Your search keyword '"EXTREME ENVIRONMENTS"' showing total 8,082 results

101. UWB-Based Human-Following System with Obstacle and Crevasse Avoidance for Polar-Exploration Robots.

Author

Kwon, Ji-Wook, Lee, Hyoujun, Lee, Jongdeuk, Lee, Na-Hyun, Kim, Jong Chan, Uhm, Taeyoung, and Choi, Young-Ho

Subjects

EXTREME environments, ROBOTS, EXPLORERS, ALGORITHMS, SUCCESS

Abstract

This paper introduces a UWB-based human-following system for polar-exploration robots, integrating obstacle and crevasse avoidance functions to enhance the safety and efficiency of explorers in extreme environments. The proposed system determines the relative position of the explorer using UWB anchors and tags. It also utilizes real-time local obstacle mapping and path-planning algorithms to find safe paths that avoid collisions with obstacles. Simulation and real-world experiments confirm that the proposed system operates effectively in polar environments, reducing the operational burden on explorers and increasing mission success rates. [ABSTRACT FROM AUTHOR]

Published

2024

102. How Thick Aqueous Alkali Should be Better for Aluminum‐Air Batteries at Sub‐Zero Temperatures: A Critical Anti‐Freezing Concentration.

Author

Cui, Hongyu, Gao, Ming, Cao, Guoqin, Liu, Fanfan, Hu, Junhua, and Ban, Jinjin

Subjects

*AQUEOUS electrolytes, *FREEZING points, *CRITICAL temperature, *EXTREME environments, *HYDROGEN bonding

Abstract

The application of portable aluminum‐air batteries (AABs) in extreme environments is an inevitable demand for future development. Aqueous electrolyte freezing is a major challenge for low‐temperature operations. Conventionally, enlightened by the organic system in metal ion batteries, blindly increasing the concentration is regarded as an efficient technique to reduce the freezing point (FP). However, the underlying contradiction between the adjusting mechanism of the FP and OH− transportation is ignored. Herein, the aqueous alkali solution of CsOH is researched as a prototype to disclose the intrinsic conductive behavior and related solvent structure evolution. Different from these inorganic electrolyte systems, the concept of a critical anti‐freezing concentration (CFC) is proposed based on a specific temperature. The relationship between hydrogen bond reconstruction and de‐solvation behavior is analyzed. A high conductivity is obtained at −30 °C, which is also a recorded value in an intrinsic aqueous AAB. The homogenous dissolution of the Al anode is also observed. As a general rule, the CFC concept is also applied in both the KOH and NaOH systems. [ABSTRACT FROM AUTHOR]

Published

2024

103. Rumen microbiota helps Tibetan sheep obtain energy more efficiently to survive in the extreme environment of the Qinghai–Tibet Plateau.

Author

Xiukun Wu, Gaosen Zhang, Wei Zhang, Jianwei Zhou, Haitao Cong, Guo Yang, and Guangxiu Liu

Subjects

SHEEP breeds, EXTREME environments, LOW-protein diet, SHEEP breeding, ENERGY metabolism, RUMEN fermentation

Abstract

Introduction: T-sheep and H-sheep exhibit different environmental adaptability and production performance. The rumen microbiome has co-evolved with hosts and plays a vital role in nutrient digestion and energy metabolism. In our previous study, we found that T-sheep have a higher efficiency in energy metabolism than H-sheep, but the rumen microbial community remains unclear. Methods: In this study, we determined the rumen bacterial profile and rumen fermentation parameters to reveal the bacterial profiles and predictive functions among breeds and diets with four different energy levels, as well as the correlation between bacterial profiles and rumen fermentation characteristics. Results: The results showed that the rumen total volatile fatty acids (VFAs), acetate, butyrate, total branched-chain VFAs, iso-butyrate, and iso-valerate were higher in T-sheep than H-sheep. The alpha diversity of ruminal bacteria is not affected by dietary energy, but it shows a distinction between the sheep breeds. Specifically, T-sheep rumen bacteria exhibit higher alpha diversity than H-sheep. The beta diversity of ruminal bacteria is not influenced by dietary energy or sheep breeds, indicating similar communities of ruminal bacteria between different diets and sheep breeds. The phyla of Bacteroidetes and Firmicutes predominate in the rumen, with a higher relative abundance of Firmicutes observed in T-sheep than H-sheep. The two most abundant genera in the rumen were Prevotella 1 and Rikenellaceae RC9 gut group. Prevotella 1 is the predominant bacterial genus in the rumen of H-sheep, while the Rikenellaceae RC9 gut group dominates in the rumen of T-sheep. Microbial co-occurrence network analysis reveals that variations in rumen fermentation characteristics result from differences in module abundance, with a higher abundance of VFA-producing modules observed in the rumen of T-sheep. Microbial function prediction analysis showed that dietary energy rarely alters the functional composition of rumen bacteria. However, there were differences in the functions of rumen bacteria between sheep breeds, with T-sheep showing a greater emphasis on energy metabolism-related functions, while H-sheep showed a greater emphasis on protein metabolism-related functions. Discussion: These findings provide evidence of the special rumen microbial community that helps T-sheep efficiently obtain energy from low-protein and low-energy diets, enabling them to survive in the extreme environment of the Qinghai–Tibet Plateau. [ABSTRACT FROM AUTHOR]

Published

2024

104. Seed endophytes and rhizosphere microbiome of Imperata cylindrica, a pioneer plant of abandoned mine lands.

Author

Wenqin Mao, Ying Wu, Qiaohong Li, Yingying Xiang, Wenting Tang, Haiyan Hu, Xiuling Ji, and Haiyan Li

Subjects

ABANDONED mines, NITROGEN fixation, NUTRIENT cycles, RHIZOSPHERE, LAND mines, EXTREME environments, ENDOPHYTIC bacteria

Abstract

Some plant-associated microorganisms could improve host plants biotic and abiotic stress tolerance. Imperata cylindrica is a dominant pioneer plant in some abandoned mine lands with higher concentrations of heavy metal (HM). To discover the specific microbiome of I. cylindrica in this extreme environment and evaluate its role, the microbiome of I. cylindrica’s seeds and rhizosphere soils from HM heavily contaminated (H) and lightly contaminated (L) sites were studied. It was found that HM-contamination significantly reduced the richness of endophytic bacteria in seeds, but increased the abundance of resistant species, such as Massilia sp. and Duganella sp. Spearman’s rank correlation coefficient analysis showed that both Massilia sp. and Duganella sp. showed a significant positive correlation with Zn concentration, indicating that it may have a strong tolerance to Zn. A comparison of the microbiome of rhizosphere soils (RS) and adjacent bare soils (BS) of site H showed that I. cylindrica colonization significantly increased the diversity of fungi in rhizosphere soil and the abundance of Ascomycota associated with soil nutrient cycling. Spearman’s rank correlation coefficient analysis showed that Ascomycota was positively correlated with the total nitrogen. Combined with the fact that the total nitrogen content of RS was significantly higher than that of BS, we suppose that Ascomycota may enhance the nitrogen fixation of I. cylindrica, thereby promoting its growth in such an extreme environment. In conclusion, the concentration of HM and nutrient contents in the soil significantly affected the microbial community of rhizosphere soils and seeds of I. cylindrica, in turn, the different microbiomes further affected soil HM concentration and nutrient contents. The survival of I. cylindrica in HM severely contaminated environment may mainly be through recruiting more microorganisms that can enhance its nutrition supply. [ABSTRACT FROM AUTHOR]

Published

2024

105. Radioactivity as a driver of bacterial community composition in naturally radioactive mineral springs in the French Massif Central.

Author

Holub, Guillaume, Sergeant, Claire, Bailly, Céline, Beauger, Aude, Breton, Vincent, Chardon, Patrick, Montavon, Gilles, Vesvres, Marie-Hélène, and Mallet, Clarisse

Subjects

NUCLEOTIDE sequencing, RADIOACTIVE substances, SPRING, NATURAL radioactivity, BACTERIAL communities, RADIOISOTOPES, EXTREME environments, BACTERIAL diversity

Abstract

Some natural environments on Earth are characterised by high levels of radiation, including naturally radioelement enriched mineral springs in the French Massif Central. Therefore, naturally radioactive mineral springs are interesting ecosystems for understanding how bacterial populations in these springs have adapted to high levels of natural and chronic radioactivity over the very long term. The aim of this study was to analyse the bacterial communities of sediments from five naturally radioactive mineral springs in the French Massif Central, sampled in autumn 2019 and spring 2020, and to observe whether radionuclides, compared to other physicochemical parameters, are drivers of the bacterial community structuring in these extreme environments. Physicochemical measurements showed that two springs, Dourioux and Montagne had high radioelement concentrations/activities (uranium, thorium and radon). Analysis of the structure of the bacterial communities, by next generation sequencing based on 16S rRNA gene sequencing, showed that the presence of radionuclides in Dourioux and Montagne, did not lead to a reduction in bacterial diversity and richness compared to the other springs. However, Dourioux and Montagne were characterised by specific bacterial populations, whose presence correlates with the radioelement concentrations/activities measured in these springs. This suggests that radioelements could partly explain the structuring of bacterial communities in these springs. In addition, several of these operational taxonomic units (OTUs) specific to Dourioux and Montagne, mainly affiliated to Proteobacteria, Firmicutes, Acidobacteria, Actinobacteria, and Bacteroidetes, could be involved in the biogeochemistry of radionuclides through different mechanisms (biosorption, biomineralisation, bioaccumulation, and bioreduction), which would allow the development of other bacterial species sensitive to these metals/radioelements. In particular, the co-occurrence of sulphate and/or iron-reducing bacteria, capable of bioreducing uranium, with fermentative bacteria, releasing sources of organic carbons, reflects associations of bacteria with complementary functions that allow them to grow in this peculiar environment and maintain a high diversity in these extreme environments. This study has provided a better understanding of the structuring of bacterial communities exposed to ionising radiation for thousands of years in naturally radioactive environments. [ABSTRACT FROM AUTHOR]

Published

2024

106. Synthesis of Photoresponsive Fast Self‐healing Polyolefin Composites by Nickel‐Catalyzed Copolymerization of Ethylene and Lignin Cluster Monomers.

Author

Chen, Jiawei, Chen, Ao, Zou, Chen, and Chen, Changle

Abstract

Polymers may suffer from sudden mechanical damages during long‐term use under various harsh operating environments. Rapid and real‐time self‐healing will extend their service life, which is particularly attractive in the context of circular economy. In this work, a lignin cluster polymerization strategy (LCPS) was designed to prepare a series of lignin functionalized polyolefin composites with excellent mechanical properties through nickel catalyzed copolymerization of ethylene and lignin cluster monomers. These composites can achieve rapid self‐healing within 30 seconds under a variety of extreme usage environments (underwater, seawater, extremely low temperatures as low as −60 °C, organic solvents, acid/alkali solvents, etc.), which is of great significance for real‐time self‐healing of sudden mechanical damage. More importantly, the dynamic cross‐linking network within these composites enable great re‐processability and amazing sealing performances. [ABSTRACT FROM AUTHOR]

Published

2024

107. National environmental programs and local social-ecological system change in dryland China: implications for environmental governance.

