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1. Terrestrial modification of the Ivuna meteorite and a reassessment of the chemical composition of the CI type specimen

Author

King, A. J., Phillips, K. J. H., Strekopytov, S., Vita-Finzi, C., and Russell, S. S.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

The rare CI carbonaceous chondrites are the most aqueously altered and chemically primitive meteorites but due to their porous nature and high abundance of volatile elements are susceptible to terrestrial weathering. The Ivuna meteorite, type specimen for the CI chondrites, is the largest twentieth-century CI fall and least affected by terrestrial alteration. The main mass of Ivuna (BM2008 M1) has been stored in a nitrogen atmosphere at least since 2008 and is the most pristine CI chondrite stone. We report the mineralogy, petrography and bulk elemental composition of BM2008 M1 and a second Ivuna stone (BM1996 M4) stored in air. Both Ivuna stones are breccias consisting of multiple rounded, phyllosilicate-rich clasts formed through aqueous alteration followed by impact processing. A polished thin section of BM2008 M1 analysed immediately after preparation was found to contain sulphate-bearing veins formed when primary sulphides reacted with oxygen and atmospheric water. A section of BM1996 M4 lacked veins but had sulphate grains on the surface recently formed (last 6 years). Differences in the extent of terrestrial alteration recorded by BM2008 M1 and BM1996 M4 probably reflect variations in the post-recovery curation history of the stones before entering the NHM collection, and indicate that where possible pristine samples of hydrated carbonaceous should be kept out of the terrestrial environment in a stable environment to avoid modification. The bulk elemental composition of the two Ivuna stones show some variability due to their heterogeneous nature but in general are similar to previous analyses of CI chondrites. We combine our elemental abundances with literature values to calculate a new average composition for the Ivuna meteorite, which is in good agreement with existing compilations of CI chondrites and the most recent solar photospheric abundances., Comment: Geochimica et Cosmochimica Acta (to be published)

Published
2019
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5. MetroPOEM – Metrology for the harmonisation of measurements of environmental pollutants in Europe

Author

Arnold, D., Eberhardt, J., Flierl, L., Rienitz, O., Pramann, A., Zapata, D., Vogl, J., Prem, P. S., Lourenço, V., Chambon, L., Isnard, H., Mazánová, M., Sochorová, J., Zuliani, T., Goltnik, T., Rovan, L., Štrok, M., Noireaux, J., Kamarainen, M., Engin, B. A., Can, S. Z., Cankur, O., İşleyen, A., Hansen, V., Ulrich, T., Andreasen, R., Hou, X., Qiao, J., Pröfrock, D., Wippermann, D., Zimmermann, T., (0000-0001-8348-3260) Winkler, S., (0000-0002-0723-7778) Fichter, S., (0000-0003-2804-3670) Wallner, A., Schöpke, C., Johansen, I., Yasin, V., Ioan, M.-R., Virgolici, M., Olaru, C., Badea, R., Walther, C., Irrgeher, J., Lancaster, S., Epov, A., Chernonozhkin, S., Wagner, S., Jerome, S., Skipperud, L., Jensen, K.-A., Salminen-Paatero, S., Vukanac, I., Čeliković, I., Rajačić, I., Djurašević, M., Nikolić, J. K., Christl, M., Tribouillier, H. P., Malinovskiy, D., Hil, S., Goenaga-Infante, H., Strekopytov, S., Russell, B., Mohamud, H., Thompkins, H., Arnold, D., Eberhardt, J., Flierl, L., Rienitz, O., Pramann, A., Zapata, D., Vogl, J., Prem, P. S., Lourenço, V., Chambon, L., Isnard, H., Mazánová, M., Sochorová, J., Zuliani, T., Goltnik, T., Rovan, L., Štrok, M., Noireaux, J., Kamarainen, M., Engin, B. A., Can, S. Z., Cankur, O., İşleyen, A., Hansen, V., Ulrich, T., Andreasen, R., Hou, X., Qiao, J., Pröfrock, D., Wippermann, D., Zimmermann, T., (0000-0001-8348-3260) Winkler, S., (0000-0002-0723-7778) Fichter, S., (0000-0003-2804-3670) Wallner, A., Schöpke, C., Johansen, I., Yasin, V., Ioan, M.-R., Virgolici, M., Olaru, C., Badea, R., Walther, C., Irrgeher, J., Lancaster, S., Epov, A., Chernonozhkin, S., Wagner, S., Jerome, S., Skipperud, L., Jensen, K.-A., Salminen-Paatero, S., Vukanac, I., Čeliković, I., Rajačić, I., Djurašević, M., Nikolić, J. K., Christl, M., Tribouillier, H. P., Malinovskiy, D., Hil, S., Goenaga-Infante, H., Strekopytov, S., Russell, B., Mohamud, H., and Thompkins, H.

