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2022 ◽  
Vol 31 ◽  
pp. 100770
Author(s):  
Lucas Mallmann Wendt ◽  
Vagner Ludwig ◽  
Fabiane Portella Rossato ◽  
Magno Roberto Pasquetti Berghetti ◽  
Erani Eliseu Schultz ◽  
...  

2022 ◽  
Vol 124 ◽  
pp. 107255
Author(s):  
Hongwei Wang ◽  
Yan Wang ◽  
Rui Wang ◽  
Xingli Liu ◽  
Yanyan Zhang ◽  
...  

2022 ◽  
Vol 166 ◽  
pp. 108736
Author(s):  
Tonni Agustiono Kurniawan ◽  
Mohd Hafiz Dzarfan Othman ◽  
Deepak Singh ◽  
Ram Avtar ◽  
Goh Hui Hwang ◽  
...  

2022 ◽  
Vol 10 (1) ◽  
pp. 190
Author(s):  
Ida Romano ◽  
Carlo Camerlingo ◽  
Lisa Vaccari ◽  
Giovanni Birarda ◽  
Annarita Poli ◽  
...  

A main factor hampering life in space is represented by high atomic number nuclei and energy (HZE) ions that constitute about 1% of the galactic cosmic rays. In the frame of the “STARLIFE” project, we accessed the Heavy Ion Medical Accelerator (HIMAC) facility of the National Institute of Radiological Sciences (NIRS) in Chiba, Japan. By means of this facility, the extremophilic species Haloterrigena hispanica and Parageobacillus thermantarcticus were irradiated with high LET ions (i.e., Fe, Ar, and He ions) at doses corresponding to long permanence in the space environment. The survivability of HZE-treated cells depended upon either the storage time and the hydration state during irradiation; indeed, dry samples were shown to be more resistant than hydrated ones. With particular regard to spores of the species P. thermantarcticus, they were the most resistant to irradiation in a water medium: an analysis of the changes in their biochemical fingerprinting during irradiation showed that, below the survivability threshold, the spores undergo to a germination-like process, while for higher doses, inactivation takes place as a consequence of the concomitant release of the core’s content and a loss of integrity of the main cellular components. Overall, the results reported here suggest that the selected extremophilic microorganisms could serve as biological model for space simulation and/or real space condition exposure, since they showed good resistance to ionizing radiation exposure and were able to resume cellular growth after long-term storage.


PLoS ONE ◽  
2022 ◽  
Vol 17 (1) ◽  
pp. e0262275
Author(s):  
Stephan Hilpmann ◽  
Miriam Bader ◽  
Robin Steudtner ◽  
Katharina Müller ◽  
Thorsten Stumpf ◽  
...  

The safe disposal of high-level radioactive waste in a deep geological repository is a huge social and technical challenge. So far, one of the less considered factors needed for a long-term risk assessment, is the impact of microorganisms occurring in the different host rocks. Even under the harsh conditions of salt formations different bacterial and archaeal species were found, e. g. Halobacterium sp. GP5 1–1, which has been isolated from a German rock salt sample. The interactions of this archaeon with uranium(VI), one of the radionuclides of major concern for the long-term storage of high-level radioactive waste, were investigated. Different spectroscopic techniques, as well as microscopy, were used to examine the occurring mechanisms on a molecular level leading to a more profound process understanding. Batch experiments with different uranium(VI) concentrations showed that the interaction is not only a simple, but a more complex combination of different processes. With the help of in situ attenuated total reflection Fourier-transform infrared spectroscopy the association of uranium(VI) onto carboxylate groups was verified. In addition, time-resolved laser-induced luminescence spectroscopy revealed the formation of phosphate and carboxylate species within the cell pellets as a function of the uranium(VI) concentration and incubation time. The association behavior differs from another very closely related halophilic archaeon, especially with regard to uranium(VI) concentrations. This clearly demonstrates the importance of studying the interactions of different, at first sight very similar, microorganisms with uranium(VI). This work provides new insights into the microbe-uranium(VI) interactions at highly saline conditions relevant to the long-term storage of radioactive waste in rock salt.