Author

Zheng-Hong Kong, Paavola, Jouni, and Stringer, Lindsay C.

Subjects

*STANDARD of living, *EXTREME weather, *SOCIAL security, *COST of living, *SOCIAL capital, *DESERTIFICATION, *EXTREME environments

Abstract

Interdependence of ecological and social systems is widely acknowledged, but consideration of how local communities are influenced by processes at other sectors or scales is often omitted. This research addresses this gap by examining the implementation of China's national environmental programs (NEPs) to combat desertification. We investigate (a) the changes in local social-ecological systems and the role of the NEPs therein since the year 2000; (b) how the changes have affected local livelihoods and behaviors and attitudes toward the NEPs and the land; and (c) the role of other drivers in the changes and their implications. Interviews and surveys were conducted with scientists, grassroots implementers, and local farmers and herders. Secondary socioeconomic data were used to understand broader changes and drivers. Our results indicate that the NEPs generated both positive and negative biophysical and socioeconomic changes, and that they were both supported and disrupted by institutions at other sectors and scales. Although farmers and herders appreciated an improved environment and living standards, they suffered from other changes, such as reduced arable land area, rising costs of living and production, precarious markets, and extreme weather events. Absence of social security and limited social capital made farmers and herders unable to engage in long-term practices that support land conservation and their well-being. The findings highlight the need to foster systemic resilience in local communities through the provision of social security and social capital building to navigate the changing world. [ABSTRACT FROM AUTHOR]

Published

2024

108. Piezochromic Behavior of 2,4,6‐Triphenylpyrylium Tetrachloroferrate.

Author

Canasa, Princess, King, David, Cifligu, Petrika, Lua Sanchez, Adrian F., Chen, Si L., Han, Haesook, Malik, Trimaan, Billinghurst, Brant, Zhao, Jianbao, Park, Changyong, Rossman, George R., Pravica, Michael, Bhowmik, Pradip K., and Evlyukhin, Egor

Subjects

*PYRYLIUM compounds, *DIAMOND anvil cell, *CHARGE exchange, *EXTREME environments, *PHASE transitions

Abstract

In advanced photonics, there is a growing interest in piezochromic luminescent materials that exhibit multicolor switching, driven by their potential applications in optical recording, memory, and sensors. Here, the piezochromic behavior of 2,4,6‐triphenylpyrylium tetrachloroferrate (Py‐FeCl4) under high pressures from 0 to 9 GPa is reported. The observed multicolor changing properties of Py‐FeCl4 (yellow–orange–red–maroon–black) are found to be fully reversible upon decompression to ambient conditions. The mechanism of Py‐FeCl4 piezochromism is investigated via Raman, infrared, and UV–vis spectroscopy combined with powder X‐ray Diffraction. The absence of structural phase transitions as well as the abrupt shifts of bandgap values together with characteristic Raman and IR peaks within 0‐9 GPa suggests that the Py‐FeCl4 multicoloring switching behavior is driven by an electron transfer between the inorganic FeCl4− anion and the organic pyrylium cation. The obtained results demonstrate that Py‐FeCl4 dye is a good candidate for developing high‐pressure sensing technologies designed to function in extreme environments. Moreover, due to the inherent role of molecular‐structure relationships in the pyrylium salt's photophysical properties, findings suggest the potential discovery of piezochromic behavior in other pyrylium compounds. [ABSTRACT FROM AUTHOR]

Published

2024

109. Genomics of ecological adaptation in Canary Island Descurainia (Brassicaceae) and comparisons with other Brassicaceae.

Author

Jackson, Amy C., Carine, Mark A., and Chapman, Mark A.

Subjects

*GENE families, *MOLECULAR evolution, *ENDEMIC species, *EXTREME environments, *BIOGEOGRAPHY

Abstract

Oceanic archipelagos provide striking examples of lineages that have radiated over pronounced ecological gradients. Accompanying this diversification, lineages have evolved adaptations allowing survival in extreme environments. Here, we investigate the genomic basis of ecological adaptation in Canary Island Descurainia (Brassicaceae), an island relative of Arabidopsis. The seven endemic species have diversified in situ along an elevational and ecological gradient, from low‐elevation scrub to high‐elevation sub‐alpine desert. We first generated a reference genome for Descurainia millefolia, phylogenetic analysis of which placed it as sister to D. sophioides. Ninety‐six gene families were found to be specific to D. millefolia and a further 1087 and 1469 gene families have expanded or contracted in size, respectively, along the D. millefolia branch. We then employed genome re‐sequencing to sample 14 genomes across the seven species of Canary Island Descurainia and an outgroup. Phylogenomic analyses were consistent with previous reconstructions of Canary Island Descurainia in resolving low‐ and high‐elevation clades. Using the branch‐site dN/dS method, we detected positive selection for 275 genes on the branch separating the low‐ and high‐elevation species and these positively selected genes (PSGs) were significantly enriched for functions related to reproduction and stress tolerance. Comparing PSGs to those in analyses of adaptation to elevation and/or latitude in other Brassicaceae, we found little evidence of widespread convergence and gene reuse, except for two examples, one of which was a significant overlap between Descurainia and Draba nivalis, a species restricted to high latitudes. The study of Canary Island Descurainia suggests that the transition to high‐elevation environments such as that found in the high mountains of the Canary Islands involves selection on genes related to reproduction and stress tolerance but that repeated evolution across different lineages that have evolved into similar habitats is limited, indicating substantially different molecular trajectories to adaptation. [ABSTRACT FROM AUTHOR]

Published

2024

110. Neoscytalidium dimidiatum associated with Albizia lebbeck disease in Saudi Arabia: Symptomatology, pathogenicity and molecular identification.

Author

Hamed, Khalid E., Alsohim, Abdullah S., Baschien, Christiane, and Sayyed, Riyaz Z.

Subjects

*ELONGATION factors (Biochemistry), *TISSUE culture, *PLANT diseases, *FUNGAL colonies, *EXTREME environments, *TUBULINS

Abstract

Botryosphaeriaceae fungi cause infections that generate disease symptoms in plants in extreme environments. The present study identified the causal agent of dieback disease on lebbeck trees in Saudi Arabia. Albizia lebbeck trees showed widespread dieback, decline and cracking symptoms of samples taken during a Qassim University, Saudi Arabia survey. The survey showed that over 80% of lebbeck trees showed wilted roots, stem cankers and death of wilted trees. Fungal colonies were obtained from symptomatic tissues cultured on water agar for 3 weeks at 25°C. Elongation factor alpha (EF1‐728 F, AL33R), ITS (ITS4) and LSU (128) regions of the rDNA operon and the partial beta‐tubulin gene (tub2; Bt2aF, Bt2bR) were sequenced for molecular identification. Based on morphological and molecular characterization, the pathogen was identified as Neoscytalidium dimidiatum. During the pathogenicity investigation, the fungus re‐isolated from the infected seedlings expressed the same morphological characteristics on the culture media as the N. dimidiatum isolate. A host range study involving six tree species inoculation with N. dimidiatum caused wilting and death in three plants. To our knowledge, this study is the first to report on N. dimidiatum in Saudi Arabia. [ABSTRACT FROM AUTHOR]

Published

2024

111. Direct Ink Writing of SiCN/RuO 2 /TiB 2 Composite Ceramic Ink for High-Temperature Thin-Film Sensors.

Author

Wang, Yusen, Xu, Lida, Zhou, Xiong, Zhao, Fuxin, Liu, Jun, Wang, Siqi, Sun, Daoheng, and Chen, Qinnan

Subjects

*HEAT flux, *EXTREME environments, *METALLIC surfaces, *TEMPERATURE sensors, *HIGH temperatures

Abstract

Direct ink writing (DIW) of high-temperature thin-film sensors holds significant potential for monitoring extreme environments. However, existing high-temperature inks face a trade-off between cost and performance. This study proposes a SiCN/RuO2/TiB2 composite ceramic ink. The added TiB2, after annealing in a high-temperature atmospheric environment, forms B2O3 glass, which synergizes with the SiO2 glass phase formed from the SiCN precursor to effectively encapsulate RuO2 particles. This enhances the film's density and adhesion to the substrate, preventing RuO2 volatilization at high temperatures. Additionally, the high conductivity of TiB2 improves the film's overall conductivity. Test results indicate that the SiCN/RuO2/TiB2 film exhibits high linearity from room temperature to 900 °C, high stability (resistance drift rate of 0.1%/h at 800 °C), and high conductivity (4410 S/m). As a proof of concept, temperature sensors and a heat flux sensor were successfully fabricated on a metallic hemispherical surface. Performance tests in extreme environments using high-power lasers and flame guns verified that the conformal thin-film sensor can accurately measure spherical temperature and heat flux, with a heat flux sensor response time of 53 ms. In conclusion, the SiCN/RuO2/TiB2 composite ceramic ink developed in this study offers a high-performance and cost-effective solution for high-temperature conformal thin-film sensors in extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

112. Investigating Polyextremophilic Bacteria in Al Wahbah Crater, Saudi Arabia: A Terrestrial Model for Life on Saturn's Moon Enceladus.

