Your search keyword '"EXTREME ENVIRONMENTS"' showing total 105 results

1. Discovering tungsten-based composites as plasma facing materials for future high-duty cycle nuclear fusion reactors.

Author

Marchhart, Trevor, Hargrove, Chase, Marin, Alexandru, Schamis, Hanna, Saefan, Ashrakat, Lang, Eric, Wang, Xing, and Allain, Jean Paul

Subjects

*FUSION reactors, *NUCLEAR reactions, *RADIATION damage, *EXTREME environments, *COMPOSITE materials, *THERMAL properties

Abstract

Despite of excellent thermal properties and high sputtering resistance, pure tungsten cannot fully satisfy the requirements for plasma facing materials in future high-duty cycle nuclear fusion reactions due to the coupled extreme environments, including the high thermal loads, plasma exposure, and radiation damage. Here, we demonstrated that tungsten-based composite materials fabricated using spark-plasma sintering (SPS) present promising solutions to these challenges. Through the examination of two model systems, i.e., tungsten-zirconium composite for producing porous tungsten near the surface and dispersoid-strengthened tungsten, we discussed both the strengths and limitations of the SPS-fabricated materials. Our findings point towards the need for future studies aimed at optimizing the SPS process to achieve desired microstructures and effective control of oxygen impurities in the tungsten-based composite materials. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of salinity on scytonemin yield in endolithic cyanobacteria from the Atacama Desert.

Author

Casero, María Cristina, Herrero, María Ángeles, De la Roche, Juan Pablo, Quesada, Antonio, Velázquez, David, and Cirés, Samuel

Subjects

*CYANOBACTERIA, *EXTREME environments, *SALINITY, *DESERTS, *MICROBIAL communities

Abstract

Cyanobacteria inhabiting extreme environments constitute a promising source for natural products with biotechnological applications. However, they have not been studied in-depth for this purpose due to the difficulties in their isolation and mass culturing. The Atacama Desert suffers one of the highest solar irradiances that limits the presence of life on its hyperarid core to endolithic microbial communities supported by cyanobacteria as primary producers. Some of these cyanobacteria are known to produce scytonemin, a UV-screening liposoluble pigment with varied biotechnological applications in cosmetics and other industries. In this work we carried out a strain selection based on growth performance among 8 endolithic cyanobacteria of the genera Chroococcidiopsis, Gloeocapsa and Gloeocapsopsis isolated from non-saline rocks of the Atacama Desert. Then we investigated the influence of NaCl exposure on scytonemin production yield. Results in the selected strain (Chroococcidiopsis sp. UAM571) showed that rising concentrations of NaCl lead to a growth decrease while triggering a remarkable increase in the scytonemin content, reaching maximum values at 20 g L−1 of NaCl over 50-fold higher scytonemin contents than those obtained without NaCl. Altogether, these findings point out to cyanobacteria from the Atacama Desert as potentially suitable candidates for pilot-scale cultivation with biotechnological purposes, particularly to obtain scytonemin. [ABSTRACT FROM AUTHOR]

Published

2024

3. Biodiversity patterns of the coral reef cryptobiota around the Arabian Peninsula.

Author

Villalobos, Rodrigo, Aylagas, Eva, Pearman, John K., Curdia, Joao, Coker, Darren, Bell, Alyssa Clothilde, Brown, Shannon D., Rowe, Katherine, Lozano-Cortés, Diego, Rabaoui, Lotfi J., Marshell, Alyssa, Qurban, Mohammad, Jones, Burton, Berumen, Michael Lee, and Carvalho, Susana

Subjects

*CORAL reefs & islands, *CORALS, *CYTOCHROME oxidase, *EXTREME environments, *ECOSYSTEM management, *CORAL bleaching

Abstract

The Arabian Peninsula accounts for approximately 6% of the world's coral reefs. Some thrive in extreme environments of temperature and salinity. Using 51 Autonomous Reef Monitoring Structure (ARMS), a standardized non-destructive monitoring device, we investigated the spatial patterns of coral reef cryptobenthic diversity in four ecoregions around the Arabian Peninsula and analyzed how geographical and/or environmental drivers shape those patterns. The mitochondrial cytochrome c oxidase subunit I (COI) gene was used to identify Amplicon Sequence Variants and assign taxonomy of the cryptobenthic organisms collected from the sessile and mobile fractions of each ARMS. Cryptobenthic communities sampled from the two ecoregions in the Red Sea showed to be more diverse than those inhabiting the Arabian (Persian) Gulf and the Gulf of Oman. Geographic distance revealed a stronger relationship with beta diversity in the Mantel partial correlation than environmental distance. However, the two mobile fractions (106–500 µm and 500–2000 µm) also had a significant correlation between environmental distance and beta diversity. In our study, dispersal limitations explained the beta diversity patterns in the selected reefs, supporting the neutral theory of ecology. Still, increasing differences in environmental variables (environmental filtering) also had an effect on the distribution patterns of assemblages inhabiting reefs within short geographic distances. The influence of geographical distance in the cryptofauna assemblages makes these relevant, yet usually ignored, communities in reef functioning vulnerable to large scale coastal development and should be considered in ecosystem management of such projects. [ABSTRACT FROM AUTHOR]

Published

2024

4. Genome-wide analysis to uncover how Pocillopora acuta survives the challenging intertidal environment.

Author

Poquita-Du, Rosa Celia, Huang, Danwei, and Todd, Peter A.

Subjects

*CORAL reef restoration, *CORALS, *SINGLE nucleotide polymorphisms, *ARTIFICIAL reefs, *EXTREME environments, *ECOLOGICAL engineering, *GENOME-wide association studies

Abstract

Characterisation of genomic variation among corals can help uncover variants underlying trait differences and contribute towards genotype prioritisation in coastal restoration projects. For example, there is growing interest in identifying resilient genotypes for transplantation, and to better understand the genetic processes that allow some individuals to survive in specific conditions better than others. The coral species Pocillopora acuta is known to survive in a wide range of habitats, from reefs artificial coastal defences, suggesting its potential use as a starter species for ecological engineering efforts involving coral transplantation onto intertidal seawalls. However, the intertidal section of coastal armour is a challenging environment for corals, with conditions during periods of emersion being particularly stressful. Here, we scanned the entire genome of P. acuta corals to identify the regions harbouring single nucleotide polymorphisms (SNPs) and copy number variations (CNVs) that separate intertidal colonies (n = 18) from those found in subtidal areas (n = 21). Findings revealed 74,391 high quality SNPs distributed across 386 regions of the P. acuta genome. While the majority of the detected SNPs were in non-coding regions, 12% were identified in exons (i.e. coding regions). Functional SNPs that were significantly associated with intertidal colonies were found in overrepresented genomic regions linked to cellular homeostasis, metabolism, and signalling processes, which may represent local environmental adaptation in the intertidal. Interestingly, regions that exhibited CNVs were also associated with metabolic and signalling processes, suggesting P. acuta corals living in the intertidal have a high capacity to perform biological functions critical for survival in extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

5. Unveiling microbial guilds and symbiotic relationships in Antarctic sponge microbiomes.

Author

Moreno-Pino, Mario, Manrique-de-la-Cuba, Maria F., López-Rodríguez, Marileyxis, Parada-Pozo, Génesis, Rodríguez-Marconi, Susana, Ribeiro, Catherine Gérikas, Flores-Herrera, Patricio, Guajardo, Mariela, and Trefault, Nicole

Subjects

*EXTREME environments, *AMMONIA-oxidizing archaebacteria, *BACTERIAL genomes, *AMMONIA-oxidizing bacteria, *GUILDS, *COLD adaptation

Abstract

Marine sponges host diverse microbial communities. Although we know many of its ecological patterns, a deeper understanding of the polar sponge holobiont is still needed. We combine high-throughput sequencing of ribosomal genes, including the largest taxonomic repertoire of Antarctic sponge species analyzed to date, functional metagenomics, and metagenome-assembled genomes (MAGs). Our findings show that sponges harbor more exclusive bacterial and archaeal communities than seawater, while microbial eukaryotes are mostly shared. Furthermore, bacteria in Antarctic sponge holobionts establish more cooperative interactions than in sponge holobionts from other environments. The bacterial classes that established more positive relations were Bacteroidia, Gamma- and Alphaproteobacteria. Antarctic sponge microbiomes contain microbial guilds that encompass ammonia-oxidizing archaea, ammonia-oxidizing bacteria, nitrite-oxidizing bacteria, and sulfur-oxidizing bacteria. The retrieved MAGs showed a high level of novelty and streamlining signals and belong to the most abundant members of the main microbial guilds in the Antarctic sponge holobiont. Moreover, the genomes of these symbiotic bacteria contain highly abundant functions related to their adaptation to the cold environment, vitamin production, and symbiotic lifestyle, helping the holobiont survive in this extreme environment. [ABSTRACT FROM AUTHOR]

Published

2024

6. Global tropical cyclone extreme wave height climatology.

Author

Grossmann-Matheson, Guisela, Young, Ian R., Meucci, Alberto, and Alves, Jose-Henrique

Subjects

*ROGUE waves, *TROPICAL cyclones, *CLIMATOLOGY, *STORMS, *EXTREME value theory, *CYCLONE tracking, *EXTREME environments

Abstract

A global study of extreme value (1 in 100-year return period) tropical cyclone generated waves is conducted across all tropical cyclone basins. The study uses a 1000 year tropical cyclone synthetic track database to force a validated parametric wave model. The resulting distributions of extreme significant wave height show that values in the North Atlantic and Western Pacific basins are the largest globally. This is partly due to the relative intensities and frequencies of occurrence of storms in these basins but also because the typical velocities of forward movement of storms are larger and hence can sustain the generation of larger waves. These larger values of velocity of forward movement tend to occur at higher latitudes. As a result, in both of these basins the largest extreme waves occur at higher latitudes than the maximum tropical cyclone winds. In all other tropical cyclone basins, storms tend to propagate more east–west and hence the maximum values of extreme significant wave height and wind speed occur at comparable latitudes. [ABSTRACT FROM AUTHOR]

Published

2024

7. An Antarctic lichen isolate (Cladonia borealis) genome reveals potential adaptation to extreme environments.

Author

Cho, Minjoo, Lee, Seung Jae, Choi, Eunkyung, Kim, Jinmu, Choi, Soyun, Lee, Jun Hyuck, and Park, Hyun

Subjects

*EXTREME environments, *GENOMES, *GENOMICS, *GENE families, *LICHENS, *NUCLEOTIDE sequencing

Abstract

Cladonia borealis is a lichen that inhabits Antarctica's harsh environment. We sequenced the whole genome of a C. borealis culture isolated from a specimen collected in Antarctica using long-read sequencing technology to identify specific genetic elements related to its potential environmental adaptation. The final genome assembly produced 48 scaffolds, the longest being 2.2 Mbp, a 1.6 Mbp N50 contig length, and a 36 Mbp total length. A total of 10,749 protein-coding genes were annotated, containing 33 biosynthetic gene clusters and 102 carbohydrate-active enzymes. A comparative genomics analysis was conducted on six Cladonia species, and the genome of C. borealis exhibited 45 expanded and 50 contracted gene families. We identified that C. borealis has more Copia transposable elements and expanded transporters (ABC transporters and magnesium transporters) compared to other Cladonia species. Our results suggest that these differences contribute to C. borealis' remarkable adaptability in the Antarctic environment. This study also provides a useful resource for the genomic analysis of lichens and genetic insights into the survival of species isolated from Antarctica. [ABSTRACT FROM AUTHOR]

Published

2024

8. Baseflow significantly contributes to river floods in Peninsular India.

Author

Sharma, Shailza and Mujumdar, P. P.