2022 ◽  
Vol 51 (4) ◽  
pp. 795-804
Author(s):  
Mariya Zenkova ◽  
Ludmila Melnikova

Introduction. Sprouted grain can cause food poisoning, since inappropriate conditions can promote the growth of pathogenic microorganisms on the grain surface. As a result, products of long-term storage use thermally-treated sprouted grain, the parameters of which depend on the initial bacteria content. There are different ways to reduce bacterial contamination of sprouted grain, each of which has its own advantages and disadvantages. Natural substances with antimicrobial properties, such as medicinal herbs, can serve as decontaminators. However, no scientific research has been performed so far to determine the exact temperature of grain sprouting to minimize its microbiological contamination. The research objective was to investigate the effect of antimicrobial agents and sprouting conditions on the microflora of wheat and buckwheat grain. Study objects and methods. The study featured wheat grain and green buckwheat grain. A set of experiments was performed to define the effect of antimicrobial agents and sprouting conditions on the quantity of mesophilic aerobic and facultative anaerobic microorganisms (QMAFAnM), molds, and yeasts. During sprouting at 10–30°C for 90 h, the grain was irrigated with distilled water, potassium permanganate solution (KMnO4), calendula infusion, and celandine i nfusion. QMAFAnM and the count of molds and yeasts were determined by standard methods; the qualitative analysis of the microflora was based on their morphological and cultural characteristics. Results and discussion. Microflora development during sprouting of wheat and buckwheat grains was controlled by selecting appropriate conditions and grain treatment methods. The herbal infusions for sprouting reduced the total microbial insemination of grain during sprouting by 52–68%; the calendula infusion reduced the contamination with molds by 47–51%, yeasts – by 100%. Conclusion. The research revealed the total microbial count and the count of mold and yeast colonies in dry sprouted grain. The optimal temperature of sprouting wheat and buckwheat was 20 ± 2°C in the infusion of medicinal herbs: it minimized the microflora of sprouted grain and reduced the sprouting time to 46 h. Calendula infusion could be recommended for commercial use in order reduce the microbiological contamination of sprouted grain. The initial microbial population of the product was found to affect the mode of heat treatment in long-term storage products.


Author(s):  
Larisa Tretiakova ◽  
Liudmyla Mitiuk ◽  
Igor Panasiuk ◽  
Elina Rebuel

The problem of production waste storage in open areas of an enterprise with a galvanic shop for the production of chips and microchips has been investigated. The composition of the sludge obtained after sewage treatment of the production of the copper line was investigated. The aim of the article is to develop a mathematical model for predicting the distribution of compounds with heavy metals in the soil during long-term storage of galvanic sludge in open areas. Modeling the process of movement of salts from the earth's surface into the lower layers of the aeration zone occurs according to the laws of molecular diffusion. The method is developed on the basis of a mathematical model that makes it possible to estimate the spread over the depth of the ground and level of soil salinity over time using initial information about soil structure and its characteristics (molecular diffusion coefficient, volume humidity), annual volumes and conditions of sludge storage in the enterprise. Restrictions are set: the presence of harmful substances on the soil surface with a concentration that exceeds the permissible level; inadmissibility of harmful substances to aquifers. The practical use of the method made it possible to identify the main dangers during long-term storage of galvanic waste in open areas. The dynamics of soil salinity levels and the depth of penetration of heavy metals increase over twenty years of conservation has been determined, as well as the possibility of hazardous compounds entering groundwater has been assessed. Polyvinyl chloride packaging has a maximum life span of 15 years. Waste should not be stored in packages and in closed areas for more than 10 years. According to the prediction results, it can be stated that storage in landfills of galvanic waste for more than 15 years leads to significant salinization of the soil and creates conditions for an emergency situation, which is caused by harmful substances entering the water horizons. Recommendations for improving storage conditions are given and the need for recycling of industrial waste is substantiated