Author

dos Santos, Alef, Schultz, Júnia, Almeida Trapp, Marilia, Modolon, Fluvio, Romanenko, Andrii, Kumar Jaiswal, Arun, Gomes, Lucas, Rodrigues-Filho, Edson, and Rosado, Alexandre Soares

Subjects

*ASTROBIOLOGY, *NATURAL satellites, *EXTRATERRESTRIAL life, *EXTREME environments, *LUNAR craters, *MASS spectrometry

Abstract

The study of extremophilic microorganisms has sparked interest in understanding extraterrestrial microbial life. Such organisms are fundamental for investigating life forms on Saturn's icy moons, such as Enceladus, which is characterized by potentially habitable saline and alkaline niches. Our study focused on the salt-alkaline soil of the Al Wahbah crater in Saudi Arabia, where we identified microorganisms that could be used as biological models to understand potential life on Enceladus. The search involved isolating 48 bacterial strains, sequencing the genomes of two thermo-haloalkaliphilic strains, and characterizing them for astrobiological application. A deeper understanding of the genetic composition and functional capabilities of the two novel strains of Halalkalibacterium halodurans provided valuable insights into their survival strategies and the presence of coding genes and pathways related to adaptations to environmental stressors. We also used mass spectrometry with a molecular network approach, highlighting various classes of molecules, such as phospholipids and nonproteinogenic amino acids, as potential biosignatures. These are essential features for understanding life's adaptability under extreme conditions and could be used as targets for biosignatures in upcoming missions exploring Enceladus' orbit. Furthermore, our study reinforces the need to look at new extreme environments on Earth that might contribute to the astrobiology field. [ABSTRACT FROM AUTHOR]

Published

2024

113. The Mechanisms of Cadmium Stress Mitigation by Fungal Endophytes from Maize Grains.

Author

Awais, Muhammad, Xiang, Yingying, Yang, Dian, Lai, Yibin, Cai, Fenglian, Shah, Naila, Khan, Majid, and Li, Haiyan

Subjects

*ENDOPHYTIC fungi, *AGRICULTURAL productivity, *FOOD supply, *FOOD safety, *EXTREME environments

Abstract

Maize is a crucial staple crop that ensures global food security by supplying essential nutrients. However, heavy metal (HM) contamination inhibits maize growth, reduces output, and affects food security. Some endophytic fungi (EFs) in maize seeds have the potential to enhance growth and increase dry biomass, offering a solution to mitigate the negative effect of HM contamination. Using these functional EFs could help maintain crop production and ensure food safety in HM-contaminated areas. In the present study, the diversity of EFs in corn grains from various HM-contaminated areas in China was studied through culture-dependent and culture-independent methods. We tested the plant growth-promoting (PGP) traits of several dominant culturable isolates and evaluated the growth-promoting effects of these twenty-one isolates through pot experiments. Both studies showed that HM contamination increased the diversity and richness of corn grain EFs and affected the most dominant endophytes. Nigrospora and Fusarium were the most prevalent culturable endophytes in HM-contaminated areas. Conversely, Cladosporium spp. were the most isolated endophytes in non-contaminated areas. Different from this, Saccharomycopsis and Fusarium were the dominant EFs in HM-contaminated sites, while Neofusicoccum and Sarocladium were dominant in non-contaminated sites, according to a culture-independent analysis. PGP trait tests indicated that 70% of the tested isolates (forty-two) exhibited phosphorus solubilization, IAA production, or siderophore production activity. Specifically, 90% of the tested isolates from HM-contaminated sites showed better PGP results than 45% of the isolates from non-contaminated sites. The benefit of the twenty-one isolates on host plant growth was further studied through pot experiments, which showed that all the isolates could improve host plant growth. Among them, strains derived from HM-contaminated sites, including AK18 (Nigrospora), AK32 (Beauveria), SD93 (Gibberellia), and SD64 (Fusarium), had notable effects on enhancing the dry biomass of shoots and roots of maize under Cd stress. We speculate that the higher ratio of PGP EFs in corn grains from HM-contaminated areas may explain their competitiveness in such extreme environments. Fusarium and Cladosporium isolates show high PGP properties, but they can also be phytopathogenic. Therefore, it is essential to evaluate their pathogenic properties and safety for crops before considering their practical use in agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

114. Aspergillus brasiliensis E_15.1: A Novel Thermophilic Endophyte from a Volcanic Crater Unveiled through Comprehensive Genome-Wide, Phenotypic Analysis, and Plant Growth-Promoting Trails.

Author

Martirena-Ramírez, Amanda, Serrano-Gamboa, José Germán, Pérez-Llano, Yordanis, Zenteno-Alegría, Claribel Orquídea, Iza-Arteaga, Mario León, del Rayo Sánchez-Carbente, María, Fernández-Ocaña, Ana María, Batista-García, Ramón Alberto, and Folch-Mallol, Jorge Luis

Subjects

*VOLCANIC craters, *BIOTECHNOLOGY, *METABOLITES, *THERMOPHILIC fungi, *INDUSTRIAL capacity

Abstract

Thermophilic fungi have been seldom studied despite the fact that they can contribute to understanding ecological mechanisms of adaptation in diverse environments and have attractive toolboxes with a wide range of biotechnological applications. This work describes for the first time an endophytic and thermophilic strain of Aspergillus brasiliensis that was isolated in the crater of the active volcano "El Chichonal" in Mexico. This strain was capable of surviving in soil with a temperature of 60 °C and a pH of neutral acidity, which preluded a high thermostability and a potential in industrial application. The complete genome of A. brasiliensis E_15.1 was sequenced and assembled in 37 Mb of genomic DNA. We performed a comprehensive phylogenomic analysis for the precise taxonomic identification of this species as a novel strain of Aspergillus brasiliensis. Likewise, the predicted coding sequences were classified according to various functions including Carbohydrate-Active Enzymes (CAZymes), biosynthetic gene clusters of secondary metabolites (BGCs), and metabolic pathways associated with plant growth promotion. A. brasiliensis E_15.1 was found to degrade chitin, chitooligosaccharides, xylan, and cellulose. The genes to biosynthesize clavaric acid (a triterpene with antitumor activity) were found, thus probably having antitumor activity. In addition to the genomic analysis, a set of enzymatic assays confirmed the thermostability of extracellular xylanases and cellulases of A. brasiliensis E_15.1. The enzymatic repertoire of A. brasiliensis E_15.1 suggests that A. brasiliensis E_15.1 has a high potential for industrial application due to its thermostability and can promote plant growth at high temperatures. Finally, this strain constitutes an interesting source of terpenoids with pharmacological activity. [ABSTRACT FROM AUTHOR]

Published

2024

115. Lessons from Extremophiles: Functional Adaptations and Genomic Innovations across the Eukaryotic Tree of Life.

Author

Rappaport, H B and Oliverio, Angela M

Subjects

*HORIZONTAL gene transfer, *BIOLOGICAL evolution, *EXTREME environments, *TECHNOLOGICAL innovations, *HYDROTHERMAL vents

Abstract

From hydrothermal vents, to glaciers, to deserts, research in extreme environments has reshaped our understanding of how and where life can persist. Contained within the genomes of extremophilic organisms are the blueprints for a toolkit to tackle the multitude of challenges of survival in inhospitable environments. As new sequencing technologies have rapidly developed, so too has our understanding of the molecular and genomic mechanisms that have facilitated the success of extremophiles. Although eukaryotic extremophiles remain relatively understudied compared to bacteria and archaea, an increasing number of studies have begun to leverage 'omics tools to shed light on eukaryotic life in harsh conditions. In this perspective paper, we highlight a diverse breadth of research on extremophilic lineages across the eukaryotic tree of life, from microbes to macrobes, that are collectively reshaping our understanding of molecular innovations at life's extremes. These studies are not only advancing our understanding of evolution and biological processes but are also offering a valuable roadmap on how emerging technologies can be applied to identify cellular mechanisms of adaptation to cope with life in stressful conditions, including high and low temperatures, limited water availability, and heavy metal habitats. We shed light on patterns of molecular and organismal adaptation across the eukaryotic tree of life and discuss a few promising research directions, including investigations into the role of horizontal gene transfer in eukaryotic extremophiles and the importance of increasing phylogenetic diversity of model systems. [ABSTRACT FROM AUTHOR]

Published

2024

116. Molecular Screening for Cyanobacteria and Their Cyanotoxin Potential in Diverse Habitats.

Author

Jablonska, Maša, Eleršek, Tina, Kogovšek, Polona, Skok, Sara, Oarga-Mulec, Andreea, and Mulec, Janez

Subjects

*EXTREME environments, *MICROBIAL mats, *METABOLITES, *CAVES, *PHYCOCYANIN, *CYANOBACTERIAL toxins

Abstract

Cyanobacteria are adaptable and dominant organisms that exist in many harsh and extreme environments due to their great ecological tolerance. They produce various secondary metabolites, including cyanotoxins. While cyanobacteria are well studied in surface waters and some aerial habitats, numerous other habitats and niches remain underexplored. We collected 61 samples of: (i) biofilms from springs, (ii) aerial microbial mats from buildings and subaerial mats from caves, and (iii) water from borehole wells, caves, alkaline, saline, sulphidic, thermal, and iron springs, rivers, seas, and melted cave ice from five countries (Croatia, Georgia, Italy, Serbia, and Slovenia). We used (q)PCR to detect cyanobacteria (phycocyanin intergenic spacer—PC-IGS and cyanobacteria-specific 16S rRNA gene) and cyanotoxin genes (microcystins—mcyE, saxitoxins—sxtA, cylindrospermopsins—cyrJ), as well as amplicon sequencing and morphological observations for taxonomic identification. Cyanobacteria were detected in samples from caves, a saline spring, and an alkaline spring. While mcyE or sxtA genes were not observed in any sample, cyrJ results showed the presence of a potential cylindrospermopsin producer in a biofilm from a sulphidic spring in Slovenia. This study contributes to our understanding of cyanobacteria occurrence in diverse habitats, including rare and extreme ones, and provides relevant methodological considerations for future research in such environments. [ABSTRACT FROM AUTHOR]

Published

2024

117. miRNA and leptin signaling in metabolic diseases and at extreme environments.

Author

Mondal, Samrita, Rathor, Richa, Singh, Som Nath, and Suryakumar, Geetha

Subjects

*PHYSIOLOGICAL effects of cold temperatures, *METABOLIC disorders, *EXTREME environments, *LEPTIN, *GHRELIN receptors, *TYPE 2 diabetes, *MICRORNA

Abstract

The burden of growing concern about the dysregulation of metabolic processes arises due to complex interplay between environment and nutrition that has great impact on genetics and epigenetics of an individual. Thereby, any abnormality at the level of food intake regulating hormones may contribute to the development of metabolic diseases in any age group due to malnutrition, overweight, changing lifestyle, and exposure to extreme environments such as heat stress (HS), cold stress, or high altitude (HA). Hormones such as leptin, adiponectin, ghrelin, and cholecystokinin regulate appetite and satiety to maintain energy homeostasis. Leptin, an adipokine and a pleiotropic hormone, play major role in regulating the food intake, energy gain and energy expenditure. Using in silico approach, we have identified the major genes (LEP, LEPR, JAK2, STAT3, NPY, POMC, IRS1, SOCS3) that play crucial role in leptin signaling pathway. Further, eight miRNAs (hsa‐miR‐204‐5p, hsa‐miR‐211‐5p, hsa‐miR‐30, hsa‐miR‐3163, hsa‐miR‐33a‐3p, hsa‐miR‐548, hsa‐miR‐561‐3p, hsa‐miR‐7856‐5p) from TargetScan 8.0 database were screened out that commonly target these genes. The role of these miRNAs should be explored as they might play vital role in regulating the appetite, energy metabolism, metabolic diseases (obesity, type 2 diabetes, cardiovascular diseases, inflammation), and to combat extreme environments. The miRNAs regulating leptin signaling and appetite may be useful for developing novel therapeutics for metabolic diseases. [ABSTRACT FROM AUTHOR]

Published

2024

118. Pseudanabaena pruinosa sp. nov. (Pseudanabaenales, Cyanobacteria): an Arctic Pseudanabaena species with branched sheaths and central aerotopes.