Subjects

*RAINFALL, *FLOODS, *DAM design & construction, *SOIL moisture, *EXTREME environments

Abstract

Extreme rainfall prior to a flood event is often a necessary condition for its occurrence; however, rainfall alone is not always an indicator of flood severity. Antecedent wetness condition of a catchment is another important factor which strongly influences the flood magnitudes. The key role of soil moisture in driving floods is widely recognized; however, antecedent conditions of deeper saturated zone may contribute to river floods. Here, we assess how closely the flood magnitudes are associated to extreme rainfall, soil moisture and baseflow in 70 catchments of Peninsular India for the period 1979–2018. Annual flood magnitudes have declined across most of the catchments. Effect of flow regulations is also assessed to understand the impact of human interventions on flood characteristics. Reservoir regulation has positive effect by reducing the flood peak and volume, whereas the duration of flood events has increased after the construction of dams. Baseflow exhibits similar patterns of trends as floods, whereas trends in rainfall and soil moisture extremes are weakly correlated with trends in flood magnitudes. Baseflow is found to be more strongly influencing the flood magnitudes than soil moisture at various time lags. Further analysis with event coincidence analysis confirms that baseflow has stronger triggering effect on river floods in Peninsular India. [ABSTRACT FROM AUTHOR]

Published

2024

9. Evaluation of building washing machines as an extreme environment for potentially pathogenic fungi.

Author

Zareshahrabadi, Zahra, Amirzadeh, Neda, Pakshir, Keyvan, Nasr, Reza, Mohammadi, Rasoul, and Zomorodian, Kamiar

Subjects

*WASHING machines, *EXTREME environments, *PATHOGENIC fungi, *SICK building syndrome, *MOLDS (Fungi), *YEAST fungi, *FUNGAL communities

Abstract

Washing machines are commonly used in households and are considered indispensable appliances for maintaining cleanliness and hygiene. Environmental conditions within household washing machines are ideal for fungal colonization, which may pose risks to human health and contribute to sick building syndrome. This study aimed to investigate the fungal species contamination in the building washing machines. A total of 50 building washing machines were swab-sampled at three locations: the detergent drawer, the inner and outer parts of the rubber door seal. The housekeeping conditions of these appliances were assessed through a questionnaire. The isolated fungi were identified using standard mycological diagnostic procedures and molecular analysis based on the ITS1/ITS4 and β-tubulin gene regions. The possibility of fungal agents transferring from contaminated washing machines to autoclaved clothes during laundry cycles was investigated. Fungi were detected in 82% of the sampled appliances, with the inner rubber door seal being the most frequently colonized area. Using conventional and molecular techniques, we identified 122 fungal isolates, encompassing 17 diverse genera of molds, yeast-like, and yeast fungi. The mold fungi included 14 genera of hyaline and black genus. Among these, the most frequently identified genera of hyaline and black fungi were Aspergillus (27.7%), and Cladosporium (10.7%), respectively. This study demonstrates that building washing machines may serve as suitable ecological niches for fungal growth and transmission. Therefore, regular cleaning and disinfection of these devices are necessary. [ABSTRACT FROM AUTHOR]

Published

2023

10. Using custom-built primers and nanopore sequencing to evaluate CO-utilizer bacterial and archaeal populations linked to bioH2 production.

Author

Akaçin, İlayda, Ersoy, Şeymanur, Doluca, Osman, and Güngörmüşler, Mine

Subjects

*BACTERIAL population, *HOT springs, *MICROBIAL diversity, *EXTREME environments, *ENVIRONMENTAL sampling, *MICROBIAL communities, *DATA analysis

Abstract

The microbial community composition of five distinct thermophilic hot springs was effectively described in this work, using broad-coverage nanopore sequencing (ONT MinION sequencer). By examining environmental samples from the same source, but from locations with different temperatures, bioinformatic analysis revealed dramatic changes in microbial diversity and archaeal abundance. More specifically, no archaeal presence was reported with universal bacterial primers, whereas a significant archaea presence and also a wider variety of bacterial species were reported. These results revealed the significance of primer preference for microbiomes in extreme environments. Bioinformatic analysis was performed by aligning the reads to 16S microbial databases for identification using three different alignment methods, Epi2Me (Fastq 16S workflow), Kraken, and an in-house BLAST tool, including comparison at the genus and species levels. As a result, this approach to data analysis had a significant impact on the genera identified, and thus, it is recommended that use of multiple analysis tools to support findings on taxonomic identification using the 16S region until more precise bioinformatics tools become available. This study presents the first compilation of the ONT-based inventory of the hydrogen producers in the designated hot springs in Türkiye. [ABSTRACT FROM AUTHOR]

Published

2023

11. Llamas (Llama glama) enhance proglacial ecosystem development in Cordillera Blanca, Peru.

Author

Zimmer, Anaïs, Beach, Timothy, Riva Regalado, Sebastián, Salcedo Aliaga, Jean, Cruz Encarnación, Rolando, and Anthelme, Fabien

Subjects

*LLAMAS, *WILDLIFE reintroduction, *MOUNTAIN ecology, *GROUND cover plants, *CARBON in soils, *ALPINE glaciers, *NITROGEN in soils, *EXTREME environments

Abstract

Worldwide, mountain glaciers are shrinking rapidly. Consequently, large areas are becoming available for the development of novel alpine ecosystems. These harsh environments, however, delay primary succession. In this study with a local community, we conducted an inclusion experiment to investigate whether Llama glama influences soils and vegetation primary succession following glacial retreat. At the foot of the Uruashraju glacier in the Cordillera Blanca, Peru (~ 4680 m.a.s.l.), we established four llama inclusion plots and four control plots that we studied from 2019 to 2022, 24–40 years after deglacierization. After three years, the llama plots had significantly increased soil organic carbon and soil nitrogen. In the llama plots, we found a large, significant increase in vascular plant cover (+ 57%) between the second and third years of experimentation, and we identified four new species that were not present in 2019. Our results suggest that Llama glama, through their latrine behavior and role as a seed disperser, enhances the primary succession and novel ecosystem formation in recently deglacierized landscapes. Our study provides scientific support that rewilding of native Andean camelids may favor adaptation to glacier retreat and inform conservation and management strategies in proglacial landscapes. [ABSTRACT FROM AUTHOR]

Published

2023

12. Extreme seasonal water-level changes and hydraulic modeling of deep, high-altitude, glacial-carved, Himalayan lakes.

Author

Camassa, R., Eidam, E. F., Leve, L. G., McLaughlin, R. M., Seim, H. E., and Sharma, S.

Subjects

*WATER levels, *ALPINE glaciers, *HYDRAULIC models, *EXTREME environments, *SOIL permeability, *GLOBAL warming, *LAKES, *WATER supply

Abstract

Himalayan lakes represent critical water resources, culturally important waterbodies, and potential hazards. Some of these lakes experience dramatic water-level changes, responding to seasonal monsoon rains and post-monsoonal draining. To address the paucity of direct observations of hydrology in retreating mountain glacial systems, we describe a field program in a series of high altitude lakes in Sagarmatha National Park, adjacent to Ngozumba, the largest glacier in Nepal. In situ observations find extreme (>12 m) seasonal water-level changes in a 60-m deep lateral-moraine-dammed lake (lacking surface outflow), during a 16-month period, equivalent to a 5 × 10 6 m 3 volume change annually. The water column thermal structure was also monitored over the same period. A hydraulic model is constructed, validated against observed water levels, and used to estimate hydraulic conductivities of the moraine soils damming the lake and improves our understanding of this complex hydrological system. Our findings indicate that lake level compared to the damming glacier surface height is the key criterion for large lake fluctuations, while lakes lying below the glacier surface, regulated by surface outflow, possess only minor seasonal water-level fluctuations. Thus, lakes adjacent to glaciers may exhibit very different filling/draining dynamics based on presence/absence of surface outflows and elevation relative to retreating glaciers, and consequently may have very different fates in the next few decades as the climate warms. [ABSTRACT FROM AUTHOR]

Published

2023

13. Interface microstructure effects on dynamic failure behavior of layered Cu/Ta microstructures.

Author

Kumar, Rajesh, Chen, Jie, Mishra, Avanish, and Dongare, Avinash M.

Subjects

*FACE centered cubic structure, *COPPER, *MICROSTRUCTURE, *EXTREME environments, *MOLECULAR dynamics, *THERMAL stability

Abstract

Structural metallic materials with interfaces of immiscible materials provide opportunities to design and tailor the microstructures for desired mechanical behavior. Metallic microstructures with plasticity contributors of the FCC and BCC phases show significant promise for damage-tolerant applications due to their enhanced strengths and thermal stability. A fundamental understanding of the dynamic failure behavior is needed to design and tailor these microstructures with desired mechanical responses under extreme environments. This study uses molecular dynamics (MD) simulations to characterize plasticity contributors for various interface microstructures and the damage evolution behavior of FCC/BCC laminate microstructures. This study uses six model Cu/Ta interface systems with different orientation relationships that are as- created, and pre-deformed to understand the modifications in the plasticity contributions and the void nucleation/evolution behavior. The results suggest that pre-existing misfit dislocations and loading orientations (perpendicular to and parallel to the interface) affect the activation of primary and secondary slip systems. The dynamic strengths are observed to correlate with the energy of the interfaces, with the strengths being highest for low-energy interfaces and lowest for high-energy interfaces. However, the presence of pre-deformation of these interface microstructures affects not only the dynamic strength of the microstructures but also the correlation with interface energy. [ABSTRACT FROM AUTHOR]

Published

2023

14. Study on the fastening characteristics of preformed helical fittings considering the surface effect of transmission lines.

