The Molecular Composition of Humic Substances Isolated From Yedoma Permafrost and Alas Cores in the Eastern Siberian Arctic as Measured by Ultrahigh Resolution Mass Spectrometry

Zherebker, Alexander; Podgorski, David C.; Холодов, В. А.; Orlov, Alexey A.; Yaroslavtseva, N. V.; Kharybin, Oleg N.; Kholodov, Alexander; Spector, V.; Spencer, Robert G. M.; Nikolaev, Eugene; Perminova, Irina V.

doi:10.1029/2018jg004743

Cited by 14 publications

(14 citation statements)

References 47 publications

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“…To date, extended literature has been produced on the application of FT-ICR MS to NOM and its fractions, mostly in relation to dissolved organic matter (DOM) (Brown and Rice, 2000;Kujawinski, 2002;Stenson et al, 2002;Sleighter and Hatcher, 2007;Remucal et al, 2012;Lv et al, 2016). But, when it comes to the terrestrial soil organic matter (SOM) and its fractions, only a few publications arise (Kramer et al, 2004;Ohno et al, 2010;Piccolo et al, 2010;Ohno and Ohno, 2013;Zherebker et al, 2019), whereas investigations on other sources such as ores or compost are rare. A recent innovative approach has been incorporated in the pipeline of the studies on biologically active metabolites, where molecular formulas obtained by FT-ICR MS were sourced from public online databases with valuable results that helped gathering insights into the chemistry of HS (Fedoros et al, 2018;Orlov et al, 2019;Zhernov et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Bioactivity of Humic Acids Extracted From Shale Ore: Molecular Characterization and Structure-Activity Relationship With Tomato Plant Yield Under Nutritional Stress

Monda¹,

McKenna

Fountain³

et al. 2021

Front. Plant Sci.

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The increasing demands for biostimulants in the agricultural market over the last years have posed the problem of regulating this product category by requiring the industry to make available the information about efficacy and safety, including the explanation of mode of action and the definition of bioactive constituents. In the present study, we tested the biostimulant proprieties of a sedimentary shale ore-extracted humic acid (HA) on Micro Tom tomato plants under increasing nutritional stress and investigated the correlation with the chemical features of HA by means of ultra-high resolution FT-ICR MS, FT-ATR, and 13C-NMR. Humic acid application proved effective in alleviating the nutritional stress by improving nutrient use efficiency, with results comparable to the control treatment supplied with higher NPK nutrition. Increased yield (up to +19%) and fruit quality (in the range +10–24%), higher ascorbic acid content and a better root growth were the main parameters affected by HA application. Molecular-level characterization identified the possible chemical drivers of bioactivity, and included flavonoids, quinones, and alkaloids among the most represented molecules, some of which exhibiting antioxidant, pro-oxidant, and antimicrobial activity. The redox effect was discussed as a determinant of the delicate homeostasis balance, capable of triggering plant defense response and eventually inducing a protective priming effect on the plants.

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Section: Introductionmentioning

confidence: 99%

Bioactivity of Humic Acids Extracted From Shale Ore: Molecular Characterization and Structure-Activity Relationship With Tomato Plant Yield Under Nutritional Stress

Monda¹,

McKenna

Fountain³

et al. 2021

Front. Plant Sci.

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“…Hence, AI is the most conservative aromatic system approximation. Despite known limitations of these indices (especially AI mod ), they currently serve as major structural parameters in many geochemical studies of NOM/HS. − The use of AI may thus lead to false conclusions about the aromatic character of molecules for structurally constrained samples. For example, we have recently shown that molecules with the same low AI value (e.g., 0.3) may correspond to isomers with and without aromatic rings depending on the geochemical origin …”

mentioning

confidence: 99%

Refinement of Compound Aromaticity in Complex Organic Mixtures by Stable Isotope Label Assisted Ultrahigh-Resolution Mass Spectrometry