Author

Aleksovski, Boris, Krstić, Svetislav, Komárek, Jiří, Nguyen, Kim, Pakovski, Kiril, Kiprijanovska, Sanja, Dimovski, Aleksandar, Vuchurević, Ana, Stefanoska, Evgenija, and Strunecký, Otakar

Subjects

*SOIL crusting, *EXTREME environments, *CELL division, *MICROSCOPY, *RIBOSOMAL RNA

Abstract

This study focused on polyphasic evaluation of four psychrophilic Pseudanabaena strains collected from extreme environments characterized by freezing temperatures. The strains were isolated from hydroterrestrial and terrestrial ecosystems in Petuniabukta Bay (Billefjorden, Svalbard), growing as icy microbial soil crusts. In addition to their unique ecology, the phylogenetic analyses of 16S rRNA revealed that the strains form a monophyletic clade within the Pseudanabaena sensu stricto cluster; this clade was unambiguously separated from the other Pseudanabaena infrageneric units, showing <98.5% 16S rRNA sequence identity with the other Pseudanabaena strains available in GenBank and possessing a unique and different D1 ITS region. Polyphasic evaluation of these four strains led to the description of the new species Pseudanabaena pruinosa sp. nov. which can be morphologically distinguished by light microscopy by several unique apomorphic traits not previously detected in Pseudanabaena. These traits include: production of widened, anastomotic branched sheaths enveloping several trichomes into a filament, heteropolar filaments with long trichomes with more than 20 cells, richly pseudobranched filaments forming tree-like structures, production of both polar and central aerotopes, and ability to produce swollen cells and to undergo irregular cell division. The characters observed for Pseudanabaena pruinosa, never reported for other species of Pseudanabaena, substantially widen the taxonomic concept of this genus. Therefore, the description of Pseudanabaena pruinosa sp. nov. with its unique ecology and distinct phylogenetic position and morphological features, is a significant addition to cyanobacteriology and represents a starting point for further research into the evolution of the genus Pseudanabaena. The new combination Pseudanabaena gygaxiana (Casamatta & Johansen) Aleksovski, Krstić & Strunecký is proposed based on16S rRNA, supported by its shared phenotypic traits and similar ecology to Pseudanabaena pruinosa. [ABSTRACT FROM AUTHOR]

Published

2024

119. Damage Localization in Rail Section Using Single AE Sensor Data: An Experimental Investigation with Deep Learning Approach.

Author

Pal, Apurba, Kundu, Tamal, and Datta, Aloke Kumar

Subjects

*DEEP learning, *ARTIFICIAL neural networks, *DAMAGES (Law), *ACOUSTIC emission, *EXTREME environments, *NONDESTRUCTIVE testing

Abstract

Railways serve as a vital link for global trade and transportation in any country, but the rail sections are susceptible to damage due to factors such as traffic, extreme environment, and other unavoidable conditions. Monitoring such damages in real time is crucial to prevent casualties and economic losses. Non-destructive testing (NDT) techniques have been used for damage localization, and the acoustic emission (AE) technique has gained attention for real-time monitoring. However, conventional AE approaches are complex, time-consuming, and require multiple sensors. An alternative method is needed for easy and effective implementation of damage localization in rail sections using AE signals. In this study presents, a deep learning approach deploying Artificial Neural Network (ANN) and Support Vector Machine (SVM) models under AI is illustrated experimentally for easy and effective implementation of the damage localization process in the rail section. The novelty in this approach is the application of single AE sensor data which makes the damage localization process economical and less time-consuming. These findings have significant implications for the scientific community and rail transportation industries, ensuring safe and efficient operations.. [ABSTRACT FROM AUTHOR]

Published

2024

120. Generalizing minimum safe operating altitudes for fixed‐wing UAVs in real‐time.

Author

Milne, Ashford, McConville, Alex, Richardson, Thomas, Watson, Matt, and Schellenberg, Ben

Subjects

ALTITUDES, EXTREME environments, EMERGENCY management, ENVIRONMENTAL monitoring, FLIGHT planning (Aeronautics), VERTICALLY rising aircraft

Abstract

This paper discusses a method of determining the minimum safe altitude of an uncrewed aerial vehicle (UAV) at any point within a designated airspace by conducting a glide reachability analysis. Recently, fixed‐wing UAVs are more regularly deployed near population centers and in extreme environments, requiring increasingly robust emergency systems and planning. The long‐ranges and adverse terrain associated with monitoring the Volcán de Fuego in Guatemala by a team from the University of Bristol (UoB) increases the likelihood that motor failure would result in the aircraft being unable to Return To Home (RTH) and impossible to retrieve. A method for delineating a boundary representing the minimum safe altitude required for the aircraft to safely glide to the airfield in the event of a motor failure was developed within MATLAB, defined by the UAV's minimum glide angle in wind. This model was subsequently compared with flight data from UoB missions around Fuego to better improve its accuracy and analyze the limitations of the missions. [ABSTRACT FROM AUTHOR]

Published

2024

121. Antioxidant Systems in Extremophile Marine Fish Species.

Author

Bakiu, Rigers, Piva, Elisabetta, Pacchini, Sara, and Santovito, Gianfranco

Subjects

MARINE fishes, REACTIVE oxygen species, EXTREME environments, MARINE organisms, CELL survival, DEEP-sea fishes

Abstract

Living in extreme environments, marine organisms face constant exposure to a range of stressors, such as high radiation levels, fluctuations in temperature, and oxidative stress. Understanding extremophile fishes is crucial because it gives us valuable insights into the biochemical, physiological, and developmental processes that govern life, by observing how they operate under natural stressors. Among the most fascinating adaptations is the existence of specialised enzymes and compounds that function as potent antioxidants, successfully counteracting reactive oxygen species' deleterious effects. In this review, we analysed the findings from several studies on Antarctic and deep-sea fish species, while highlighting the environmental stressors effects toward the antioxidant system. The antioxidant defences of the considered extremophile fishes have been extensively studied, but there is still much to learn to fully understand this complex system, while the relative research is still ongoing. Consequently, we are properly anticipating further advancements over the next few years about our understanding of crucial physiological processes that support cell survival. [ABSTRACT FROM AUTHOR]

Published

2024

122. Rgb-t semantic segmentation based on cross-operational fusion attention in autonomous driving scenario.

Author

Zhang, Jiyou, Zhang, Rongfen, Yuan, Wenhao, and Liu, Yuhong

Abstract

In recent years, semantic segmentation has become a key technology for autonomous driving. However, owing to the complexity of the driving environment, many semantic segmentation networks trained with RGB images do not perform well under extreme circumstances such as smoke, strong light, and low visibility. To solve the problem above, this article chooses ResNet-152 as the backbone and constructs a novel cross-operational fusion attention module into the dual encoder-decoder model to fully integrate the features from two modal inputs of RGB and thermal infrared images. First, the dual-encoder model extracts feature information from RGB and thermal infrared modal images independently. Meanwhile, the feature fusion is implemented through the proposed cross-operational fusion attention mechanism to reduce modal conflicts and focus on more details in the encoder stage. In the decoder, to further improve segmentation performance, the up-sampling feature map and the feature map of each layer of the encoder are concatenated in stages. Then, feature extraction is performed through the convolutional layer. After five times up-sampling, the image resolution is gradually restored and the semantic segmentation is carried out at the end. The experimental results show that the mean accuracy rate and mean intersection and union on the MFNet dataset are 69.3% and 56.2%, respectively. And the inference rate is about 33 images per second when it was tested on an NVIDIA GeForce 3090Ti. It meets the basic requirements of semantic segmentation for autonomous driving in extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

123. Bacteria were unable to tolerate the radionuclides, while the halophilic fungi tolerated and efficiently remediated them.

Author

Azam, T., Ali, I., Chen, X., and Iqbal, I.

Subjects

RADIOISOTOPES, HALOMONAS (Bacteria), BACILLUS cereus, FUNGAL growth, BIOSORPTION, FUNGI

Abstract

Radionuclides are essential for chemical and biological innovations, but their presence as toxic pollutant particles poses a significant threat to human health. To state this issue, bioremediation methodologies utilizing microorganisms have been implemented cost-effectively for removing elevated levels of heavy metals and radionuclides from the environment. The study's goal was to look into how bacteria (Bacillus cereus and Escherichia coli) and halophilic fungi (Aspergillus penicillioides, Engyodontium album, Penicillium imranianum, and Sterigmatomyces halophilus) tolerate radionuclides (Cesium, Strontium, and Uranium). The radionuclides inhibited bacteria and suppressed fungal growth. Interestingly, combinations of radionuclides with fungi were found to be more lethal against bacteria. Fungi demonstrated varying tolerance to radionuclides and exhibited efficient biosorption of radionuclides. Among the halophilic fungi, P. imranianum has shown the best performance in terms of tolerance against both bacteria and radionuclides. At the same time, S. halophilus exhibited the least ability to handle the stress conditions imposed by radionuclides. This study highlights the considerable potential for biosorption by halophilic fungi under extreme stress conditions, delivering a rate effective ecological solution for the elimination of toxic radionuclides. [ABSTRACT FROM AUTHOR]

Published

2024

124. Three nona-2,7-dienoic acid derivatives from saltern derived Micromonospora sp. FXY415.

Author

Wang, Meiling, Zheng, Zhonghui, Hu, Zhiyu, Fan, Binbin, Liu, Jiexi, and Xu, Qingyan

Subjects

ACID derivatives, EXTREME environments, MICROBIAL communities, BIOACTIVE compounds, ANTI-infective agents

Abstract

Three new compounds, apocimycin A-C, were identified from a saltern-derived Micromonospora sp. strain FXY415, isolated from Dongshi saltern, Fujian, China. Their planar structures and relative configuration were confirmed mainly by analysis of 1D- and 2D- NMR spectra. Three compounds belong to 4,6,8-trimythyl nona-2,7-dienoic acid derivatives, apocimycin A also has a phenoxazine nucleus. Apocimycin A-C exhibited weak cytotoxic and antimicrobial activities. Our research showed again that microbial communities in extreme environments are a potential resource in looking for new and bioactive led compounds. [ABSTRACT FROM AUTHOR]

Published

2024

125. Carabid beetles dataset from the Parco Regionale di Paneveggio e Pale di S. Martino (Dolomites: Italian Alps).

Author

Pizzolotto, Roberto

Subjects

GROUND beetles, CLIMATE change, SPECIES distribution, SPECIES diversity, INSECT communities

Abstract

Background: Carabid beetles are one of the several taxa useful as model organisms to study and monitor current ecosystems features, as well as environmental changes caused by global changes. Open data about these organisms are scarcely available. To fill this gap, a data table (Darwin Core formatted) was uploaded in GBIF database (). The dataset is the result of a pitfall trapping survey of carabid beetles living along an altitudinal bioclimatic gradient, in the Dolomites mountains within the protected area of the Regional Park "Paneveggio e Pale di S. Martino" (Trento, Italy). Investigated environments ranged from spruce forests to the extreme environments of high altitude, so to collect a dataset as complete as possible on carabid beetles harboured in this area. New information: The dataset included here is part of an initiative aimed at promoting the adoption of a formal structure for datasets on carabid beetles acquired by field surveys and to give open access to these data. This dataset gives the opportunity to test the effects of global change affecting the same area, within long-term surveys on carabid beetles. Furthermore, the availability of open data is intended to promote an ethical approach to ecological research under a social and scientific point of view, the first because it will avoid wasting public funds on repeating the same researches and the second because it will avoid recapturing new organisms in the same (or similar) environments by other researchers. [ABSTRACT FROM AUTHOR]

Published

2024

126. Considerable Piezochromism in All‐Inorganic Zero‐Dimensional Perovskite Nanocrystals via Pressure‐Modulated Self‐Trapped Exciton Emission.