Author

Zhongbin, Lv, Guanghui, Liu, Fangyu, Li, Chuan, Wu, Yaguang, Tao, Jufang, Liu, Zhongfei, Ye, Xiaohui, Liu, Yuntao, Sun, and Bo, Yan

Subjects

*ELECTRIC lines, *FINITE element method, *SPIRAL antennas, *FASTENERS, *EXTREME environments, *ARMOR

Abstract

Because of their superior mechanical properties, preformed helical fittings are widely used in UHV transmission lines. However, they easily slip and become loose under extreme environments, so it is very important to study the fastening characteristics of preformed helical fittings. According to the stress characteristics of preformed helical fittings, a parametric finite element model including a core and preformed armor rods was established. Finally, the finite element model calculation was verified by comparing it with the test results. In this paper, the influences of the preformed armor rod diameter, pitch, length and forming aperture on the fastening characteristics were investigated. The numerical simulation results showed that the smaller the forming aperture of preformed armor rods, the larger the grip force. However, a small forming aperture is inconvenient to install, and too large of a grip force on the core easily leads to core damage. With the increase in the preformed armor rod length, the grip force increased gradually and linearly, and the increase slowed after the pitch number reached 9. The larger the pitch, the smaller the grip force of the preformed helical fittings. The fastening characteristics of preformed armor rods with slightly larger diameters were better and the fourth power of the diameter of the preformed armor rods has a linear relationship with the grip force. [ABSTRACT FROM AUTHOR]

Published

2023

15. Starvation hardiness as preadaptation for life in subterranean habitats.

Author

Kozel, Peter, Novak, Tone, Janžekovič, Franc, and Lipovšek, Saška

Subjects

*WINTER, *STARVATION, *ANIMAL species, *EXTREME environments, *HABITATS, *ATMOSPHERIC temperature

Abstract

Most subterranean habitats, especially caves, are considered extreme environments, mainly because of the limited and erratic food supply and constant darkness. In temperate regions, many climatic conditions, such as temperature and air humidity, are periodically less adverse or even more favourable in caves than the harsh seasonal weather on the surface. Accordingly, many animal species search for hibernacula in caves. These overwintering, non-specialized subterranean species (non-troglobionts) show various modes of dormancy and ongoing development. Since they do not feed, they all undergo periodic starvation, a preadaptation, which might evolve in permanent starvation hardiness, such as found in most specialized subterranean species (troglobionts). To this end, we performed a comparative analysis of energy-supplying compounds in eleven most common terrestrial non-troglobiont species during winter in central European caves. We found highly heterogeneous responses to starvation, which are rather consistent with the degree of energetic adaptation to the habitat than to overwintering mode. The consumption of energy-supplying compounds was strongly higher taxa-dependant; glycogen is the main energy store in gastropods, lipids in insects, and arachnids rely on both reserve compounds. We assume that permanent starvation hardiness in specialized subterranean species might evolved in many different ways as shown in this study. [ABSTRACT FROM AUTHOR]

Published

2023

16. The increase in intensity and frequency of surface air temperature extremes throughout the western South Atlantic coast.

Author

Sanches, Fábio H. C., Martins, Fernando R., Conti, William R. P., and Christofoletti, Ronaldo A.

Subjects

*ATMOSPHERIC temperature, *SURFACE temperature, *EXTREME value theory, *EXTREME environments, *CLIMATE extremes, *COASTS

Abstract

The climate is changing. At this stage, it is important to specify an 'extreme' climate and identify patterns that indicate its potential harm worldwide, including the coastal zones. Herein, we considered extremes based on the "Peaks Over Threshold" method from the "Extreme Value Theory". We looked after geographical patterns of surface air temperature (SAT) extremes (e.g., Tmax, Tmin, daily temperature range (DTR), and inter-daily temperature range) over the last 40 years throughout the Brazilian coast. Overall, we found a trend increase in intensity and frequency, but the duration was barely affected. The latitudinal pattern of extremes and the temperatures considered extremes followed the settled perception that areas in higher latitudes will be more affected by the extent of warming. Additionally, the seasonal pattern of DTR demonstrated to be a good approach to make inferences about air mass changes, but joint analyses on extremes with other atmospheric variables are desirable. Given the potential effects of extreme climates on society and natural systems over the world, our study highlights the urge for action to mitigate the effects of the increase in SAT in coastal zones. [ABSTRACT FROM AUTHOR]

Published

2023

17. Interconnected hydrologic extreme drivers and impacts depicted by remote sensing data assimilation.

Author

Lahmers, Timothy M., Kumar, Sujay V., Locke, Kim A., Wang, Shugong, Getirana, Augusto, Wrzesien, Melissa L., Liu, Pang-Wei, and Ahmad, Shahryar Khalique

Subjects

*REMOTE sensing, *WATERLOGGING (Soils), *SOIL moisture, *EXTREME environments, *HYDROLOGIC models, *AGRICULTURE

Abstract

Hydrologic extremes often involve a complex interplay of several processes. For example, flood events can have a cascade of impacts, such as saturated soils and suppressed vegetation growth. Accurate representation of such interconnected processes while accounting for associated triggering factors and subsequent impacts of flood events is difficult to achieve with conceptual hydrological models alone. In this study, we use the 2019 flood in the Northern Mississippi and Missouri Basins, which caused a series of hydrologic disturbances, as an example of such a flood event. This event began with above-average precipitation combined with anomalously high snowmelt in spring 2019. This series of anomalies resulted in above normal soil moisture that prevented crops from being planted over much of the corn belt region. In the present study, we demonstrate that incorporating remote sensing information within a hydrologic modeling system adds substantial value in representing the processes that lead to the 2019 flood event and the resulting agricultural disturbances. This remote sensing data infusion improves the accuracy of soil moisture and snowmelt estimates by up to 16% and 24%, respectively, and it also improves the representation of vegetation anomalies relative to the reference crop fraction anomalies. [ABSTRACT FROM AUTHOR]

Published

2023

18. Limits on phenological response to high temperature in the Arctic.

Author

Elmendorf, Sarah C. and Hollister, Robert D.

Subjects

*HIGH temperatures, *COLD adaptation, *PLANT phenology, *PLANT communities, *EXTREME environments, *GROWING season, *PLANT species

Abstract

Tundra plants are widely considered to be constrained by cool growing conditions and short growing seasons. Furthermore, phenological development is generally predicted by daily heat sums calculated as growing degree days. Analyzing over a decade of seasonal flower counts of 23 plant species distributed across four plant communities, together with hourly canopy-temperature records, we show that the timing of flowering of many tundra plants are best predicted by a modified growing degree day model with a maximum temperature threshold. Threshold maximums are commonly employed in agriculture, but until recently have not been considered for natural ecosystems and to our knowledge have not been used for tundra plants. Estimated maximum temperature thresholds were found to be within the range of daily temperatures commonly experienced for many species, particularly for plants at the colder, high Arctic study site. These findings provide an explanation for why passive experimental warming—where moderate changes in mean daily temperatures are accompanied by larger changes in daily maximum temperatures—generally shifts plant phenology less than ambient warming. Our results also suggest that many plants adapted to extreme cold environments may have limits to their thermal responsiveness. [ABSTRACT FROM AUTHOR]

Published

2023

19. Carotenoids dispersed in gypsum rock as a result of algae adaptation to the extreme conditions of the Atacama Desert.

Author

Vítek P, Ascaso C, Artieda O, and Wierzchos J

Subjects

Adaptation, Physiological, Cyanobacteria metabolism, Cyanobacteria genetics, Extreme Environments, Calcium Sulfate, Carotenoids metabolism, Desert Climate, Spectrum Analysis, Raman

Abstract

The high-altitude pre-Andean region of the Atacama Desert is characterized by its stark volcanic rock formations and unique hydrothermal gypsum outcrops (gypcrete) that it hosts. This study delves into the biomolecular composition of the endolithic phototrophic microbes that thrive within these gypcretes. Using advanced Raman spectroscopy techniques, including Raman imaging (complemented by microscopic and 3D microscopic observations), herein we unveil new insights into the adaptive strategies of these gypsum-inhabiting algae. Our Raman imaging results provide a detailed chemical map of carotenoids associated with microbial colonization. This map reveals a significant gradient in pigment content, highlighting a critical survival mechanism for algae and cyanobacteria in this polyextreme environment. Intriguingly, we detected signals for carotenoids not only in the algae-colonized layer, but also deeper within the gypsum matrix - indicating pigment migration following cell disruption. In addition, we conducted an in-depth analysis of individual algal cells from the Trebouxiaceae family, noting their color variations from green to orange, plus describing the spectral differences in detail. This investigation identified in-vivo pigments (carotenoids, chlorophyll) and lipids at the cellular level, offering a comprehensive view of the molecular adaptations enabling life in one of the Earth's most extreme habitats., (© 2024. The Author(s).)

Published

2024

20. Exceptional properties of hyper-resistant armor of a hydrothermal vent crab.

Author

Cho, Boongho, Kim, Dongsung, and Kim, Taewon

Subjects

*HYDROTHERMAL vents, *EXTREME environments, *ENERGY dispersive X-ray spectroscopy, *CRABS, *SCANNING electron microscopy

Abstract

Animals living in extreme environments, such as hydrothermal vents, would be expected to have evolved protective shells or exoskeletons to maintain homeostasis. The outer part of the exoskeleton of vent crabs (Austinograea sp.) in the Indian Ocean hydrothermal vent was one of the hardest (approximately 7 GPa) biological materials ever reported. To explore the exoskeletal characteristics of vent crabs which enable them to adapt to severe environments, a comparative analysis was conducted with the Asian paddle crab (Charybdis japonica) living in coastal areas. Nanoindentation, thermogravimetric analysis, scanning electron microscopy, energy dispersive x-ray analysis, and Raman spectroscopy were used to analyze the mechanical properties, thermal stability, structure, surface components, and the composition of compounds, respectively. Though both species have four-layered exoskeletons, the outermost layer of the vent crab, a nano-granular structure, was much thicker than that of the coastal crab. The proportions of aluminum and sulfur that constitute the epicuticle of the exoskeleton were higher in the vent crab than in the coastal crab. There was a lack of water or volatile substances, lots of CaCO3, and no carotenoid-based compounds in the exoskeleton of the vent crab. These might have improved the mechanical properties and thermal stability of the hydrothermal species. [ABSTRACT FROM AUTHOR]

Published

2022

21. Acceptance and accessibility to the early phase COVID-19 vaccination among the healthcare workers and hill tribe population in Thailand.