2022 ◽  
Vol 14 (2) ◽  
pp. 661
Author(s):  
Olga Senko ◽  
Nikolay Stepanov ◽  
Olga Maslova ◽  
Elena Efremenko

It was found that immobilization of cells in poly(vinyl alcohol) (PVA) cryogel can be successfully applied for concurrent cryoimmobilization, cryoconservation and long-term storage of the cells of various phototrophic microorganisms (green and red microalgae, diatoms and cyanobacteria). For the first time, it was shown for 12 different immobilized microalgal cells that they can be stored frozen for at least 18 months while retaining a high level of viability (90%), and can further be used as an inoculum upon defrosting for cell-free biomass accumulation. Application of cryoimmobilized Chlorella vulgaris cells as inocula allowed the loading of a high concentration of the microalgal cells into the media for free biomass accumulation, thus increasing the rate of the process. It was shown that as minimum of 5 cycles of reuse of the same immobilized cells as inocula for cell accumulation could be realized when various real wastewater samples were applied as media for simultaneous microalgae cultivation and water purification.


2022 ◽  
Vol 11 (1) ◽  
pp. 245
Author(s):  
Jan A. Graw ◽  
Victoria Bünger ◽  
Lorenz A. Materne ◽  
Alexander Krannich ◽  
Felix Balzer ◽  
...  

Packed red blood cells (PRBCs), stored for prolonged intervals, might contribute to adverse clinical outcomes in critically ill patients. In this study, short-term outcome after transfusion of PRBCs of two storage duration periods was analyzed in patients with Acute Respiratory Distress Syndrome (ARDS). Patients who received transfusions of PRBCs were identified from a cohort of 1044 ARDS patients. Patients were grouped according to the mean storage age of all transfused units. Patients transfused with PRBCs of a mean storage age ≤ 28 days were compared to patients transfused with PRBCs of a mean storage age > 28 days. The primary endpoint was 28-day mortality. Secondary endpoints included failure-free days composites. Two hundred and eighty-three patients were eligible for analysis. Patients in the short-term storage group had similar baseline characteristics and received a similar amount of PRBC units compared with patients in the long-term storage group (five units (IQR, 3–10) vs. four units (2–8), p = 0.14). The mean storage age in the short-term storage group was 20 (±5.4) days compared with 32 (±3.1) days in the long-term storage group (mean difference 12 days (95%-CI, 11–13)). There was no difference in 28-day mortality between the short-term storage group compared with the long-term storage group (hazard ratio, 1.36 (95%-CI, 0.84–2.21), p = 0.21). While there were no differences in ventilator-free, sedation-free, and vasopressor-free days composites, patients in the long-term storage group compared with patients in the short-term storage group had a 75% lower chance for successful weaning from renal replacement therapy (RRT) within 28 days after ARDS onset (subdistribution hazard ratio, 0.24 (95%-CI, 0.1–0.55), p < 0.001). Further analysis indicated that even a single PRBC unit stored for more than 28 days decreased the chance for successful weaning from RRT. Prolonged storage of PRBCs was not associated with a higher mortality in adults with ARDS. However, transfusion of long-term stored PRBCs was associated with prolonged dependence of RRT in critically ill patients with an ARDS.


Author(s):  
Eun Jung Koh ◽  
Seung Hwan Kim ◽  
Seung Yong Hwang

AbstractBiological samples collected from cohort studies are widely utilized in molecular genetic studies and are typically stored long term for future applications, such as omics analyses. The extent of sample availability is determined by proper sample handling, and it is of primary importance for successful omics studies. However, questions on whether samples in long-term storage are properly available for omics experiments has been raised, because the quality and availability of such samples remain unknown until their actual utilization. In that perspective, several guidelines for proper sample management have been suggested. In addition, several researchers assessed how improper management damages sample using mock sample and suggested a set of requirements for sample handling. In this review, we present several considerations for sample handling eligible for omics studies. Focusing on birth cohorts, we describe the types of samples collected from which omics data were generated. This review ultimately aims to provide proper guidelines for sample handling for successful human omics studies.


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