Author

Ma, Zhiwei, Yang, Songrui, Shi, Yue, Fu, Yuan, Wang, Kai, Xiao, Guanjun, and Zou, Bo

Subjects

*ENERGY levels (Quantum mechanics), *NANOCRYSTALS, *HYBRID materials, *PEROVSKITE, *EXTREME environments, *PHOTOLUMINESCENCE

Abstract

Piezochromic materials refer to a class of matters that alter their photoluminescence (PL) colors in response to the external stimuli, which exhibit promising smart applications in anti‐counterfeiting, optoelectronic memory and pressure‐sensing. However, so far, most reported piezochromic materials have been confined to organic materials or hybrid materials containing organic moieties with limited piezochromic range of less than 100 nm in visible region. Here, we achieved an intriguing piezochromism in all‐inorganic zero‐dimensional (0D) Cs3Cu2Cl5 nanocrystals (NCs) with a considerable piezochromic range of 232 nm because of their unique inorganic rigid structure. The PL energy shifted from the lowest‐energy red fluorescence (1.85 eV) to the highest‐energy blue fluorescence (2.83 eV), covering almost the entire visible wavelength range. Pressure‐modulated self‐trapped exciton emission between different energy levels of self‐trapped states within Cs3Cu2Cl5 NCs was the main reason for this piezochromism property. Note that the quenched emission, which is over five times more intense than that in the initial state, is retained under ambient conditions upon decompression. This work provides a promising pressure indicating material, particularly used in pressure stability monitoring for equipment working at extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

127. Rubisco kinetic adaptations to extreme environments.

Author

Aguiló‐Nicolau, Pere, Iñiguez, Concepción, Capó‐Bauçà, Sebastià, and Galmés, Jeroni

Subjects

*CARBON fixation, *EXTREME environments, *ARCHAEBACTERIA, *CYANOBACTERIA, *CARBOXYLATION

Abstract

SUMMARY Photosynthetic and chemosynthetic extremophiles have evolved adaptations to thrive in challenging environments by finely adjusting their metabolic pathways through evolutionary processes. A prime adaptation target to allow autotrophy in extreme conditions is the enzyme Rubisco, which plays a central role in the conversion of inorganic to organic carbon. Here, we present an extensive compilation of Rubisco kinetic traits from a wide range of species of bacteria, archaea, algae, and plants, sorted by phylogenetic group, Rubisco type, and extremophile type. Our results show that Rubisco kinetics for the few extremophile organisms reported up to date are placed at the margins of the enzyme's natural variability. Form ID Rubisco from thermoacidophile rhodophytes and form IB Rubisco from halophile terrestrial plants exhibit higher specificity and affinity for CO2 than their non‐extremophilic counterparts, as well as higher carboxylation efficiency, whereas form ID Rubisco from psychrophile organisms possess lower affinity for O2. Additionally, form IB Rubisco from thermophile cyanobacteria shows enhanced CO2 specificity when compared to form IB non‐extremophilic cyanobacteria. Overall, these findings highlight the unique characteristics of extremophile Rubisco enzymes and provide useful clues to guide next explorations aimed at finding more efficient Rubiscos. [ABSTRACT FROM AUTHOR]

Published

2024

128. Radio continuum emission from a tidal dwarf galaxy.

Author

Moncada-Cuadri, Blanca M, Lisenfeld, Ute, Querejeta, Miguel, and Mundell, Carole

Subjects

*RADIO galaxies, *SYNCHROTRON radiation, *EXTREME environments, *COSMIC rays, *STAR formation, *GALAXY mergers

Abstract

Tidal dwarf galaxies (TDGs) form in the debris of galaxy mergers, making them ideal testbeds for investigating star formation in an extreme environment. We present radio continuum EVLA observations spanning 1–2 GHz of the interacting system Arp 94, which contains the TDG J1023+1952. We detect extended radio continuum emission from the disc of the TDG's putative parent galaxy, the spiral NGC 3227. The TDG lies in front of the spiral disc, partially overlapping in projection. This challenging alignment complicates the separation of the respective contributions of radio emission from the TDG and disc. However, we show that the radio continuum appears more prominent around the TDG's location, suggesting the detection of emission from the TDG. Quantifying this argument, we derive an upper limit of 2.2 mJy for the whole TDG's emission. Our derived inband spectral index map of the system generally shows the expected behaviour of combined thermal and synchrotron radio emission in a galaxy disc, except for a region at the periphery of the disc and the TDG with a flat spectrum (spectral index |$\sim$| −0.4) unrelated to regions with high H  |$\alpha$| emission. We speculate that at this location – which coincides with the intersection of faint tidal tails – the collision of gas clouds produces shocks which re-accelerate cosmic ray electrons, and thereby enhance the radio emission. Overall, this study provides new insights about the Arp 94 system and expands the sample of TDGs studied at radio frequencies, with only two confirmed detections so far. [ABSTRACT FROM AUTHOR]

Published

2024

129. Alignment Controlled Aramid Nanofiber‐Assembled Films.

Author

Tu, Ruowen, Kim, Hyun Chan, Baabdullah, Osama A.H., and Sodano, Henry A.

Subjects

*FLEXIBLE printed circuits, *ARAMID fibers, *YOUNG'S modulus, *EXTREME environments, *TENSILE strength, *SUBSTRATES (Materials science)

Abstract

Aramid nanofibers (ANFs) are a strong and heat‐resistant nanomaterial that can be isolated from commercial para‐aramid fibers, which allow a bottom‐up self‐assembly to form ordered macroscale structures like ANF films. However, the anisotropic nature of high aspect ratio ANFs is not fully exploited when fabricating ANF films for the optimal mechanical properties. In this research, direct ink writing (DIW) is applied to produce ANF‐assembled films with arbitrary shapes, and the shear‐induced alignment of ANFs can follow the printing path direction. Therefore, controlled alignment of ANFs following the computer‐programmed printing pattern is achieved by DIW, which provides a path for the application of topology and nanofiber alignment optimization in nanofiber‐assembled films. In addition, the resulting DIW ANF films exhibit outstanding Young's modulus of 8.39 GPa, tensile strength of 198 MPa, and tensile toughness of 19.4 MJ m−3 in the alignment direction, together with a wide working temperature range up to 440 °C without losing 50% of its room temperature storage modulus. Moreover, the demonstrated self‐joining ability, rollability, and lamination processability of the DIW ANF films expand their potential applications toward high‐temperature ultrathin tubes, substrates for flexible printed circuit boards, and three‐dimensional all‐ANF lightweight structural parts in extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

130. Ancient diversification in extreme environments: exploring the historical biogeography of the Antarctic winged midge Parochlus steinenii (Diptera: Chironomidae).

Author

Maturana, Claudia S., Mejias, Tamara Contador, Simoes, Felipe L., Valladares, Moises A., Vidal, Paula M., Ganan, Melisa, Gonzalez-Wevar, Claudio A., Poulin, Elie, Sands, Chester J., Convey, Peter, Hernandez, Cristian E., Shimabukuro, Erika Mayumi, and Siri, Augusto

Subjects

LAST Glacial Maximum, REPRODUCTIVE isolation, EXTREME environments, GENETIC markers, CHIRONOMIDAE

Abstract

The terrestrial fauna of Antarctica consists of a limited number of species, notably insects, small crustaceans and other micro-invertebrates. Over long periods of evolutionary isolation, these organisms have developed varying degrees of tolerance to multifaceted environmental stresses. Recent molecular biogeographical research highlights the enduring persistence of much of Antarctica's current terrestrial fauna, with estimates spanning from hundreds of thousands to millions of years. Parochlus steinenii, commonly known as the Antarctic winged midge, stands out as one of the only two insect species native to Antarctica. Distributed across three biogeographic regions, southern South America and the Falkland/Malvinas Islands, sub-Antarctic South Georgia and the Maritime Antarctic South Shetland Islands, this midge raises questions about the temporal isolation of its populations and their divergence. Employing mitochondrial and nuclear genetic markers, we conducted phylogeographic and demographic analyses on 151 individuals of P. steinenii obtained across the three main biogeographic regions including the Magellanic sub-Antarctic Ecoregion (MSE) of southern South America, the sub-Antarctic Island of South Georgia (SG) and the South Shetland Islands (SSI) within the Maritime Antarctic (MA). Our data support the diversification of P. steinenii during the midPleistocene around 1.46 Mya. This period included a branching event between a clade containing only specimens from the MSE and a clade containing individuals from a broader range of locations including the SSI and SG. Based on intraspecific phylogeographic and demographic inferences, we detected strong evolutionary divergence between the three main biogeographic regions. We also detected a signal of population growth during the deglaciation process in SSI and SG, contrary to the pattern seen in the MSE. The different demographic and phylogeographic histories between the sampled biogeographic regions could result from the MA and SG experiencing a strong genetic bottleneck due to a reduction in population size during the Last Glacial Maximum, while the MSE maintained a significant effective population size. The high level of divergence detected between individuals from the MSE and the remaining biogeographic regions supports the hypothesis of a speciation process taking place in P. steinenii. [ABSTRACT FROM AUTHOR]

Published

2024

131. High temperature heat flux sensor with ITO/In2O3 thermopile for extreme environment sensing.

Author

Dong, Helei, Lu, Meimei, Wang, Weifeng, and Tan, Qiulin

Subjects

HEAT flux, EXTREME environments, HIGH temperatures, THERMAL equilibrium, COOLING of water, HYPERSONIC planes

Abstract

Hypersonic vehicles and aircraft engine blades face complex and harsh environments such as high heat flow density and high temperature, and they are generally narrow curved spaces, making it impossible to actually install them for testing. Thin-film heat flux sensors (HFSs) have the advantages of small size, fast response, and in-situ fabrication, but they are prone to reach thermal equilibrium and thus fail during testing. In our manuscript, an ITO–In2O3 thick film heat flux sensor (HFS) is designed, and a high-temperature heat flux test system is built to simulate the working condition of a blade subjected to heat flow impact. The simulation and test results show that the test performance of the thick-film HFS is improved by optimizing the structure and parameters. Under the condition of no water cooling, the designed HFS can realize short-time heat flux monitoring at 1450 °C and long-term stable monitoring at 1300 °C and below. With a maximum output thermopotential of 17.8 mV and an average test sensitivity of 0.035 mV/(kW/m2), the designed HFS has superior high-temperature resistance that cannot be achieved by other existing thin (thick) film HFSs. Therefore, the designed HFS has great potential for application in harsh environments such as aerospace, weaponry, and industrial metallurgy. [ABSTRACT FROM AUTHOR]

Published

2024

132. A Processible and Ultrahigh‐temperature Organic Photothermal Material through Spontaneous and Quantitative [2+2] Cycloaddition–Cycloreversion.