Author

Wongnuch, Pilasinee, Mulikaburt, Thanatchaporn, Apidechkul, Tawatchai, Srichan, Peeradone, Tamornpark, Ratipark, Udplong, Anusorn, Suratana, Soontaree, and Kitchanapaibul, Siwarak

Subjects

*MEDICAL personnel, *COVID-19 vaccines, *COVID-19, *VACCINATION, *EXTREME environments, *TRIBES, *DEAF children

Abstract

Coronavirus disease 2019 (COVID-19) is a serious emerging disease and an extreme threat to human life. This study aimed to understand the perceptions of hill tribe people living in the border areas of Thailand-Myanmar and health workers regarding the acceptability and accessibility of the COVID-19 vaccine and health workers' perceptions of the readiness to implement the vaccination program during the early period of national COVID-19 vaccination. A qualitative method was applied to elicit information from key informants who lived in hill tribe villages and the health professionals who served them. The study was conducted in seven hill tribe villages located along the Thailand-Myanmar borders in Mae Fah Luang District, Chiang Rai Province, Thailand. The participants were hill tribe villagers aged 20 years and over; public health care professionals working in village health centers who had primary roles in implementing disease prevention and control measures; and public health care professionals working in districts and provincial public health offices who had primary roles in policy development and implementation. A total of 63 participants (26 men and 37 women) from seven hill tribe villages provided information. Three acceptance choices regarding receiving the COVID-19 vaccine were found among the hill tribes: definite acceptance, likely acceptance, and no preference. Two factors related to obtaining access to the new COVID-19 vaccine were found: Thai citizenship and the level of literacy related to the vaccine. There was no process or protocol in place for implementing the new vaccine among health professionals working at the district, subdistrict, or community levels, but the national expanded immunization program (EPI) system was clearly demonstrated to extend throughout the health service chain in Thailand. During the early period of national COVID-19 vaccine implantation in Thailand, not all members of the hill tribes accepted the vaccine; participant acceptance depended on several factors, including a participant's previous experience with vaccination, whether he or she required more information before making a decision, etc. While acceptance of the vaccine depended on the individual's background, not everyone had an equal opportunity to access the vaccine. The new COVID-19 vaccine should be available at the village level, including in hill tribe villages, to reduce the systemic threat to the country. [ABSTRACT FROM AUTHOR]

Published

2022

22. Work schedule and seasonal influences on sleep and fatigue in helicopter and fixed-wing aircraft operations in extreme environments.

Author

Fletcher, Adam, Stewart, Simon, Heathcote, Karen, Page, Peter, and Dorrian, Jillian

Subjects

*EXTREME environments, *NAPS (Sleep), *WORKING hours, *HELICOPTERS, *SLEEP, *EMERGENCY medical services, *RESCUE work

Abstract

Sleep and fatigue were investigated in aviation search and rescue, firefighting, emergency medical services and offshore transfer operations in 210 participants, for 21 days each, across 17 datasets in seven countries. Sleep data were collected using wrist-worn actigraphs and sleep diaries. Sustained attention was assessed using a 5-min Psychomotor Vigilance Task (PVT). Duty information was provided from corporate IT systems. Despite the number of 24 h operations, most work occurred during daytime hours, and most sleep occurred at night. There were seasonal changes in work and sleep patterns, with naps used to augment total sleep time. The proportion of sleep occurring during duty varied from zero to 30%. Differences in PVT response times were trivial to small. Legislation that defines flight, duty time and minimum rest limits assume that sleep is not obtained during duty periods, apart from some napping under Fatigue Risk Management Systems (FRMS). However, especially in cases where the aviation service requires waiting for tasks (e.g. search and rescue, emergency medical response), this assumption may not always hold. FRMS should accommodate different modes of working that safely facilitate sleep during duty time where appropriate. [ABSTRACT FROM AUTHOR]

Published

2022

23. New cyanobacterial genus Argonema is hiding in soil crusts around the world.

Author

Skoupý, Svatopluk, Stanojković, Aleksandar, Pavlíková, Markéta, Poulíčková, Aloisie, and Dvořák, Petr

Subjects

*SOIL crusting, *WHOLE genome sequencing, *NUMBERS of species, *ARID regions, *ENVIRONMENTAL sampling, *EXTREME environments

Abstract

Cyanobacteria are crucial primary producers in soil and soil crusts. However, their biodiversity in these habitats remains poorly understood, especially in the tropical and polar regions. We employed whole genome sequencing, morphology, and ecology to describe a novel cyanobacterial genus Argonema isolated from Antarctica. Extreme environments are renowned for their relatively high number of endemic species, but whether cyanobacteria are endemic or not is open to much current debate. To determine if a cyanobacterial lineage is endemic is a time consuming, elaborate, and expensive global sampling effort. Thus, we propose an approach that will help to overcome the limits of the sampling effort and better understand the global distribution of cyanobacterial clades. We employed a Sequencing Read Archive, which provides a rich source of data from thousands of environmental samples. We developed a framework for a characterization of the global distribution of any microbial species using Sequencing Read Archive. Using this approach, we found that Argonema is actually cosmopolitan in arid regions. It provides further evidence that endemic microbial taxa are likely to be much rarer than expected. [ABSTRACT FROM AUTHOR]

Published

2022

24. Mitogenome of the extinct Desert 'rat-kangaroo' times the adaptation to aridity in macropodoids.

Author

Westerman, Michael, Loke, Stella, Tan, Mun Hua, and Kear, Benjamin P.

Subjects

*BIOLOGICAL extinction, *ARID regions, *DESERTS, *EXTREME environments, *NUCLEOTIDE sequence

Abstract

The evolution of Australia's distinctive marsupial fauna has long been linked to the onset of continent-wide aridity. However, how this profound climate change event affected the diversification of extant lineages is still hotly debated. Here, we assemble a DNA sequence dataset of Macropodoidea—the clade comprising kangaroos and their relatives—that incorporates a complete mitogenome for the Desert 'rat-kangaroo', Caloprymnus campestris. This enigmatic species went extinct nearly 90 years ago and is known from a handful of museum specimens. Caloprymnus is significant because it was the only macropodoid restricted to extreme desert environments, and therefore calibrates the group's specialisation for increasingly arid conditions. Our robustly supported phylogenies nest Caloprymnus amongst the bettongs Aepyprymnus and Bettongia. Dated ancestral range estimations further reveal that the Caloprymnus-Bettongia lineage originated in nascent xeric settings during the middle to late Miocene, ~ 12 million years ago (Ma), but subsequently radiated into fragmenting mesic habitats after the Pliocene to mid-Pleistocene. This timeframe parallels the ancestral divergences of kangaroos in woodlands and forests, but predates their adaptive dispersal into proliferating dry shrublands and grasslands from the late Miocene to mid-Pleistocene, after ~ 7 Ma. We thus demonstrate that protracted changes in both climate and vegetation likely staged the emergence of modern arid zone macropodoids. [ABSTRACT FROM AUTHOR]

Published

2022

25. The Terrific Skink bite force suggests insularity as a likely driver to exceptional resource use.

Author

Jowers, Michael J., Simone, Yuri, Herrel, Anthony, Cabezas, M. Pilar, Xavier, Raquel, Holden, Magaly, Boistel, Renaud, Murphy, John C., Santin, Mathieu, Caut, Stephane, Auguste, Renoir J., van der Meijden, Arie, Andreone, Franco, and Ineich, Ivan

Subjects

*PREDATION, *ROBOTIC exoskeletons, *TOP predators, *NATURAL history museums, *MECHANICAL failures, *EXTREME environments

Abstract

Natural history museum collections hold extremely rare, extinct species often described from a single known specimen. On occasions, rediscoveries open new opportunities to understand selective forces acting on phenotypic traits. Recent rediscovery of few individuals of Bocourt´s Terrific Skink Phoboscincus bocourti, from a small and remote islet in New Caledonia allowed to genetically identify a species of land crab in its diet. To explore this further, we CT- and MRI-scanned the head of the holotype, the only preserved specimen dated to about 1870, segmented the adductor muscles of the jaw and bones, and estimated bite force through biomechanical models. These data were compared with those gathered for 332 specimens belonging to 44 other skink species. Thereafter we recorded the maximum force needed to generate mechanical failure of the exoskeleton of a crab specimen. The bite force is greater than the prey hardness, suggesting that predation on hard-shelled crabs may be an important driver of performance. The high bite force seems crucial to overcome low or seasonal variations in resource availability in these extreme insular environments. Phoboscincus bocourti appears to be an apex predator in a remote and harsh environment and the only skink known to predate on hard-shelled land crabs. [ABSTRACT FROM AUTHOR]

Published

2022

26. Buffering the impacts of extreme climate variability in the highly engineered Tigris Euphrates river system.

Author

Abdelmohsen, Karem, Sultan, Mohamed, Save, Himanshu, Abotalib, Abotalib Z., Yan, Eugene, and Zahran, Khaled H.

Subjects

*CLIMATE extremes, *WATERSHEDS, *DROUGHTS, *GLOBAL warming, *TWENTY-first century, *ENGINEERS, *EXTREME environments

Abstract

More extreme and prolonged floods and droughts, commonly attributed to global warming, are affecting the livelihood of major sectors of the world's population in many basins worldwide. While these events could introduce devastating socioeconomic impacts, highly engineered systems are better prepared for modulating these extreme climatic variabilities. Herein, we provide methodologies to assess the effectiveness of reservoirs in managing extreme floods and droughts and modulating their impacts in data-scarce river basins. Our analysis of multiple satellite missions and global land surface models over the Tigris-Euphrates Watershed (TEW; 30 dams; storage capacity: 250 km3), showed a prolonged (2007–2018) and intense drought (Average Annual Precipitation [AAP]: < 400 km3) with no parallels in the past 100 years (AAP during 1920–2020: 538 km3) followed by 1-in-100-year extensive precipitation event (726 km3) and an impressive recovery (113 ± 11 km3) in 2019 amounting to 50% of losses endured during drought years. Dam reservoirs captured water equivalent to 40% of those losses in that year. Additional studies are required to investigate whether similar highly engineered watersheds with multi-year, high storage capacity can potentially modulate the impact of projected global warming-related increases in the frequency and intensity of extreme rainfall and drought events in the twenty-first century. [ABSTRACT FROM AUTHOR]

Published

2022

27. Alterations to cavefish red blood cells provide evidence of adaptation to reduced subterranean oxygen.

Author

Boggs, Tyler E., Friedman, Jessica S., and Gross, Joshua B.

