabolites or increased biomass production during winter months when temperatures decrease. Pilot experiments indicate that there is no advantage in growth over a temperate strain during the winter months in the UK, but further work focusing on optimisation is needed.

Published

2021

46. Invaders in waiting? Non-equilibrium in Southern Hemisphere seaweed distributions may lead to underestimation of Antarctic invasion potential

Author

Laeseke, Philipp, Martínez, Brezo, Mansilla, Andrés, and Bischof, Kai

Subjects

barrier, bioinvasions, ecological niche modelling, intertidal, marine, niche shifts, polar, South Shetland Islands, species distribution modelling

Abstract

Bioinvasions pose a major threat to global biodiversity. Correlative Ecological Niche Models (ENMs) can be a valuable tool to identify invaders and invasion sites. However, in cases when species are in non-equilibrium with their native environment (i.e. do not fill their niche), correlative approaches have limited power and invasions lead to shifts of the realized niche. In recent years, several new seaweed species have been reported in Antarctica. It is impossible to unequivocally identify which of these species are truly non-natives, however, here, we provide literature-based evidence that seaweed species have been introduced to Antarctica. Under this assumption, we reconstruct pre- and post-introduction niches of these species, calculate relative niche sizes and overlap between pre-Antarctic and Antarctic sites, and evaluate increase in niche size due to inclusion of Antarctic habitats. In seven species, the absolute occupied temperature range is dramatically enlarged, with minimum sea surface temperature (SST) being 2-5°C lower than in the pre-Antarctic ranges. In all species except one, summer SST is 5-20°C lower than in the pre-Antarctic ranges. As a result, several species’ niches increase dramatically. We hypothesize that species from the Southern Hemisphere do not cover their whole abiotically suitable range due to lack of settling substrate in cold-water regions while species from the Northern Hemisphere tend to fill their niches to a greater degree due to higher connectivity between tropic and polar regions along coastlines. Thus, while correlative ENMs for Northern Hemisphere species will probably be successful in predicting Antarctica as a suitable habitat, such models will likely be insufficient to do so for Southern Hemisphere species. From a precautionary standpoint, we argue that not only species from climatically matching regions pose an invasion threat for Antarctica, but that also species from other, climatically non-matching regions, might be potential invaders. In light of higher connectivity of the Antarctic continent with other continents this finding significantly increases invasion risk for Antarctica.

Published

2021

47. Understanding past and future changes in northern Fennoscandian snow cover

Author

Vignols, Rebecca Marianne, Marshall, Gareth, and Rees, Gareth

Subjects

551.57, snow, climate change, arctic, snow cover, remote sensing, climate modelling, regional climate modelling, polar, northern fennoscandia, MODIS, Khibiny, Khibiny Mountains, Murmansk Oblast, WRF, Weather Research and Forecasting model, ground truthing, sensitivity study, model validation, ERA-Interim, field work, British Antarctic Survey, Scott Polar Research Institute, Kola Peninsula

Abstract

In this project, a combination of field measurements, remote sensing data and regional climate model outputs were used to study recent and projected future changes in Northern Fennoscandian snow cover. The research questions considered in this thesis are: What are the uncertainties in remote sensing and climate modelling datasets used in snow studies? How has snow cover been changing since the 1960s and how will it change over the next century, at a regional level over Northern Fennoscandia? Field measurements were made over two field seasons in the Khibiny Mountains in Arctic Russia. This ground data was used to gain an understanding of snow cover behaviour in the Western Mountain Regions (WMR) of the Kola Peninsula and to ground-truth 500 m resolution satellite data (MODIS: Moderate Resolution Imaging Spectroradiometer) snow products. The overall root mean square error (RMSE) for both MODIS instruments was found to be less than 10 %. The ground-truthed MODIS snow product was then used with station data to analyse past changes in snow cover in the WMR over the past 16 years. Though there is high inter-annual and spatial variability in the long-term snow cover trends in the WMR, overall, the duration of the snow cover season has increased at lower elevations and decreased at higher elevations. Field measurements and MODIS data were used in the sensitivity analysis of the Weather Research and Forecasting (WRF) regional climate model. Twelve experiments with different physics parameterisations were run over the first field season, and a statistical scores evaluation was undertaken to determine the optimised parameter setup for modelling snow in the region. Three CMIP5 (Coupled Model Intercomparison Project 5) models were used to force WRF in historical (1990 - 1999) and two future climate (2090 - 2099) emission scenarios over Northern Fennoscandia. Outputs from the historical runs were compared to data from 10 stations across Northern Fennoscandia in order to further validate WRF. WRF makes excellent temperature estimates, with a mean bias in the yearly mean temperature outputs of the runs of -1.89 °C. The precipitation outputs are less accurate with values often higher than observations, especially for extreme precipitation events (CMIP5 ‘ensemble’ mean RMSE of 24.0 mm for 20 + mm precipitation events). Finally, the future runs were compared to historical runs to study projected future changes in temperature, precipitation, snowfall and snow cover. The three models give a range of different future predictions for regional climate change over Northern Fennoscandia. However, all CMIP5 models agree that in both emission scenarios mean snow cover duration will be lower over 2090 to 2099 than it was between 1990 and 1999. Importantly, changes in temperature, precipitation and snowfall are all higher, and snow cover is most impacted, in the higher emission scenario. RCP 8.5 consistently sees a higher decrease in solid precipitation than RCP 4.5 at all stations, and for all models and seasons, for example. Thus, aiming to reduce greenhouse gas emissions is still crucial to reducing anthropogenic impact on Northern Fennoscandian snow.