Author

Han, Pengbo, Xu, He, Zhang, Guiquan, Qin, Anjun, and Tang, Ben Zhong

Subjects

*HEAT resistant materials, *ENERGY consumption, *THERMAL stability, *EXTREME environments, *HIGH temperatures, *POWDERS, *IGNITION temperature

Abstract

Energy conversion, particularly light to heat conversion, has garnered significant attention owing to its prospect in renewable energy exploitation and utilization. Most previous efforts have focused on developing organic photothermal materials for low‐temperature applications, whereas the importance of simplifying the preparation methods of photothermal materials and enhancing their maximum photothermal temperature have been less taken. Herein, we prepare an organic near‐infrared (NIR) photothermal material namely ATT by a spontaneous [2+2] cycloaddition‐cycloreversion reaction. In addition to the solution‐based method, ATT could also be readily preapred by ball milling in a high yield of 90 % in just 15 min. ATT powder exhibits a broad absorption extending beyond 2000 nm, excellent processability, and thermal stability. Remarkably, ATT powder can reach an unprecedently temperature as high as 450 °C while maintaining excellent photostability upon photoirradiation. Leveraging its extraordinary photothermal and processable properties, ATT was used in the high‐temperature applications, such as photo‐ignition, photo‐controlled metal processing and high‐temperature shape memory, all of which offer spatiotemporal control capabilities. This work provides a new approach to prepare organic photothermal materials with high temperatures, and pave the way for their applications in extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

133. Seed enhancements to improve direct-seeding outcomes for native grasses in mine restoration.

Author

Berto, Bianca, Ritchie, Alison L., Erickson, Todd E., Faist, Akasha May, and Kildisheva, Olga A.

Subjects

MINE waste, SEED technology, ABANDONED mined lands reclamation, BIOMASS conversion, MINE soils, EXTREME environments, SEEDS

Abstract

Seed-based restoration in dryland environments is commonly limited by low and sporadic rainfall, extreme temperatures, and degraded soils. These challenges are exacerbated in dryland mine restoration sites where species are seeded onto mine waste substrates due to limited availability of topsoil. Native grasses are focal dryland and mine restoration species, though the ability to deliver seeds to targeted sites presents further constraints to seed-based restoration due to complex seed morphology and site attributes. Seed enhancement technologies (SETs) may help to mitigate environmental stressors and improving seed handling. In this study, SETs which promote seedling recruitment and/or address edaphic challenges while also improving seed morphology and handling were tested in four Australian native grasses (Cymbopogon ambiguus, C. obtectus, Eulalia aurea, and Eriachne obtusa). Flash flaming or acid digestion (depending on species), extruded seed pellets with or without the addition of topsoil, and flaming or acid digestion used in combination with extruded pellets (with or without topsoil) were evaluated on topsoil and mine waste substrates. Material treated with either flash flaming or acid digestion tended to produce similar maximum emergence (week 3), final emergence (week 14), and above-ground biomass (week 14) on both topsoil and mine waste when compared to the un-enhanced ('control') treatment. Extruded pellets enhanced emergence (maximum and final) on both soil types, though had no effect on biomass. Extruded pellets containing topsoil and/or when used in combination with flash flamed or acid digested florets, provided the most significant benefits to seedling emergence, particularly on mine waste soil. However, SETs were unable to mitigate the detrimental effects of mine waste substrates on seedling biomass. This study shows promise for improving seed-based restoration in post-mine and dryland environments using SETs, though also highlights potential limitations and the importance of understanding long-term (i.e., beyond emergence) plant recruitment outcomes in SET applications. [ABSTRACT FROM AUTHOR]

Published

2024

134. Biotic and abiotic processes in Ediacaran spheroid formation.

Author

Canadas, Fuencisla, Papineau, Dominic, She, Zhenbing, Kremer, Barbara, and Kabouri, Jamal El

Subjects

PORE fluids, INNER planets, CARBON isotopes, CARBON cycle, EXTREME environments, OSCILLATING chemical reactions, PARAGENESIS, FOSSIL microorganisms

Abstract

Organic-rich shales from the uppermost Doushantuo Fm. (South China) record one of the most negative carbonate carbon isotopic excursions in Earth's history, known as the Shuram excursion, and contain meter to micro-size spheroids. In this study, we use Raman and energy dispersive spectroscopy to identify and describe the most common diagenetic spheroids to refine our understanding of the profound perturbations of the carbon cycle and the evolution of pore fluid chemistry imprinted in the sedimentary Precambrian record, especially in the late Ediacaran. The presence of 13C-depleted carbonate concretions or organic matter (OM) enclosed by lenticular dolomitic structures within the host shale unit suggests OM remineralisation and anaerobic oxidation, resulting in authigenic carbonate precipitation during the earliest stages of sediment diagenesis. Other mineralogical features, however, point to high levels of primary production, such as apatite bands that host spheroidal microfossils with highly fluorescent quartz and OM within abiotic concretions. These observations highlight the importance of considering co-occurring biotic and abiotic processes in explaining the formation of diagenetic spheroids in ancient sedimentary environments. From an astrobiology perspective, the interplay of biotic and abiotic processes reflects the complexity of early life systems and the environments that may exist on other terrestrial planets. Understanding the signatures of biotic and abiotic interactions in the Doushantuo Fm. is crucial for identifying potential biosignatures in extraterrestrial materials, thereby enhancing our understanding of life's universality and adaptability in diverse and extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

135. Study on the Influence of Temperature and Water Content on the Static Mechanical Properties of Sandstone.

Author

Zhang, Xiaojun, He, Maolin, Li, Zhuo, Jia, Yongsheng, and Gao, Wenxue

Subjects

*ELASTIC modulus, *WATER temperature, *FAILURE mode & effects analysis, *EXTREME environments, COLD regions

Abstract

The area of permafrost worldwide accounts for approximately 20% to 25% of land area. In cold-climate regions of China, which are garnering international attention, the study of low-temperature and moisture effects on rock mass mechanical properties is of significant importance. China has a wide area of cold regions. This research can provide a foundation for China's exploration activities in such extreme environments. This paper examines the mechanical behavior of rock specimens subjected to various low temperatures and water contents through uniaxial compression tests. The analysis encompasses failure modes, stress–strain relationships, uniaxial compressive strength (UCS), and elastic modulus (EM) of these specimens. Findings reveal that at lower temperatures, the rock specimens' fracture patterns transition from compressive shear failure to cleavage failure, reflecting a shift from a plastic–elastic–plastic to a plastic–elastic response. Specifically, saturated rocks exhibit a 40.8% decrease in UCS and an 11.4% reduction in EM compared to their dry counterparts. Additionally, in cold conditions, an increased water content in rocks primarily leads to vertical cracking. Under such conditions, saturated rocks show a 52.3% decline in UCS and a 15.2% reduction in EM, relative to their dry state. [ABSTRACT FROM AUTHOR]

Published

2024

136. Determination of short carbon fiber orientation in zirconium diboride ceramic matrix composites.

Author

Silvestroni, Laura, Kupsch, Andreas, Müller, Bernd R., Ulbricht, Alexander, Wieder, Frank, Fritsch, Tobias, Sciti, Diletta, and Bruno, Giovanni

Subjects

*CARBON fiber-reinforced ceramics, *FIBER orientation, *CARBON fibers, *COMPUTED tomography, *ZIRCONIUM boride, *EXTREME environments

Abstract

In fiber-reinforced components, the fiber alignment and orientation have paramount influence on the thermo-mechanical properties of the resulting composite, for both short and continuous fiber. Here we present the case of an ultra-refractory matrix intended for extreme environment applications, ZrB 2 , reinforced with 20 vol% and 50 vol% short carbon fibers. In both cases, fibers tend to align perpendicular to the uniaxial pressure applied during shaping and sintering of a pellet, although the fiber tilt across the pellet thickness is difficult to determine. Moreover, for high volume fractions of reinforcement, the spatial distribution of the fibers is heterogeneous and tends to have domains of preferential orientations. We compare the information on the fiber distribution as collected by scanning electron microscopy images, X-ray computed tomography and synchrotron X-ray refraction radiography (SXRR). The three techniques prove to be complementary. Importantly, we demonstrate that SXRR yields the most statistically significant information due to the largest field of view, yet with a sensitivity down to the nanometer, and that can be successfully applied also to heavy matrix materials, such as zirconium boride. [ABSTRACT FROM AUTHOR]

Published

2024

137. What do we know about the needle xylem structure of the genus <italic>Pinus</italic>?

Author

Gebauer, Roman

Subjects

*XYLEM, *LIFE cycles (Biology), *TREE age, *PINACEAE, *TAIGAS, *EXTREME environments, *SOIL classification

Abstract

Studies of needle xylem structure (NXS) are of importance in understanding the survival, and functioning of conifers, particularly in response to environmental stressors. Herein, I review the current state-of-the-art about the NXS of genus Pinus, focusing on the xylem, tracheid, and pit structure. Genus Pinus is one of the most important and widely distributed genera of forest trees in the Northern Hemisphere. Pine species are adapted to different soil types and extreme environments imposed by elevation and latitude. They grow successfully in the boreal forest, the Mediterranean Basin, and in mountains. The importance of NXS for long-distance water transport in trees is discussed and the relationships between xylem structure and function are highlighted. Little is known about the NXS of pines, as such information was available only for 12 pine species. Moreover, current knowledge about the NXS of pines is mostly based on Pinus sylvestris L., especially regarding the effect of environmental conditions on NXS. So far, tracheid pit structure has been investigated in only one study. Although NXS is also significantly influenced by tree age, the position of needles within the crown, as well as the location of the cross-section along the longitudinal axis of the needle, a detailed needle sampling design is often missing. Hence, it is suggested to extend future studies to other pine species to explain their resistance to drought and cold. Additionally, increasing the number of studies on adult trees and distinguishing between the different types of environmental stress that a tree can face during its life cycle would be beneficial. I strongly appeal to precise description of needle sampling, which will allow us both intraspecific and interspecific comparisons. Increasing knowledge about the NXS of pines will help to better explain their resistance to environmental stress and predict their tolerance to future climate change. [ABSTRACT FROM AUTHOR]

Published

2024

138. Perturbed N-glycosylation of Halobacterium salinarum archaellum filaments leads to filament bundling and compromised cell motility.