et al. 2020

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Fourier transform ion cyclotron resonance mass spectrometry (FTICR MS) provides a unique opportunity for molecular analysis of natural complex mixtures. In many geochemical and environmental studies structure−propertry relations are based solely on the elemental compositional information. Several calculated parameters were proposed to increase reliability of structural attribution, among which aromaticity indices (AI and AI mod ) are widely used. Herein, we applied a combination of selective labeling reactions in order to obtain direct structural information on the individual components of lignin-derived polyphenolic material. Carboxylic (COOH), carbonyl (CO), and hydroxyl (OH) groups were enumerated by esterification, reducing, and acetylation reactions, respectively, followed by FTICR MS analyses. Obtained information was enabled to constrain aromaticity accounting for the carbon skeleton only. We found that actual aromaticity of components may be both higher or lower than approximated values depending on the abundance of COOH, CO, and OH groups. The results are of importance for the geochemical community studying terrestrial NOM with structural gradients.

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“…However, the formulae list detected for coal HA (CHA-h 36 ) was not unequivocally assigned to the CHA sample from the database: based on top-ranked 9000 FDs, SHA-Ctk suggested the lowest FDCEL distance, but CHA would be a second choice. The unconventional result was also obtained for FA samples, which were isolated from the permafrost soil 37 . Supposedly, FA1-Y-15 and FA2-Y-15 are represented by the low-transformed organic compounds well conserved under the ice shield.…”

Section: Databasementioning

confidence: 74%

“…Dataset I includes formulae lists acquired for SRFA with various ionization techniques: ESI (SRFA-r 24 , SRFA-t 11 , SRFA-u 25 ), LDI (SRFA-s 26 ), PSI (SRFA-v 25 ), PSCI (SRFA-w 25 ). Dataset G for geochemical application verification includes various formulae lists: SLNOM-XAD, SLNOM-PPL 27 ; PRNOM, AHF-RPP-10, AHF-RPP-11, AHF-RK5P-10, AHF-RK6P-10, AHF-AOP-10 31 ; SDOM-GF 33 ; PHA-TTL 35 ; coal humic acid CHA-h has been described elsewhere 36 and it has been analyzed via Bruker Daltonics 12 Tesla Apex Qe FTICR-MS, housed at the College of Sciences Major Instrumentation Cluster (COSMIC) at Old Dominion University; FA1-Y-15, FA2-Y-15 37 .…”

Section: Datamentioning

confidence: 99%

Natural complex mixtures unequivocally defined in formulae difference space

Sarycheva

Perminova

Nikolaev

et al. 2022

Preprint

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Direct comparison of high-resolution mass spectrometry (HRMS) data acquired with different instrumentation or parameters remains difficult as the derived lists of molecular species via HRMS, even for the same sample, appear distinct. This inconsistency is the result of inherent inaccuracies caused by instrumental limitations and sample conditions. We propose a method that classifies HRMS data based on the differences in the number of elements between each pair of molecular formulae within the formulae list to preserve the essence of the given sample. The novel metric, Formulae Difference Chains Expected Length (FDCEL), allowed for comparing and classifying samples measured by different instruments. FDCEL metric was implemented for both spectrum quality control and for examination of samples of various nature. We also demonstrate a web application and a prototype for a uniform database for HRMS data serving as a benchmark for future biogeochemical applications.

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The Molecular Composition of Humic Substances Isolated From Yedoma Permafrost and Alas Cores in the Eastern Siberian Arctic as Measured by Ultrahigh Resolution Mass Spectrometry

Cited by 14 publications

References 47 publications

Bioactivity of Humic Acids Extracted From Shale Ore: Molecular Characterization and Structure-Activity Relationship With Tomato Plant Yield Under Nutritional Stress

Bioactivity of Humic Acids Extracted From Shale Ore: Molecular Characterization and Structure-Activity Relationship With Tomato Plant Yield Under Nutritional Stress

Refinement of Compound Aromaticity in Complex Organic Mixtures by Stable Isotope Label Assisted Ultrahigh-Resolution Mass Spectrometry

Natural complex mixtures unequivocally defined in formulae difference space

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