Subjects

*ERYTHROCYTES, *FRESHWATER fishes, *HEMOGLOBINS, *EXTREME environments, *CAVES, *OXYGEN

Abstract

Animals inhabiting extreme environments allow the powerful opportunity to examine adaptive evolution in response to diverse pressures. One such pressure is reduced oxygen, commonly present at high-altitude and subterranean environments. Cave-dwelling animals must also deal with darkness and starvation, both of which have been rigorously studied as key forces driving the evolution of cave-associated traits. Interestingly, hypoxia as an environmental pressure has received less attention. Here we examined putatively adaptive phenotypes evolving in a freshwater teleost fish, Astyanax mexicanus, which includes both surface- and cave-dwelling forms. This model system also provides the opportunity to identify convergent responses to hypoxia, owing to the presence of numerous natural and independently-colonised cave populations, alongside closely-related surface conspecifics. The focus of this study is hemoglobin, an essential molecule for oxygen transport and delivery. We found that multiple cave populations harbor a higher concentration of hemoglobin in their blood, which is coincident with an increase in cave morph erythrocyte size compared to surface fish. Interestingly, both cave and surface morphs have comparable numbers of erythrocytes per unit of blood, suggesting elevated hemoglobin is not due to overproduction of red blood cells. Alternatively, owing to an increased cell area of erythrocytes in cavefish, we reason that they contain more hemoglobin per erythrocyte. These findings support the notion that cavefish have adapted to hypoxia in caves through modulation of both hemoglobin production and erythrocyte size. This work reveals an additional adaptive feature of Astyanax cavefish, and demonstrates that coordinated changes between cellular architecture and molecular changes are necessary for organisms evolving under intense environmental pressure. [ABSTRACT FROM AUTHOR]

Published

2022

28. Positive selection over the mitochondrial genome and its role in the diversification of gentoo penguins in response to adaptation in isolation.

Author

Noll, D., Leon, F., Brandt, D., Pistorius, P., Le Bohec, C., Bonadonna, F., Trathan, P. N., Barbosa, A., Rey, A. Raya, Dantas, G. P. M., Bowie, R. C. K., Poulin, E., and Vianna, J. A.

Subjects

*PENGUINS, *MITOCHONDRIAL DNA, *HAPLOTYPES, *MITOCHONDRIA, *GENOMES, *EXTREME environments

Abstract

Although mitochondrial DNA has been widely used in phylogeography, evidence has emerged that factors such as climate, food availability, and environmental pressures that produce high levels of stress can exert a strong influence on mitochondrial genomes, to the point of promoting the persistence of certain genotypes in order to compensate for the metabolic requirements of the local environment. As recently discovered, the gentoo penguins (Pygoscelis papua) comprise four highly divergent lineages across their distribution spanning the Antarctic and sub-Antarctic regions. Gentoo penguins therefore represent a suitable animal model to study adaptive processes across divergent environments. Based on 62 mitogenomes that we obtained from nine locations spanning all four gentoo penguin lineages, we demonstrated lineage-specific nucleotide substitutions for various genes, but only lineage-specific amino acid replacements for the ND1 and ND5 protein-coding genes. Purifying selection (dN/dS < 1) is the main driving force in the protein-coding genes that shape the diversity of mitogenomes in gentoo penguins. Positive selection (dN/dS > 1) was mostly present in codons of the Complex I (NADH genes), supported by two different codon-based methods at the ND1 and ND4 in the most divergent lineages, the eastern gentoo penguin from Crozet and Marion Islands and the southern gentoo penguin from Antarctica respectively. Additionally, ND5 and ATP6 were under selection in the branches of the phylogeny involving all gentoo penguins except the eastern lineage. Our study suggests that local adaptation of gentoo penguins has emerged as a response to environmental variability promoting the fixation of mitochondrial haplotypes in a non-random manner. Mitogenome adaptation is thus likely to have been associated with gentoo penguin diversification across the Southern Ocean and to have promoted their survival in extreme environments such as Antarctica. Such selective processes on the mitochondrial genome may also be responsible for the discordance detected between nuclear- and mitochondrial-based phylogenies of gentoo penguin lineages. [ABSTRACT FROM AUTHOR]

Published

2022

29. Diversity of prokaryotic microorganisms in alkaline saline soil of the Qarhan Salt Lake area in the Qinghai–Tibet Plateau.

Author

Wang, Yaqiong and Bao, Guoyuan

Subjects

*SOIL salinity, *SODIC soils, *SALT lakes, *NITROGEN fixation, *ENVIRONMENTAL indicators, *EXTREME environments

Abstract

The composition of microbial communities varies considerably across ecological environments, particularly in extreme environments, where unique microorganisms are typically used as the indicators of environmental conditions. However, the ecological reasons for the differences in microbial communities remain largely unknown. Herein, we analyzed taxonomic and functional community profiles via high-throughput sequencing to determine the alkaline saline soil bacterial and archaeal communities in the Qarhan Salt Lake area in the Qinghai–Tibet Plateau. The results showed that Betaproteobacteria (Proteobacteria) and Halobacteria (Euryarchaeota) were the most abundant in the soils of this area, which are common in high salinity environments. Accordingly, microbes that can adapt to local extremes typically have unique metabolic pathways and functions, such as chemoheterotrophy, aerobic chemoheterotrophy, nitrogen fixation, ureolysis, nitrate reduction, fermentation, dark hydrogen oxidation, and methanogenesis. Methanogenesis pathways include hydrogenotrophic methanogenesis, CO2 reduction with H2, and formate methanogenesis. Thus, prokaryotic microorganisms in high salinity environments are indispensable in nitrogen and carbon cycling via particular metabolic pathways. [ABSTRACT FROM AUTHOR]

Published

2022

30. Macroclimatic conditions as main drivers for symbiotic association patterns in lecideoid lichens along the Transantarctic Mountains, Ross Sea region, Antarctica.

Author

Wagner, Monika, Brunauer, Georg, Bathke, Arne C., Cary, S. Craig, Fuchs, Roman, Sancho, Leopoldo G., Türk, Roman, and Ruprecht, Ulrike

Subjects

*LICHENS, *SPECIES distribution, *SPECIES specificity, *CLIMATE change, *EXTREME environments, *BIOINDICATORS, *TUNDRAS

Abstract

Lecideoid lichens as dominant vegetation-forming organisms in the climatically harsh areas of the southern part of continental Antarctica show clear preferences in relation to environmental conditions (i.e. macroclimate). 306 lichen samples were included in the study, collected along the Ross Sea coast (78°S–85.5°S) at six climatically different sites. The species compositions as well as the associations of their two dominant symbiotic partners (myco- and photobiont) were set in context with environmental conditions along the latitudinal gradient. Diversity values were nonlinear with respect to latitude, with the highest alpha diversity in the milder areas of the McMurdo Dry Valleys (78°S) and the most southern areas (Durham Point, 85.5°S; Garden Spur, 84.5°S), and lowest in the especially arid and cold Darwin Area (~ 79.8°S). Furthermore, the specificity of mycobiont species towards their photobionts decreased under more severe climate conditions. The generalist lichen species Lecanora fuscobrunnea and Lecidea cancriformis were present in almost all habitats, but were dominant in climatically extreme areas. Carbonea vorticosa, Lecidella greenii and Rhizoplaca macleanii were confined to milder areas. In summary, the macroclimate is considered to be the main driver of species distribution, making certain species useful as bioindicators of climate conditions and, consequently, for assessing the consequences of climate change. [ABSTRACT FROM AUTHOR]

Published

2021

31. Desiccation-induced fibrous condensation of CAHS protein from an anhydrobiotic tardigrade.

Author

Yagi-Utsumi, Maho, Aoki, Kazuhiro, Watanabe, Hiroki, Song, Chihong, Nishimura, Seiji, Satoh, Tadashi, Yanaka, Saeko, Ganser, Christian, Tanaka, Sae, Schnapka, Vincent, Goh, Ean Wai, Furutani, Yuji, Murata, Kazuyoshi, Uchihashi, Takayuki, Arakawa, Kazuharu, and Kato, Koichi

Subjects

*EXTREME environments, *CONDENSATION, *PROTEINS, *CELL membranes, *TARDIGRADA

Abstract

Anhydrobiosis, one of the most extensively studied forms of cryptobiosis, is induced in certain organisms as a response to desiccation. Anhydrobiotic species has been hypothesized to produce substances that can protect their biological components and/or cell membranes without water. In extremotolerant tardigrades, highly hydrophilic and heat-soluble protein families, cytosolic abundant heat-soluble (CAHS) proteins, have been identified, which are postulated to be integral parts of the tardigrades' response to desiccation. In this study, to elucidate these protein functions, we performed in vitro and in vivo characterizations of the reversible self-assembling property of CAHS1 protein, a major isoform of CAHS proteins from Ramazzottius varieornatus, using a series of spectroscopic and microscopic techniques. We found that CAHS1 proteins homo-oligomerized via the C-terminal α-helical region and formed a hydrogel as their concentration increased. We also demonstrated that the overexpressed CAHS1 proteins formed condensates under desiccation-mimicking conditions. These data strongly suggested that, upon drying, the CAHS1 proteins form oligomers and eventually underwent sol–gel transition in tardigrade cytosols. Thus, it is proposed that the CAHS1 proteins form the cytosolic fibrous condensates, which presumably have variable mechanisms for the desiccation tolerance of tardigrades. These findings provide insights into molecular strategies of organisms to adapt to extreme environments. [ABSTRACT FROM AUTHOR]

Published

2021

32. Inferring predator–prey interaction in the subterranean environment: a case study from Dinaric caves.

Author

Premate, Ester, Zagmajster, Maja, and Fišer, Cene

Subjects

*PREDATION, *BIOTIC communities, *GROUNDWATER, *CAVES, *TOP predators, *ARMS race, *EXTREME environments

Abstract

Predator–prey interactions are among the most important biotic interactions shaping ecological communities and driving the evolution of defensive traits. These interactions and their effects on species received little attention in extreme and remote environments, where possibilities for direct observations and experimental manipulation of the animals are limited. In this paper, we study such type of environment, namely caves of the Dinarides (Europe), combining spatial and phylogenetic methods. We focused on several species of Niphargus amphipods living in phreatic lakes, as some of them use the dorsal spines as putative morphological defensive traits. We predicted that these spines represent a defense strategy against the olm (Proteus anguinus), a top predator species in the subterranean waters. We tested for spatial overlap of the olm and Niphargus species and showed that spined species live in closer proximity to and co-occur more frequently with the olm than non-spined species. Modeling of the evolution of the spines onto Niphargus phylogeny implies coevolution of this trait in the presence of olm. We conclude that these spines likely evolved as defensive traits in a predator–prey arms race. Combining multiple analyses, we provide an example for a methodological framework to assess predator–prey interactions when in-situ or laboratory observations are not possible. [ABSTRACT FROM AUTHOR]

Published

2021

33. MinION sequencing from sea ice cryoconites leads to de novo genome reconstruction from metagenomes.

Author

Maggiori, Catherine, Raymond-Bouchard, Isabelle, Brennan, Laura, Touchette, David, and Whyte, Lyle

Subjects

*SEA ice, *EXTREME environments, *DENITRIFICATION, *GENOMES, *ASTROBIOLOGY, *SHOTGUN sequencing

Abstract

Genome reconstruction from metagenomes enables detailed study of individual community members, their metabolisms, and their survival strategies. Obtaining high quality metagenome-assembled genomes (MAGs) is particularly valuable in extreme environments like sea ice cryoconites, where the native consortia are recalcitrant to culture and strong astrobiology analogues. We evaluated three separate approaches for MAG generation from Allen Bay, Nunavut sea ice cryoconites—HiSeq-only, MinION-only, and hybrid (HiSeq + MinION)—where field MinION sequencing yielded a reliable metagenome. The hybrid assembly produced longer contigs, more coding sequences, and more total MAGs, revealing a microbial community dominated by Bacteroidetes. The hybrid MAGs also had the highest completeness, lowest contamination, and highest N50. A putatively novel species of Octadecabacter is among the hybrid MAGs produced, containing the genus's only known instances of genomic potential for nitrate reduction, denitrification, sulfate reduction, and fermentation. This study shows that the inclusion of MinION reads in traditional short read datasets leads to higher quality metagenomes and MAGs for more accurate descriptions of novel microorganisms in this extreme, transient habitat and has produced the first hybrid MAGs from an extreme environment. [ABSTRACT FROM AUTHOR]

Published

2021

34. Greater ecophysiological stress tolerance in the core environment than in extreme environments of wild chickpea (Cicer reticulatum).