Author

Sofer, Shahar, Vershinin, Zlata, Mashni, Leen, Zalk, Ran, Shahar, Anat, Eichler, Jerry, and Grossman-Haham, Iris

Subjects

CELL motility, HALOBACTERIUM, FIBERS, CYTOPLASMIC filaments, EXTREME environments, GLYCANS, POST-translational modification

Abstract

The swimming device of archaea—the archaellum—presents asparagine (N)-linked glycans. While N-glycosylation serves numerous roles in archaea, including enabling their survival in extreme environments, how this post-translational modification contributes to cell motility remains under-explored. Here, we report the cryo-EM structure of archaellum filaments from the haloarchaeon Halobacterium salinarum, where archaellins, the building blocks of the archaellum, are N-glycosylated, and the N-glycosylation pathway is well-resolved. We further determined structures of archaellum filaments from two N-glycosylation mutant strains that generate truncated glycans and analyzed their motility. While cells from the parent strain exhibited unidirectional motility, the N-glycosylation mutant strain cells swam in ever-changing directions within a limited area. Although these mutant strain cells presented archaellum filaments that were highly similar in architecture to those of the parent strain, N-linked glycan truncation greatly affected interactions between archaellum filaments, leading to dramatic clustering of both isolated and cell-attached filaments. We propose that the N-linked tetrasaccharides decorating archaellins act as physical spacers that minimize the archaellum filament aggregation that limits cell motility. The archaellum, or archaeal 'flagellum', includes asparagine-linked glycans that are important for efficient cell motility in archaea through unclear mechanisms. Here, the authors show that glycan truncation leads to clustering of filaments and alterations in cell motility, suggesting that the glycans minimize archaellum filament aggregation that compromises cell motility. [ABSTRACT FROM AUTHOR]

Published

2024

139. Surviving adversity: Exploring the presence of Lunularia cruciata (L.) Dum. on metal‐polluted mining waste.

Author

De Agostini, A., Cortis, P., Robustelli della Cuna, F. S., Soddu, F., Sottani, C., Tangredi, D. N., Guarino, F., Cogoni, A., Vacca, A., and Sanna, C.

Subjects

*MINE waste, *METABOLITES, *HEAVY metals, *SESQUITERPENES, *PHOTOCHEMICAL smog, *POLLUTANTS

Abstract

The tailings dump of Barraxiutta (Sardinia, Italy) contains considerable concentrations of heavy metals and, consequently, is scarcely colonized by plants. However, wild populations of the liverwort Lunularia cruciata (L.) Dum. form dense and healthy‐looking carpets on this tailing dump. L. cruciata colonizing the tailing dump was compared with a control population growing in a pristine environment in terms of: (i) pollutant content, (ii) photochemical efficiency, and (iii) volatile secondary metabolites in thalli extracts. L. cruciata maintained optimal photosynthesis despite containing considerable amounts of soil pollutants in its thalli and had higher sesquiterpene content compared to control plants. Sesquiterpenes have a role in plant stress resistance and adaptation to adverse environments. In the present study, we propose enhanced sesquiterpenes featuring Contaminated L. cruciata as a defence strategy implemented in the post‐mining environment. [ABSTRACT FROM AUTHOR]

Published

2024

140. Distribución geográfica y potencial biotecnológico de hongos filamentosos cultivables en suelos de la Bahía de Fildes (Antártica).

Author

Gallardo, Victor, Sepúlveda, Marcela, Costa, Jéssica, Galeano, Paula, Cornejo, Pablo, and Santos, Cledir

Subjects

*FILAMENTOUS fungi, *MINERAL properties, *BIOTECHNOLOGY, *SOIL fungi, *CHEMICAL properties

Abstract

In the Antarctic territory, only 0.35% of its surface is ice-free. Fildes Bay is one of these notable areas, due to its geographical location and better environmental conditions when compared to the Antarctic continent. Fildes Bay is an ideal site for studying microorganisms, such as filamentous fungi (FF). FF develop unique biochemical pathways and biomolecules necessary for their survival. However, it is essential to know the diversity of FF to understand their biotechnological potential. The main objective of this study was to isolate and identify cultivable strains of filamentous fungi from soils in Fildes Bay (King George Island, Antarctica). Fourteen soil samples were collected from different sectors of Fildes Bay and underwent chemical analysis. Subsequently, samples were suspended in water and inoculated in three different culture media. FF were purified and identified according to classical taxonomy. The soils showed heterogeneous chemical composition and capacity to harbour FF. The soils of Fildes Bay have chemical properties similar to mineral soils, although variations in the C/N ratio and nutrients suggest external influences of natural origin. A total of 1756 FF were isolated, identifying the genera Cladosporium, Penicillium, Pseudogymnoascus, strains of the Mucoromycota division, and four other unidentified genera. The study highlights the ability of FF to adapt to extreme environmental conditions, as well as their biotechnological potential. This work represents the first large-scale report on the isolation of fungi in Fildes Bay, Antarctica. [ABSTRACT FROM AUTHOR]

Published

2024

141. Exoskeletal Trade-off between Claws and Carapace in Deep-sea Hydrothermal Vent Decapod Crustaceans.

Author

Cho, Boongho, Seo, Hyein, Hong, Junyoung, Jang, Sook-Jin, and Kim, Taewon

Subjects

*HYDROTHERMAL vents, *DECAPODA, *EXTREME environments, *CLAWS, *HERMIT crabs, *CRABS

Abstract

Limitations on energetic resources create evolutionary trade-offs, prompting us to investigate if investment in claw strength remains consistent across crustaceans living in diverse habitats. Decapod crustaceans living in deep-sea hydrothermal vents are ideal for this study due to their extreme environment. In this study, we investigated whether decapods (blind crab Austinograea sp. and the squat lobster Munidopsis lauensis) living in deep-sea hydrothermal vents prioritize investing in strong claws compared to the carapace, like coastal decapods. We analyzed exoskeleton morphology, mechanical properties, structures, and elemental composition in both the carapace and claws of four Decapoda species (two each from Brachyura and Anomura infraorders) in vent and coastal habitats. Coastal decapods had ∼4–9 times more teeth on their claw cutting edge than the vent species. Further, only the coastal species exhibited higher firmness in their claws than in their carapaces. Each infraorder controlled exoskeletal hardness differently: Brachyura changed the stacking height of the Bouligand structure, while Anomura regulated magnesium content in the exoskeleton. The vent decapods may prioritize strengthening their carapace over developing robust claws, allocating resources to adapt to the harsh conditions of deep-sea hydrothermal vents. This choice might enhance their survival in the extreme environment, where carapace strength is crucial for protecting internal organs from environmental factors, rather than relying on the powerful claws seen in coastal decapods for a competitive advantage. [ABSTRACT FROM AUTHOR]

Published

2024

142. Regulation of Dipolar‐Dipolar and Ion‐Dipolar Interactions Simultaneously in Strong Solvating Electrolytes for All‐Temperature Zinc‐Ion Batteries.

Author

Yun, Xiaoru, Chen, Yufang, Gao, Hongjing, Lu, Di, Zuo, Lanlan, Gao, Peng, Zhou, Guangmin, Zheng, Chunman, and Xiao, Peitao

Subjects

*ELECTROLYTES, *AQUEOUS electrolytes, *ZINC ions, *SUPERCAPACITOR electrodes, *EXTREME environments, *STORAGE batteries, *SOLVATION

Abstract

Aqueous zinc‐ion batteries (AZIBs) attract attention due to their safety and high specific capacity. However, their practical applications are constrained by Zn anode corrosion, dendritic growth, and poor temperature adaptability induced by a strong hydrogen‐bond network in aqueous electrolytes. Herein, a universal strategy to design strong solvating electrolytes is proposed, in which the hydrogen‐bond network and solvation structures are reconstructed by regulating the dipolar‐dipolar and ion‐dipolar interactions simultaneously. Consequently, the hydrogen‐bond network in free water is largely weakened, and the water content in the Zn2+ solvated sheath is reduced, while the hydrogen‐bond network between solvents is strengthened, which effectively broadens the operating temperature range and suppresses Zn dendrites and corrosion. As a result, Zn anodes exhibit excellent platting/stripping efficiency with an average Coulombic Efficiency up to 99.89% after 2000 cycles at 0.5 mA cm−2, impressive cycling stability (5000 h, 0.5 mA cm−2/0.5 mA h cm−2), and a wide operating temperature range of 140 °C (−50–90 °C). Moreover, the Zn//V2O3 full cells also display enhanced temperature‐resistance, implying that the designed strong solvation electrolyte has practical application potential in extreme environments. This study suggests a promising strategy to design ideal electrolytes for high‐performance AZIBs with safety, ultralong cycling life, and satisfying temperature‐resistance. [ABSTRACT FROM AUTHOR]

Published

2024

143. Object Detection in Multispectral Remote Sensing Images Based on Cross-Modal Cross-Attention.

Author

Zhao, Pujie, Ye, Xia, and Du, Ziang

Subjects

*REMOTE sensing, *EXTREME environments, *INFRARED imaging, *INFORMATION networks, *MULTISPECTRAL imaging, *DETECTORS, *REMOTE-sensing images

Abstract

In complex environments a single visible image is not good enough to perceive the environment, this paper proposes a novel dual-stream real-time detector designed for target detection in extreme environments such as nighttime and fog, which is able to efficiently utilise both visible and infrared images to achieve Fast All-Weatherenvironment sensing (FAWDet). Firstly, in order to allow the network to process information from different modalities simultaneously, this paper expands the state-of-the-art end-to-end detector YOLOv8, the backbone is expanded in parallel as a dual stream. Then, for purpose of avoid information loss in the process of network deepening, a cross-modal feature enhancement module is designed in this study, which enhances each modal feature by cross-modal attention mechanisms, thus effectively avoiding information loss and improving the detection capability of small targets. In addition, for the significant differences between modal features, this paper proposes a three-stage fusion strategy to optimise the feature integration through the fusion of spatial, channel and overall dimensions. It is worth mentioning that the cross-modal feature fusion module adopts an end-to-end training approach. Extensive experiments on two datasets validate that the proposed method achieves state-of-the-art performance in detecting small targets. The cross-modal real-time detector in this study not only demonstrates excellent stability and robust detection performance, but also provides a new solution for target detection techniques in extreme environments. [ABSTRACT FROM AUTHOR]

Published

2024

144. Del suelo al dosel: Celebrando la inspiradora trayectoria científica de la Dra. Gabriela Castaño-Meneses.

Author

Nava-Bolaños, Angela, Ibarra-Garibay, León, Ibáñez-Huerta, Abel, de Jesús Rodríguez Elizalde, Israel, Verver, Andrés, Erubiel Hernández-Tirado, Arturo, and Pérez-Velázquez, Daniela

Subjects

*EXTREME environments, *BIODIVERSITY conservation, *CLIMATE change, *ANT ecology, *ARTHROPODA

Abstract

In this paper, we aim to honor Dr. Gabriela Castaño-Meneses for her remarkable scientific career, which has served as an enduring wellspring of inspiration for the members of the Laboratory of Arthropod Ecology in Extreme Environments. Throughout her professional journey, Dr. Castaño-Meneses has delved into the exploration of arthropod ecology and taxonomy, distinguishing herself particularly in the study of springtails, mites, and ants. Her research has traversed a broad spectrum of habitats, ranging from soil ecosystems to tree canopies, encompassing cave-dwelling and aquatic environments. Her contributions extend nationally and internationally, enriching our comprehension of ecological processes which can promote efforts in biodiversity conservation amidst the challenges posed by climate change and habitat loss. Beyond her scholarly achievements, Dr. Castaño-Meneses stands out as an emblematic reference in our lives, transcending her profound humanity throughout our tenure in her laboratory. [ABSTRACT FROM AUTHOR]

Published

2024

145. Physical mechanism of the rapid increase in intense and long-lived extreme heatwaves in the Northern Hemisphere since 1980.