Published

2020

48. Sixty years of glacial retreat behind Palmer Station, Antarctica.

Author

CIMINO, MEGAN A., GOERKE, MARISSA A., and BENT, SHAVONNA

Subjects

ICE sheets, GLOBAL Positioning System

Abstract

This article, published in Antarctic Science, presents a 60-year record of glacial retreat behind Palmer Station in Antarctica. The study used various methods, including historical aerial imagery and GPS measurements, to determine the location of the glacier terminus over time. The results show that the glacier has been in retreat since before the station was established, with an average retreat rate of 7.7 meters per year. The study highlights the ecological impacts of glacial melt, such as changes in water column characteristics and impacts on the food web. The authors suggest that the rapid glacial retreat observed in this study is not unique and that it provides an opportunity to study the impacts of climate change on Antarctic ecosystems. [Extracted from the article]

Published

2023

49. Direct atmospheric cryogenic carbon capture in cold climates

Author

Sandra K.S. Boetcher, Jennifer B. Perskin, Yanir Maidenberg, Matthew J. Traum, and Ted von Hippel

Subjects

Arctic/antarctica, Polar, cryogenics, CO2 desublimation, CO2 antisublimation, Direct-air capture, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Fossil fuel burning and land clearing have significantly increased atmospheric carbon dioxide (CO2) levels from a preindustrial concentration of about 280 ppm to over 420 ppm, leading to a rise in global temperatures and ocean acidity. Although there exist both natural ways to capture carbon, such as trees, oceans, and wetlands, and engineered approaches, such as capturing CO2 at the source of flue gas, even under extremely optimistic scenarios, additional methods to capture carbon directly from the atmosphere are needed. This account provides a critical examination of the concept, as well as a review of pioneering early-stage research pertaining to cryogenic CO2 capture plants designed for deployment in extremely cold environments, such as northern Canada, Siberia, or Antarctica. Based on theoretical analysis, such a plant could desublimate CO2 at an energy cost of around 30 GJ/tonne CO2, which is about an order of magnitude higher than chemical-based approaches. With further research and technological advancements, the cryogenic direct-air capture (DAC) of CO2 could potentially become economically feasible.

Published

2023

50. PIN structures shed light on their mechanism of auxin efflux.

Author

Joshi, Chitra and Napier, Richard

Subjects

*AUXIN, *PERSONAL identification numbers, *ATOMIC structure, *PLANT physiology, *PROTEIN structure

Abstract

Polar auxin transport is a quintessential feature of higher plant physiology and it has been known for many years that some of the primary drivers of polar auxin transport are the PIN-formed (PIN) auxin efflux proteins. Formative research established many key biochemical features of the transport system and discovered inhibitors such as 1-naphthylphthalamic acid (NPA), but the mechanism of action of PINs has remained elusive. This changed in 2022 with the publication of high-resolution structures of the membrane-spanning domains of three PIN proteins. The atomic structures and associated activity assays reveal that PINs use an elevator mechanism to transport auxin anions out of the cell. NPA was shown to be a competitive inhibitor that traps PINs in their inward-open conformation. The secrets of the hydrophilic cytoplasmic loop of PIN proteins remain to be discovered. [ABSTRACT FROM AUTHOR]

Published

2023