Author

Krieg CP, Smith DD, Adams MA, Berger J, Layegh Nikravesh N, and von Wettberg EJ

Subjects

Humans, Plant Breeding, Phenotype, Genotype, Extreme Environments, Cicer genetics

Abstract

Global climate change and land use change underlie a need to develop new crop breeding strategies, and crop wild relatives (CWR) have become an important potential source of new genetic material to improve breeding efforts. Many recent approaches assume adaptive trait variation increases towards the relative environmental extremes of a species range, potentially missing valuable trait variation in more moderate or typical climates. Here, we leveraged distinct genotypes of wild chickpea (Cicer reticulatum) that differ in their relative climates from moderate to more extreme and perform targeted assessments of drought and heat tolerance. We found significance variation in ecophysiological function and stress tolerance between genotypes but contrary to expectations and current paradigms, it was individuals from more moderate climates that exhibited greater capacity for stress tolerance than individuals from warmer and drier climates. These results indicate that wild germplasm collection efforts to identify adaptive variation should include the full range of environmental conditions and habitats instead of only environmental extremes, and that doing so may significantly enhance the success of breeding programs broadly., (© 2024. The Author(s).)

Published

2024

35. Genomics of extreme environments: unveiling the secrets of survival.

Author

Goh KM, González-Siso MI, and Sani RK

Subjects

Genomics, Extreme Environments

Published

2023

36. Extreme climate event promotes phenological mismatch between sexes in hibernating ground squirrels

Author

Caila E. Kucheravy, Charlene N. Berkvens, James F. Hare, Jane M. Waterman, Chris Enright, and Elaine A. C. dos Anjos

Subjects

Male, 0106 biological sciences, Hibernation, Periodicity, Extreme climate, Climate, Climate Change, Science, Zoology, Biology, 010603 evolutionary biology, 01 natural sciences, Article, Sexual Behavior, Animal, Sex Factors, Animals, Sperm motility, Multidisciplinary, Ecology, Phenology, 010604 marine biology & hydrobiology, Sciuridae, Motile sperm, Annual cycle, Sperm, Breed, 13. Climate action, Sperm Motility, Medicine, Female, Seasons, Extreme Environments

Abstract

Hibernating ground squirrels rely on a short active period for breeding and mass accrual, and are thus vulnerable to extreme climate events that affect key periods in their annual cycle. Here, we document how a heatwave in March 2012 led to a phenological mismatch between sexes in Richardson’s ground squirrels (Urocitellus richardsonii). Females emerged from hibernation and commenced breeding earlier in 2012 relative to average female emergence. Although males had descended testes and pigmented scrota, it appeared that not all males were physiologically prepared to breed since 58.6% of males had non-motile sperm when breeding commenced. Body condition, relative testes size, and the relative size of accessory glands were significant predictors of sperm motility. Males with non-motile sperm had smaller accessory glands than males with motile sperm. There was no decrease in the number of juveniles that emerged in 2012 or female yearlings recruited in 2013, nor did juveniles emerge later than other years. The impact of this heatwave on male ground squirrels emphasizes the importance of assessing the consequences of climate change on the breeding success of hibernating species in both sexes, since the different sensitivity to external cues for emergence led to a mismatch in timing under this event.

Published

2021

37. High daily energy expenditure of Tuvan nomadic pastoralists living in an extreme cold environment

Author

Adam J. Sellers, Dolaana Khovalyg, Guy Plasqui, Wouter van Marken Lichtenbelt, Nutrition and Movement Sciences, RS: NUTRIM - R1 - Obesity, diabetes and cardiovascular health, and RS: NUTRIM - R3 - Respiratory & Age-related Health

Subjects

nonshivering thermogenesis, Multidisciplinary, skin temperature, accelerometers, air, water, Thermogenesis, Extreme Cold Weather, Cold Temperature, surface-temperature, physical-activity assessment, body-temperature, Humans, yakut sakha, intensity, Energy Metabolism, Extreme Environments

Abstract

Research investigating thermoregulatory energy costs in free-living humans is limited. We determined the total energy expenditure (TEE) of Tuvan pastoralists living in an extreme cold environment and explored the contribution of physical activity and cold-induced thermogenesis. Twelve semi-nomadic pastoralists (47 ± 8 years, 64 ± 8 kg) living under traditional circumstances, in Tuva, south-central Siberia, Russia, were observed during two consecutive 6-day periods in winter. TEE was measured via the doubly labelled water technique. Skin and ambient temperatures, and physical activity were continuously monitored. The outdoor temperature during the observation period was − 27.4 ± 5.4 °C. During the daytime, the participants were exposed to ambient temperatures below 0 °C for 297 ± 131 min/day. The Tuvan pastoralists were more physically active compared to western populations (609 ± 90 min/day of light, moderate, and vigorous physical activity). In addition, TEE was 13.49 ± 1.33 MJ/day (3224 ± 318 kcal/day), which was significantly larger by 17% and 31% than predicted by body mass, and fat-free mass, respectively. Our research suggests the daily cold exposure combined with high levels of physical activity contributed to the elevated TEE. Future research should reconsider the assumption that energy costs due to thermoregulation are negligible in free-living humans.

Published

2022

38. Resequencing and SNP discovery of Amur ide (Leuciscus waleckii) provides insights into local adaptations to extreme environments

Author

Bo Sun, Youyi Kuang, Zhao Xuefei, Li Min Zhang, Liang Liqun, Shuangyi Wang, and Yu Mei Chang

Subjects

0106 biological sciences, 0301 basic medicine, Population genetics, Science, Population, Cyprinidae, Biology, Polymorphism, Single Nucleotide, 010603 evolutionary biology, 01 natural sciences, Article, Nucleotide diversity, 03 medical and health sciences, Leuciscus, Osmoregulation, Rivers, Animals, SNP, Extreme environment, education, Gene, Ecotype, education.field_of_study, Multidisciplinary, Gene Expression Profiling, Immunity, Salt Tolerance, Sequence Analysis, DNA, biology.organism_classification, Lakes, 030104 developmental biology, Genetic Loci, Evolutionary biology, Genetic structure, Protein structure predictions, Medicine, Adaptation, Transcriptome, Extreme Environments

Abstract

Amur ide (Leuciscus waleckii), a Cyprinid species, is broadly distributed in Northeast Asia. Different from its freshwater counterparts, the population in Lake Dali Nor has a strong alkalinity tolerance and can adapt to extremely alkali–saline water with bicarbonate over 50 mmol/L. To uncover the genetic basis of its alkaline adaptation, three populations, including one alkali form from Lake Dali Nor (DL), one freshwater form from its adjacent sister Lake Ganggeng Nor (GG), and one freshwater form from its historical origin, namely, the Songhua River (SH), were analyzed using genome resequencing technology. A total of 679.82 Gb clean data and 38,091,163 high-quality single-nucleotide polymorphism (SNP) loci were detected in the three populations. Nucleotide diversity and population structure analysis revealed that the DL and GG populations have lower nucleotide diversities and different genetic structures than those of the SH population. Selective sweeping showed 21 genes involved in osmoregulatory regulation (DLG1, VIPR1, AKT1, and GNAI1), inflammation and immune responses (DLG1, BRINP1, CTSL, TRAF6, AKT1, STAT3, GNAI1, SEC22b, and PSME4b), and cardiorespiratory development (TRAF6, PSME4b, STAT3, AKT1, and COL9A1) to be associated with alkaline adaption of the DL population. Interestingly, selective pressure (CodeML, MEME, and FEL) methods identified two functional codon sites of VIPR1 to be under positive selection in the DL population. The subsequent 3D protein modeling confirmed that these selected sites will incur changes in protein structure and function in the DL population. In brief, this study provides molecular evidence of population divergence and alkaline adaptation, which will be very useful for revealing the genetic basis of alkaline adaptation in Amur ide.

Published

2021

39. Work schedule and seasonal influences on sleep and fatigue in helicopter and fixed-wing aircraft operations in extreme environments

Author

Adam Fletcher, Simon Stewart, Karen Heathcote, Peter Page, Jillian Dorrian, Fletcher, Adam, Stewart, Simon, Heathcote, Karen, Page, Peter, and Dorrian, Jillian

Subjects

sleep and fatigue, Multidisciplinary, Aircraft, Personnel Staffing and Scheduling, Work Schedule Tolerance, aviation, Humans, Sleep Deprivation, Seasons, Wakefulness, Sleep, emergency services, Fatigue, Extreme Environments

Abstract

Sleep and fatigue were investigated in aviation search and rescue, firefighting, emergency medical services and offshore transfer operations in 210 participants, for 21 days each, across 17 datasets in seven countries. Sleep data were collected using wrist-worn actigraphs and sleep diaries. Sustained attention was assessed using a 5-min Psychomotor Vigilance Task (PVT). Duty information was provided from corporate IT systems. Despite the number of 24 h operations, most work occurred during daytime hours, and most sleep occurred at night. There were seasonal changes in work and sleep patterns, with naps used to augment total sleep time. The proportion of sleep occurring during duty varied from zero to 30%. Differences in PVT response times were trivial to small. Legislation that defines flight, duty time and minimum rest limits assume that sleep is not obtained during duty periods, apart from some napping under Fatigue Risk Management Systems (FRMS). However, especially in cases where the aviation service requires waiting for tasks (e.g. search and rescue, emergency medical response), this assumption may not always hold. FRMS should accommodate different modes of working that safely facilitate sleep during duty time where appropriate.