Abstract

Summary The European Green Deal’s ambition for zero pollution requires the development of highly sensitive techniques to detect ultra-low amounts of pollutants. This requirement will be delivered via strategies described by the two European Metrology Network (EMN) on Pollution Monitoring (PolMo) and the EMN on Radiation Protection, supporting the Basic Safety Standards directive. Implicit in these strategies is a strong need to improve data quality for monitoring and reporting pollution in the air, water, and soil. To detect radioactive isotopes and stable polluting elements in the environment, fast, sensitive, and inexpensive analytical procedures are needed. Mass spectrometry is a key method for determination of non-radioactive polluting elements and of increasing importance for long-lived radionuclides, however, application of single collector ICP-MS, this potential cannot be fully realised unless techniques are validated with traceable multi-element reference materials. However, multi-element certified reference materials are usually not available and single-element certified reference materials are limited to very few elements. Nevertheless, these reference materials are urgently needed to calibrate mass spectrometric measurements, to overcome mass bias effects occurring during the measurements in mass spectrometers. The MetroPOEM project (21GRD09) is designed to address these problems. MetroPOEM, coordinated by the Physikalisch-Technische Bundesanstalt of Germany, will be delivered by a consortium of 22 partners from 13 countries throughout Europe. Objectives The overall aim of MetroPOEM is to bridge the gap between radiometric techniques and mass spectrometry for the characterisation and detection of polluting long-lived radionuclides and stable elements and element tracers by comparing and linking both techniques, thus significantly improving measurement uncertainties and detection limits. These aims and objectives will be delivered through four technical wo

Published
2023

8. Cadmium isotope fractionation reveals genetic variation in Cd uptake and translocation by Theobroma cacao and role of Natural Resistance-Associated Macrophage Protein (NRAMP5) and Heavy Metal ATPases (HMA)-family transporters

Author

Moore, R. E. T., Ullah, Ihsan, de Oliveira, V. H., Hammond, S. J., Strekopytov, S., Tibbett, Mark, Dunwell, Jim, and Rehkamper, M.

Abstract

In response to new EU regulations, studies are underway to mitigate accumulation of toxic cadmium (Cd) in cacao (Theobroma cacao, Tc). This study advances such research with Cd isotope analyses of 19 genetically diverse cacao clones and yeast transformed to express cacao Natural Resistance-Associated Macrophage Protein NRAMP5 and Heavy Metal ATPases (HMAs). The plants were enriched in light Cd isotopes relative to the hydroponic solution with Δ114/110Cdtot-sol= –0.22 ± 0.08‰. Leaves show a systematic enrichment of isotopically heavy Cd relative to total plants, in accord with closed-system isotope fractionation of Δ114/110Cdseq-mob= –0.13‰, by sequestering isotopically light Cd in roots/stems and mobilisation of remaining Cd to leaves. The findings demonstrate that (i) transfer of Cd between roots and leaves is primarily unidirectional; (ii) different clones utilise similar pathways for Cd sequestration, which differ from those of other studied plants; (iii) clones differ in their efficiency of Cd sequestration. Transgenic yeast that expresses TcNRAMP5 had isotopically lighter Cd than did cacao. This suggests that NRAMP5 transporters constitute an important pathway for uptake of Cd by cacao. Cadmium isotope signatures of transgenic yeast expressing HMA-family proteins suggest they may contribute to Cd sequestration. The data are the first to record isotope fractionation induced by transporter proteins in vivo.