Author

Wang, Yuqing, Zhou, Wen, and Wang, Chunzai

Subjects

*HEAT waves (Meteorology), *CLOUDINESS, *SELF-organizing maps, *EXTREME environments, *SOIL moisture

Abstract

Since 1980, both the intensity and duration of summer heatwaves in the middle and high latitudes of the Northern Hemisphere have significantly increased, leading this region to become a critical area for a significant increase in the frequency of intense and long-lived extreme heatwaves. We found that stronger and more persistent high-pressure systems and lower soil moisture before the events were the main drivers of intense and long-lived extreme heatwaves in western Europe and the middle and high latitudes of North America. However, in eastern Europe and Siberia, lower cloud cover before events is also a main driver of this type of extreme heatwave, in addition to the above drivers. These factors are coupled with each other and can change heatwave intensity and duration by influencing surface radiation processes during events. Using the self-organizing map classification method, we found that 6 weather patterns with increased frequency, intensity, and duration were the main dynamic reasons leading to the increase in intense and long-lived extreme heatwaves after 1980. In addition, the decrease in summer average soil moisture in most areas of the mid-high latitudes of the Northern Hemisphere and the decrease in average cloud cover in eastern Europe and Siberia are found to be the main thermodynamic reasons leading to the increase in these extreme heatwaves. [ABSTRACT FROM AUTHOR]

Published

2024

146. Correlation between Soil Physicochemical Factors and the Accumulation of Functional Components of Camellia Tetracocca in Karst Areas and Non Karst Areas.

Author

Ni Zhang, Tianyi Pu, Xiaolan Liu, Zhengwen Yu, and Yuehua Song

Subjects

*KARST, *CAMELLIAS, *GALLIC acid, *EPIGALLOCATECHIN gallate, *SOIL sampling, *EXTREME environments

Abstract

C. tetracocca are local characteristic plants with significant medicinal and economic values. However, little is known about the relationship of soil nutrient contents and the accumulation of primary and secondary metabolites from C. tetracocca. The metabolic accumulation of C. tetracocca grown in karst areas and non karst areas have not been compared. In this study, we sampled soil and leaves of C. tetracocca in karst areas and non karst areas to compare the relationship between soil nutrients (soil organic carbon, total nitrogen, total phosphorus, total potassium, calcium, magnesium) and organic components (organic carbon, total nitrogen, total phosphorus, total potassium, calcium, magnesium), free amino acids, functional components (catechin (C), caffeine (CAFF), gallic acid (GA), epicatechin (EC), (-)-epicatechin gallate (ECG), (-)-epigallocatechin (EGC), and epigallocatechin gallate (EGCG)) of C. tetracocca. The results showed that there was a significant positive correlation between K and EC in soil and plants and a significant negative correlation between P and EC. There was a negative correlation between Mg and EGC in soil and plants. Therefore, increasing the content of K and reducing the content of Mg and P can improve the functional components of C. tetracocca. The C. tetracocca in karst areas and non karst areas share excellent quality and have not been severely affected by the harsh environment. Therefore, these findings emphasized the significance of ancient tea trees and laid a solid foundation for the promotion and planting of C. tetracocca. [ABSTRACT FROM AUTHOR]

Published

2024

147. Acclimation mechanism of microalgal photosynthetic apparatus under low atmospheric pressures – new astrobiological perspectives in a Mars-like atmosphere.

Author

Gritsi, Charalampia-Stavroula, Sarmas, Evangelos, Daskalakis, Vangelis, and Kotzabasis, Kiriakos

Subjects

*ATMOSPHERE, *MARTIAN atmosphere, *ATMOSPHERIC pressure, *EXTREME environments, *CHLORELLA vulgaris, *ACCLIMATIZATION, *GREEN algae

Abstract

This study reveals a new acclimation mechanism of the eukaryotic unicellular green alga Chlorella vulgaris in terms of the effect of varying atmospheric pressures on the structure and function of its photosynthetic apparatus using fluorescence induction measurements (JIP-test). The results indicate that low (400 mbar) and extreme low (<10 mbar) atmospheric pressure decreases the density and thus increases the fluidity of the thylakoid membrane, possibly facilitating plastoquinone (PQ) movement within the membrane and resulting in enhanced photosynthetic electron flow and photochemical quenching. Molecular dynamic simulations of different light harvesting complexes within thylakoid membrane models confirm this mechanism and reveal the associated atomic scale details. The exposure of microalga to an extremely low pressure (<10 mbar) in a 100% CO2 atmosphere (simulating the Mars atmosphere), reveals that the impact of extremely low atmospheric pressure on PQ mobility within the photosynthetic membrane, coupled with the low density of an almost 100% CO2 Mars-like atmosphere, results to a similar photosynthetic efficiency to that on Earth. These findings pave the way for the identification of novel functional acclimation mechanisms of microalgae to extreme environments that are vastly distinct from those found on Earth. This study reveals a new acclimation mechanism of microalgae in low atmospheric pressure. Experimental results and molecular dynamic simulations indicate that low atmospheric pressure reduces the density and enhances the fluidity of photosynthetic thylakoid membranes, leading to enhanced photochemical quenching. Particularly, extremely low pressure (<10 mbar) in a 100% CO2 atmosphere (Mars-like atmosphere) yields a photosynthetic efficiency comparable to that of Earth, shedding light on new astrobiological perspectives. [ABSTRACT FROM AUTHOR]

Published

2024

148. Significance and Applications of the Thermo-Acidophilic Microalga Galdieria sulphuraria (Cyanidiophytina, Rhodophyta).

Author

Retta, Berhan, Iovinella, Manuela, and Ciniglia, Claudia

Subjects

RARE earth metals, ELECTRONIC waste, ENVIRONMENTAL remediation, EXTREME environments, BIOACTIVE compounds

Abstract

Galdieria sulphuraria is a thermo-acidophilic microalga belonging to the Cyanidiophyceae (Rhodophyta) class. It thrives in extreme environments, such as geothermal sulphuric springs, with low pH, high temperatures, and high salinity. This microalga utilises various growth modes, including autotrophic, heterotrophic, and mixotrophic, enabling it to exploit diverse organic carbon sources. Remarkably, G. sulphuraria survives and produces a range of bioactive compounds in these harsh conditions. Moreover, it plays a significant role in environmental remediation by removing nutrients, pathogens, and heavy metals from various wastewater sources. It can also recover rare earth elements from mining wastewater and electronic waste. This review article explores the diverse applications and significant contributions of G. sulphuraria. [ABSTRACT FROM AUTHOR]

Published

2024

149. Svalbard Fjord Sediments as a Hotspot of Functional Diversity and a Reservoir of Antibiotic Resistance.

Author

Caruso, Gabriella, Rappazzo, Alessandro Ciro, Maimone, Giovanna, Zappalà, Giuseppe, Cosenza, Alessandro, Szubska, Marta, and Zaborska, Agata

Subjects

EXTREME environments, ORGANIC acids, MICROBIAL communities, MICROBIAL diversity, DRUG resistance in bacteria

Abstract

The sea bottom acts as a key natural archive where the memory of long-term timescale environmental changes is recorded. This study discusses some ecological and chemical features of fjord sediments that were explored during the AREX cruise carried out in the Svalbard archipelago in the summer of 2021. The activity rates of the enzymes leucine aminopeptidase (LAP), beta-glucosidase (GLU), and alkaline phosphatase (AP) and community-level physiological profiles (CLPPs) were studied with the aim of determining the functional diversity of the benthic microbial community, while bacterial isolates were screened for their susceptibility to antibiotics in order to explore the role of these extreme environments as potential reservoirs of antibiotic resistance. Enzyme activity rates were obtained using fluorogenic substrates, and CLPPs were obtained using Biolog Ecoplates; antibiotic susceptibility assays were performed through the standard disk diffusion method. Spatial trends observed in the functional profiles of the microbial community suggested variability in the microbial community's composition, presumably related to the patchy distribution of organic substrates. Complex carbon sources, carbohydrates, and amino acids were the organic polymers preferentially metabolized by the microbial community. Multi-resistance to enrofloxacin and tetracycline was detected in all of the examined samples, stressing the role of sediments as a potential reservoir of chemical wastes ascribable to antibiotic residuals. This study provides new insights on the health status of fjord sediments of West Spitsbergen, applying a dual ecological and biochemical approach. Microbial communities in the fjord sediments showed globally a good functional diversity, suggesting their versatility to rapidly react to changing conditions. The lack of significant diversification among the three studied areas suggests that microbial variables alone cannot be suitable descriptors of sediment health, and that additional measures (i.e., physical–chemical characteristics) should be taken to better define environmental status. [ABSTRACT FROM AUTHOR]

Published

2024

150. Analysing the impacts of extreme torrential events using multi‐temporal LiDAR datasets—The Schöttlbach catchment, Upper Styria, Austria.

Author

Krenn, Paul, Kamp, Nicole, Peßenteiner, Stefanie, and Sass, Oliver

Subjects

LIDAR, SEDIMENT transport, RADAR meteorology, METEOROLOGICAL stations, EXTREME environments, SEDIMENTS, WATERSHEDS

Abstract

Extreme precipitation events in small alpine catchments trigger hazardous hydro‐geomorphic processes that cause considerable damage to settlements and infrastructure. In summer 2011 and 2017, two flood events mobilizing large amounts of sediments struck the town of Oberwölz (Styria, Austria) located at the outlet of the Schöttlbach catchment. We used data from local weather stations and precipitation radar to analyse the meteorological settings that caused the flooding. We compiled a consistent sediment budget for the 2017 event by combining geomorphic mapping, connectivity analysis, high‐resolution airborne LiDAR (ALS) and uncrewed aerial vehicle (UAV)‐borne LiDAR (ULS), data from other authors for the 2011 event and external information (e.g., event analysis and excavation data). The 2017 event mobilized higher sediment volumes than the 2011 event (131 000 m3 vs 90 000 m3) even though 24‐h precipitation and peak discharges were lower in 2017. First assumptions that the larger sediment output was caused by the reworking of the 2011 flood deposits proved to be incorrect. The impacts of the 2011 event affected the resilience of the geomorphic system resulting in a significantly higher hillslope sediment supply. We conclude that sediment transport in alpine catchments can increase disproportionately when recurrence intervals fall below a critical level. [ABSTRACT FROM AUTHOR]

Published

2024