Published

2022

40. Animal bioturbation preserved in Pleistocene magadiite at Lake Magadi, Kenya Rift Valley, and its implications for the depositional environment of bedded magadiite

Author

Jennifer J. Scott, Robin W. Renaut, Luis A. Buatois, R. B. Owen, and Anna K. Behrensmeyer

Subjects

Geologic Sediments, Geological Phenomena, food.ingredient, Insecta, 010504 meteorology & atmospheric sciences, Pleistocene, Geochemistry, lcsh:Medicine, Context (language use), Trace fossil, 010502 geochemistry & geophysics, 01 natural sciences, Article, Hot Springs, Sedimentary depositional environment, Birds, food, Limnology, Animals, Alcolapia, lcsh:Science, Trona, Saline Waters, 0105 earth and related environmental sciences, Multidisciplinary, biology, Ecology, Geography, Fossils, Silicates, lcsh:R, Fishes, biology.organism_classification, Kenya, Lakes, lcsh:Q, Bioturbation, Rift valley, Geology, Extreme Environments

Abstract

Magadiite, a rare hydrous sodium-silicate mineral [NaSi7O13(OH)3·4(H2O)], was discovered about 50 years ago in sediments around Lake Magadi, a hypersaline alkaline lake fed by hot springs in the semi-arid southern Kenya Rift Valley. Today this harsh lacustrine environment excludes most organisms except microbial extremophiles, a few invertebrates (mostly insects), highly adapted fish (Alcolapia sp.), and birds including flamingos. Burrows discovered in outcrops of the High Magadi Beds (~25–9 ka) that predate the modern saline (trona) pan show that beetles and other invertebrates inhabit this extreme environment when conditions become more favourable. Burrows (cm-scale) preserved in magadiite in the High Magadi Beds are filled with mud, silt and sand from overlying sediments. Their stratigraphic context reveals upward-shallowing cycles from mud to interlaminated mud-magadiite to magadiite in dm-scale units. The burrows were formed when the lake floor became fresher and oxygenated, after a period when magadiite precipitated in shallow saline waters. The burrows, probably produced by beetles, show that trace fossils can provide evidence for short-term (possibly years to decades) changes in the contemporary environment that might not otherwise be recognised or preserved physically or chemically in the sediment record.

Published

2020

41. Inferring predator–prey interaction in the subterranean environment: a case study from Dinaric caves

Author

Cene Fišer, Ester Premate, and Maja Zagmajster

Subjects

Food Chain, Science, Article, Predation, Biological Coevolution, Cave, Proteus anguinus, Phylogenetics, Animals, Amphipoda, Ecosystem, Phylogeny, Coevolution, Apex predator, Appetitive Behavior, geography, Multidisciplinary, geography.geographical_feature_category, biology, Phylogenetic tree, Ecology, Biodiversity, biology.organism_classification, Biological Evolution, Caves, Phenotype, Predatory Behavior, Proteidae, Medicine, Freshwater ecology, Extreme Environments, Niphargus

Abstract

Predator–prey interactions are among the most important biotic interactions shaping ecological communities and driving the evolution of defensive traits. These interactions and their effects on species received little attention in extreme and remote environments, where possibilities for direct observations and experimental manipulation of the animals are limited. In this paper, we study such type of environment, namely caves of the Dinarides (Europe), combining spatial and phylogenetic methods. We focused on several species of Niphargus amphipods living in phreatic lakes, as some of them use the dorsal spines as putative morphological defensive traits. We predicted that these spines represent a defense strategy against the olm (Proteus anguinus), a top predator species in the subterranean waters. We tested for spatial overlap of the olm and Niphargus species and showed that spined species live in closer proximity to and co-occur more frequently with the olm than non-spined species. Modeling of the evolution of the spines onto Niphargus phylogeny implies coevolution of this trait in the presence of olm. We conclude that these spines likely evolved as defensive traits in a predator–prey arms race. Combining multiple analyses, we provide an example for a methodological framework to assess predator–prey interactions when in-situ or laboratory observations are not possible.

Published

2021

42. Serratia liquefaciens FG3 isolated from a metallophyte plant sheds light on the evolution and mechanisms of adaptive traits in extreme environments

Author

Rafael Marini Ferreira, U. C. Silva, Leandro Marcio Moreira, Nalvo F. Almeida, Izadora Tabuso Vieira, Isabella Ferreira Cordeiro, Alessandro M. Varani, Jesus Aparecido Ferro, Flávio Fonseca do Carmo, Washington Luiz Caneschi, Camila Gracyelle de Carvalho Lemes, Angélica Bianchini Sanchez, Vera Lúcia dos Santos, Lauro Moraes, Robson Soares Silva, Renata de Almeida Barbosa Assis, Morghana Marina Villa, João C. Setubal, Natasha Peixoto Fonseca, Luciana Hiromi Yoshino Kamino, Camila Carrião Machado Garcia, Maria Inês Tiraboschi Ferro, Érica Barbosa Felestrino, Universidade Federal de Ouro Preto (UFOP), Instituto Prístino, Universidade Federal de Mato Grosso do Sul (UFMS), Universidade Estadual Paulista (Unesp), Universidade Federal de Minas Gerais (UFMG), Universidade de São Paulo (USP), and Virginia Tech

Subjects

0106 biological sciences, 0301 basic medicine, Genomic Islands, Acclimatization, lcsh:Medicine, Genomics, Flowers, Serratia liquefaciens, 01 natural sciences, Serratia, Genome, Article, 03 medical and health sciences, Extremophiles, Phylogenetics, BACTÉRIAS GRAM-NEGATIVAS, lcsh:Science, Gene, Phylogeny, Genetics, Multidisciplinary, biology, Abiotic stress, Comparative genomics, lcsh:R, biology.organism_classification, Biological Evolution, Lamiales, Genome evolution, 030104 developmental biology, Genes, Bacterial, Horizontal gene transfer, Molecular evolution, lcsh:Q, Brazil, 010606 plant biology & botany, Extreme Environments, Plasmids

Abstract

Serratia liquefaciens strain FG3 (SlFG3), isolated from the flower of Stachytarpheta glabra in the Brazilian ferruginous fields, has distinctive genomic, adaptive, and biotechnological potential. Herein, using a combination of genomics and molecular approaches, we unlocked the evolution of the adaptive traits acquired by S1FG3, which exhibits the second largest chromosome containing the largest conjugative plasmids described for Serratia. Comparative analysis revealed the presence of 18 genomic islands and 311 unique protein families involved in distinct adaptive features. S1FG3 has a diversified repertoire of genes associated with Nonribosomal peptides (NRPs/PKS), a complete and functional cluster related to cellulose synthesis, and an extensive and functional repertoire of oxidative metabolism genes. In addition, S1FG3 possesses a complete pathway related to protocatecuate and chloroaromatic degradation, and a complete repertoire of genes related to DNA repair and protection that includes mechanisms related to UV light tolerance, redox process resistance, and a laterally acquired capacity to protect DNA using phosphorothioation. These findings summarize that SlFG3 is well-adapted to different biotic and abiotic stress situations imposed by extreme conditions associated with ferruginous fields, unlocking the impact of the lateral gene transfer to adjust the genome for extreme environments, and providing insight into the evolution of prokaryotes. Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior -Brazil (CAPES)CAPES [001, CFP 51/2013, 3385/2013]; National Council of Technological and Scientific Development (CNPq)National Council for Scientific and Technological Development (CNPq) [481226/2013-3]; Foundation of Protection to Research of the State of Minas Gerais - FAPEMIG [APQ-02387-14, APQ-02357-17]; CNPqNational Council for Scientific and Technological Development (CNPq); Fundect-MS [TO 141/2016, TO 007/2015, 007/2015 SIAFEM 025139]; UFOP grants; Laboratory of Biochemistry and Molecular Biology of the Faculty of Agrarian and Veterinary Sciences UNESP, Jaboticabal campus Thanks to all members of the Laboratory of Biochemistry and Molecular Biology (LBBM, Federal University of Ouro Preto, UFOP) and to the Laboratory of Biochemistry and Molecular Biology of the Faculty of Agrarian and Veterinary Sciences UNESP, Jaboticabal campus, for their support. This study was financed in part by the Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior -Brazil (CAPES) - Finance Code 001 - (the BIGA Project, CFP 51/2013, process 3385/2013), National Council of Technological and Scientific Development (CNPq Process 481226/2013-3), and Foundation of Protection to Research of the State of Minas Gerais - FAPEMIG (process APQ-02387-14 and process APQ-02357-17). LMM, JCS, AMV, NFA and JAF have a research fellowship from CNPq. NFA has grants from Fundect-MS (TO 141/2016 and TO 007/2015) and Fundect-MS (007/2015 SIAFEM 025139). LAGM and LMM have UFOP grants. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Published

2019

43. Phylogenetic analysis of mutational robustness based on codon usage supports that the standard genetic code does not prefer extreme environments

Author

Ádám Radványi and Ádám Kun

Subjects

0301 basic medicine, Translation, Salinity, Information theory, Hot Temperature, Evolution, Science, Origin of Life, Context (language use), Computational biology, Biology, Article, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Phylogenetics, Molecular evolution, Least-Squares Analysis, Selection, Genetic, Codon, Codon Usage, Selection (genetic algorithm), Phylogeny, Multidisciplinary, Phylogenetic tree, Models, Genetic, Robustness (evolution), Genetic Variation, Bayes Theorem, Genetic code, 030104 developmental biology, Amino Acid Substitution, Genetic Code, Codon usage bias, Protein Biosynthesis, Mutation, Medicine, 030217 neurology & neurosurgery, Extreme Environments

Abstract

The mutational robustness of the genetic code is rarely discussed in the context of biological diversity, such as codon usage and related factors, often considered as independent of the actual organism’s proteome. Here we put the living beings back to picture and use distortion as a metric of mutational robustness. Distortion estimates the expected severities of non-synonymous mutations measuring it by amino acid physicochemical properties and weighting for codon usage. Using the biological variance of codon frequencies, we interpret the mutational robustness of the standard genetic code with regards to their corresponding environments and genomic compositions (GC-content). Employing phylogenetic analyses, we show that coding fidelity in physicochemical properties can deteriorate with codon usages adapted to extreme environments and these putative effects are not the artefacts of phylogenetic bias. High temperature environments select for codon usages with decreased mutational robustness of hydrophobic, volumetric, and isoelectric properties. Selection at high saline concentrations also leads to reduced fidelity in polar and isoelectric patterns. These show that the genetic code performs best with mesophilic codon usages, strengthening the view that LUCA or its ancestors preferred lower temperature environments. Taxonomic implications, such as rooting the tree of life, are also discussed.