Published
2020

11. The alteration history of the Jbilet Winselwan CM carbonaceous chondrite: An analog for C-type asteroid sample return

Author

King, A, Russell, S, Schofield, P, Humphreys-Williams, E, Strekopytov, S, King, A, Russell, S, Schofield, P, Humphreys-Williams, E, and Strekopytov, S

Abstract

Jbilet Winselwan is one of the largest CM carbonaceous chondrites available for study. Its light, major, and trace elemental compositions are within the range of other CM chondrites. Chondrules are surrounded by dusty rims and set within a matrix of phyllosilicates, oxides, and sulfides. Calcium‐ and aluminum‐rich inclusions (CAIs) are present at ≤1 vol% and at least one contains melilite. Jbilet Winselwan is a breccia containing diverse lithologies that experienced varying degrees of aqueous alteration. In most lithologies, the chondrules and CAIs are partially altered and the metal abundance is low (<1 vol%), consistent with petrologic subtypes 2.7–2.4 on the Rubin et al. (2007) scale. However, chondrules and CAIs in some lithologies are completely altered suggesting more extensive hydration to petrologic subtypes ≤2.3. Following hydration, some lithologies suffered thermal metamorphism at 400–500 °C. Bulk X‐ray diffraction shows that Jbilet Winselwan consists of a highly disordered and/or very fine‐grained phase (73 vol%), which we infer was originally phyllosilicates prior to dehydration during a thermal metamorphic event(s). Some aliquots of Jbilet Winselwan also show significant depletions in volatile elements such as He and Cd. The heating was probably short‐lived and caused by impacts. Jbilet Winselwan samples a mixture of hydrated and dehydrated materials from a primitive water‐rich asteroid. It may therefore be a good analog for the types of materials that will be encountered by the Hayabusa‐2 and OSIRIS‐REx asteroid sample‐return missions., © 2018 The Authors. Meteoritics & Planetary Science published by Wiley Periodicals, Inc. on behalf of The Meteoritical Society (MET). This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. The attached file is the published version of this article., NHM Repository

Published
2019

12. Rare earth elements in phoscorites and carbonatites of the Devonian Kola Alkaline Province, Russia: Examples from Kovdor, Khibina, Vuoriyarvi and Turiy Mys complexes

Author

Zaitsev, AN, Terry Williams, C, Jeffries, T, Strekopytov, S, Moutte, J, Ivashchenkova, OV, Spratt, J, Petrov, SV, Wall, F, Seltmann, Reimar, Borozdin, AP, Zaitsev, AN, Terry Williams, C, Jeffries, T, Strekopytov, S, Moutte, J, Ivashchenkova, OV, Spratt, J, Petrov, SV, Wall, F, Seltmann, Reimar, and Borozdin, AP

Abstract

he Devonian (ca. 385–360 Ma) Kola Alkaline Province includes 22 plutonic ultrabasic–alkaline complexes, some of which also contain carbonatites and rarely phoscorites. The latter are composite silicate–oxide–phosphate–carbonate rocks, occurring in close space-time genetic relations with various carbonatites. Several carbonatites types are recognized at Kola, including abundant calcite carbonatites (early- and late-stage), with subordinate amounts of late-stage dolomite carbonatites, and rarely magnesite, siderite and rhodochrosite carbonatites. In phoscorites and early-stage carbonatites the rare earth elements (REE) are distributed among the major minerals including calcite (up to 490 ppm), apatite (up to 4400 ppm in Kovdor and 3.5 wt.% REE2O3 in Khibina), and dolomite (up to 77 ppm), as well as accessory pyrochlore (up to 9.1 wt.% REE2O3) and zirconolite (up to 17.8 wt.% REE2O3). Late-stage carbonatites, at some localities, are strongly enriched in REE (up to 5.2 wt.% REE2O3 in Khibina) and the REE are major components in diverse major and minor minerals such as burbankite, carbocernaite, Ca- and Ba-fluocarbonates, ancylite and others. The rare earth minerals form two distinct mineral assemblages: primary (crystallized from a melt or carbohydrothermal fluid) and secondary (formed during metasomatic replacement). Stable (C–O) and radiogenic (Sr–Nd) isotopes data indicate that the REE minerals and their host calcite and/or dolomite have crystallized from a melt derived from the same mantle source and are co-genetic., Copyright © 2014 Elsevier B.V. All rights reserved. The attached document is the authors' final accepted version of the journal article. You are advised to consult the publisher’s version if you wish to cite from it., NHM Repository