Published

2021

44. High daily energy expenditure of Tuvan nomadic pastoralists living in an extreme cold environment.

Author

Sellers AJ, Khovalyg D, Plasqui G, and van Marken Lichtenbelt W

Subjects

Humans, Cold Temperature, Extreme Environments, Energy Metabolism, Thermogenesis, Extreme Cold

Abstract

Research investigating thermoregulatory energy costs in free-living humans is limited. We determined the total energy expenditure (TEE) of Tuvan pastoralists living in an extreme cold environment and explored the contribution of physical activity and cold-induced thermogenesis. Twelve semi-nomadic pastoralists (47 ± 8 years, 64 ± 8 kg) living under traditional circumstances, in Tuva, south-central Siberia, Russia, were observed during two consecutive 6-day periods in winter. TEE was measured via the doubly labelled water technique. Skin and ambient temperatures, and physical activity were continuously monitored. The outdoor temperature during the observation period was - 27.4 ± 5.4 °C. During the daytime, the participants were exposed to ambient temperatures below 0 °C for 297 ± 131 min/day. The Tuvan pastoralists were more physically active compared to western populations (609 ± 90 min/day of light, moderate, and vigorous physical activity). In addition, TEE was 13.49 ± 1.33 MJ/day (3224 ± 318 kcal/day), which was significantly larger by 17% and 31% than predicted by body mass, and fat-free mass, respectively. Our research suggests the daily cold exposure combined with high levels of physical activity contributed to the elevated TEE. Future research should reconsider the assumption that energy costs due to thermoregulation are negligible in free-living humans., (© 2022. The Author(s).)

Published

2022

45. Endophytic Bacterial Communities Associated with Roots and Leaves of Plants Growing in Chilean Extreme Environments

Author

Sergio Radic, Qian Zhang, Nitza G. Inostroza, Milko A. Jorquera, Michael J. Sadowsky, María de la Luz Mora, and Jacquelinne J. Acuña

Subjects

0301 basic medicine, Pluchea, DNA, Bacterial, Firmicutes, lcsh:Medicine, Endophyte, Plant Roots, Distichlis, Article, Actinobacteria, 03 medical and health sciences, 0302 clinical medicine, RNA, Ribosomal, 16S, Botany, Endophytes, Chile, lcsh:Science, Soil Microbiology, Multidisciplinary, biology, Bacteria, Microbiota, lcsh:R, fungi, Bacteroidetes, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Plants, biology.organism_classification, Plant Leaves, 030104 developmental biology, lcsh:Q, Proteobacteria, Gaultheria mucronata, 030217 neurology & neurosurgery, Extreme Environments

Abstract

Several studies have demonstrated the relevance of endophytic bacteria on the growth and fitness of agriculturally-relevant plants. To our knowledge, however, little information is available on the composition, diversity, and interaction of endophytic bacterial communities in plants struggling for existence in the extreme environments of Chile, such as the Atacama Desert (AD) and Patagonia (PAT). The main objective of the present study was to analyze and compare the composition of endophytic bacterial communities associated with roots and leaves of representative plants growing in Chilean extreme environments. The plants sampled were: Distichlis spicate and Pluchea absinthioides from the AD, and Gaultheria mucronata and Hieracium pilosella from PAT. The abundance and composition of their endophytic bacterial communities was determined by quantitative PCR and high–throughput sequencing of 16S rRNA, respectively. Results indicated that there was a greater abundance of 16S rRNA genes in plants from PAT (1013 to 1014 copies g−1 DNA), compared with those from AD (1010 to 1012 copies g−1 DNA). In the AD, a greater bacterial diversity, as estimated by Shannon index, was found in P. absinthioides, compared with D. spicata. In both ecosystems, the greater relative abundances of endophytes were mainly attributed to members of the phyla Proteobacteria (14% to 68%), Firmicutes (26% to 41%), Actinobacteria (6 to 23%) and Bacteroidetes (1% to 21%). Our observations revealed that most of operational taxonomic units (OTUs) were not shared between tissue samples of different plant species in both locations, suggesting the effect of the plant genotype (species) on the bacterial endophyte communities in Chilean extreme environments, where Bacillaceae and Enterobacteriacea could serve as keystone taxa as revealed our linear discriminant analysis.

Published

2019

46. Nest substrate reflects incubation style in extant archosaurs with implications for dinosaur nesting habits

Author

Yoshitsugu Kobayashi, Darla K. Zelenitsky, François Therrien, and Kohei Tanaka

Subjects

0106 biological sciences, 010506 paleontology, lcsh:Medicine, Environment, Biology, 010603 evolutionary biology, 01 natural sciences, Article, Dinosaurs, Nesting Behavior, Extant taxon, Nest, Animals, Ecosystem, lcsh:Science, Incubation, History, Ancient, Ovum, 0105 earth and related environmental sciences, Multidisciplinary, Behavior, Animal, Arctic Regions, Fossils, Ecology, Paleography, Reproduction, lcsh:R, Substrate (marine biology), Polar circle, Biological dispersal, Nesting (computing), lcsh:Q, Female, Extreme Environments

Abstract

Dinosaurs thrived and reproduced in various regions worldwide, including the Arctic. In order to understand their nesting in diverse or extreme environments, the relationships between nests, nesting environments, and incubation methods in extant archosaurs were investigated. Statistical analyses reveal that species of extant covered nesters (i.e., crocodylians and megapodes) preferentially select specific sediments/substrates as a function of their nesting style and incubation heat sources. Relationships between dinosaur eggs and the sediments in which they occur reveal that hadrosaurs and some sauropods (i.e., megaloolithid eggs) built organic-rich mound nests that relied on microbial decay for incubation, whereas other sauropods (i.e., faveoloolithid eggs) built sandy in-filled hole nests that relied on solar or potentially geothermal heat for incubation. Paleogeographic distribution of mound nests and sandy in-filled hole nests in dinosaurs reveals these nest types produced sufficient incubation heat to be successful up to mid latitudes (≤47°), 10° higher than covered nesters today. However, only mound nesting and likely brooding could have produced sufficient incubation heat for nesting above the polar circle (>66°). As a result, differences in nesting styles may have placed restrictions on the reproduction of dinosaurs and their dispersal at high latitudes.

Published

2018

47. Extreme climate event promotes phenological mismatch between sexes in hibernating ground squirrels.

Author

Kucheravy CE, Waterman JM, Dos Anjos EAC, Hare JF, Enright C, and Berkvens CN

Subjects

Animals, Climate, Climate Change, Extreme Environments, Female, Male, Periodicity, Seasons, Sex Factors, Sperm Motility, Hibernation physiology, Sciuridae physiology, Sexual Behavior, Animal physiology

Abstract

Hibernating ground squirrels rely on a short active period for breeding and mass accrual, and are thus vulnerable to extreme climate events that affect key periods in their annual cycle. Here, we document how a heatwave in March 2012 led to a phenological mismatch between sexes in Richardson's ground squirrels (Urocitellus richardsonii). Females emerged from hibernation and commenced breeding earlier in 2012 relative to average female emergence. Although males had descended testes and pigmented scrota, it appeared that not all males were physiologically prepared to breed since 58.6% of males had non-motile sperm when breeding commenced. Body condition, relative testes size, and the relative size of accessory glands were significant predictors of sperm motility. Males with non-motile sperm had smaller accessory glands than males with motile sperm. There was no decrease in the number of juveniles that emerged in 2012 or female yearlings recruited in 2013, nor did juveniles emerge later than other years. The impact of this heatwave on male ground squirrels emphasizes the importance of assessing the consequences of climate change on the breeding success of hibernating species in both sexes, since the different sensitivity to external cues for emergence led to a mismatch in timing under this event., (© 2021. The Author(s).)

Published

2021

48. High hydrostatic pressure shapes the development and production of secondary metabolites of Mariana Trench sediment fungi.

Author

Peng Q, Li Y, Deng L, Fang J, and Yu X

Subjects

Aquatic Organisms classification, Aquatic Organisms growth & development, Aquatic Organisms isolation & purification, Hydrostatic Pressure, Pacific Ocean, Extreme Environments, Fungi classification, Fungi growth & development, Fungi isolation & purification, Water Microbiology

Abstract

The hadal biosphere is one of the least understood ecosystems on our planet. Recent studies have revealed diverse and active communities of prokaryotes in hadal sediment. However, there have been few studies on fungi in hadal sediment. Here we report the first isolation and cultivation of 8 fungi from the Mariana Trench sediment. The individual colonies were isolated and identified as Stemphylium sp., Cladosporium sp., Arthrinium sp., Fusarium sp., Alternaria sp., and Aspergillus sp. High hydrostatic pressure (HHP) test was carried out to identify the piezophily of these hadal fungi. Among them, 7 out of the 8 fungal isolates exhibited the ability of germination after incubation under 40 MPa for 7 days. Vegetative growth of the isolates was also affected by HHP. Characterization of secondary metabolites under different pressure conditions was also performed. The production of secondary metabolites was affected by the HHP treatment, improving the potential of discovering novel natural products from hadal fungi. The antibacterial assay revealed the potential of discovering novel natural products. Our results suggest that fungal growth pressure plays an important role in the development and production of secondary metabolites of these hadal fungi under the extreme environment in the Mariana Trench.

Published

2021

49. Retraction Note: Novel life history strategy in a deep sea fish challenges assumptions about reproduction in extreme environments.

Author

Singer, Randal A., Moore, Jon A., and Stanley, Edward L.

Subjects

*FISH reproduction, *EXTREME environments

Abstract

Editor's Note: this Article has been retracted; the Retraction Note is available at 10.1038/s41598-020-75408-8. [ABSTRACT FROM AUTHOR]

Published

2020

50. Phylogenetic analysis of mutational robustness based on codon usage supports that the standard genetic code does not prefer extreme environments.

Author

Radványi Á and Kun Á

Subjects

Amino Acid Substitution, Bayes Theorem, Codon, Genetic Variation, Hot Temperature, Least-Squares Analysis, Models, Genetic, Phylogeny, Protein Biosynthesis, Salinity, Selection, Genetic, Codon Usage, Evolution, Molecular, Extreme Environments, Genetic Code, Mutation, Origin of Life

Abstract

The mutational robustness of the genetic code is rarely discussed in the context of biological diversity, such as codon usage and related factors, often considered as independent of the actual organism's proteome. Here we put the living beings back to picture and use distortion as a metric of mutational robustness. Distortion estimates the expected severities of non-synonymous mutations measuring it by amino acid physicochemical properties and weighting for codon usage. Using the biological variance of codon frequencies, we interpret the mutational robustness of the standard genetic code with regards to their corresponding environments and genomic compositions (GC-content). Employing phylogenetic analyses, we show that coding fidelity in physicochemical properties can deteriorate with codon usages adapted to extreme environments and these putative effects are not the artefacts of phylogenetic bias. High temperature environments select for codon usages with decreased mutational robustness of hydrophobic, volumetric, and isoelectric properties. Selection at high saline concentrations also leads to reduced fidelity in polar and isoelectric patterns. These show that the genetic code performs best with mesophilic codon usages, strengthening the view that LUCA or its ancestors preferred lower temperature environments. Taxonomic implications, such as rooting the tree of life, are also discussed.

Published

2021