Published
2019

13. Determination of major and trace element variability in healthy human urine by ICP-QMS and specific gravity normalisation

Author

Moore, R, Rehkamper, M, Kreissig, K, Strekopytov, S, and Larner, F

Subjects
Science & Technology, BLOOD, BODY BURDEN, Chemistry, Multidisciplinary, COPPER, CADMIUM CONCENTRATIONS, MASS-SPECTROMETRY, REFERENCE VALUES, Chemistry, IRON STATUS, SERUM ZINC, Physical Sciences, CIRCADIAN-RHYTHMS, DIETARY CAFFEINE
Abstract

Sixty five urine samples obtained during one or two non-consecutive days from 10 healthy individuals were analysed for major (Na, Mg, K, Ca) and trace (Co, Cu, Zn, As, Rb, Sr, Mo and Pb) element concentrations. Following microwave digestion, the analyses were carried out using ICP-QMS (inductively coupled plasma quadrupole mass spectrometry) incorporating a collision/reaction cell. Repeat analyses of quality control samples show that the procedure produces unbiased results and is well suited for routine urinalysis of the investigated elements. Concentrations were normalised using specific gravity (SG) and the resultant decrease in variability supports previous conclusions that SG-normalisation appropriately corrects for differences in urine dilution. The elemental concentrations of the individual urine samples show large differences in dispersion. Most variable are As, Co and Zn, with CVs (coefficients of variation) of >75%. The major elements as well as Rb, Sr and Mo display intermediate variability, whilst Cu and Pb have the least elemental dispersion with CV values of about 30%. A detailed assessment shows that the overall elemental variability is governed both by differences between individuals and variations for a single individual over time. Spot urine samples exhibit elemental concentrations that, on average, resemble the daily mean values to within about 30% for all elements except K and Rb. Diet-related changes in urinary element concentration are most prominent for Mg, K, Co, Rb and Pb. The concentrations of Co, As and Rb appear to vary systematically with gender but this may primarily reflect co-variance with specific diets.

Published
2018

14. The petrology, geochemistry, and age of lunar regolith breccias Miller Range 090036 and 090070: insights into the crustal history of the Moon

Author

Calzada-Diaz, A., Joy, K. H., Ian Crawford, and Strekopytov, S.

Subjects
es
Abstract

Meteorites ejected from the surface of the Moon as a result of impact events are an important source of lunar material in addition to Apollo and Luna samples. Here, we report bulk element composition, mineral chemistry, age, and petrography of Miller Range (MIL) 090036 and 090070 lunar meteorites. MIL 090036 and 090070 are both anorthositic regolith breccias consisting of mineral fragments and lithic clasts in a glassy matrix. They are not paired and represent sampling of two distinct regions of the lunar crust that have protoliths similar to ferroan anorthosites. 40Ar-39Ar chronology performed on two subsplits of MIL 090070,33 (a pale clast impact melt and a dark glassy melt component) shows that the sample underwent two main degassing events, one at ~3.88 Ga and another at ~3.65 Ga. The cosmic ray exposure data obtained from MIL 090070 are consistent with a short (~8–9 Ma) exposure close to the lunar surface. Bulk-rock FeO, TiO2, and Th concentrations in both samples were compared with 2-degree Lunar Prospector Gamma Ray Spectrometer (LP-GRS) data sets to determine areas of the lunar surface where the regolith matches the abundances observed on the sample. We find that MIL 090036 bulk rock is compositionally most similar to regolith surrounding the Procellarum KREEP Terrane, whereas MIL 090070 best matches regolith in the feldspathic highlands terrane on the lunar farside. Our results suggest that some areas of the lunar farside crust are composed of ferroan anorthosite, and that the samples shed light on the evolution and impact bombardment history of the ancient lunar highlands.

Published
2017

16. A geochemical study of the winonaites: Evidence for limited partial melting and constraints on the precursor composition

Author

Hunt, A., Benedix, G., Hammond, S., Bland, Phil, Rehkämper, M., Kreissig, K., Strekopytov, S., Hunt, A., Benedix, G., Hammond, S., Bland, Phil, Rehkämper, M., Kreissig, K., and Strekopytov, S.

Abstract

The winonaites are primitive achondrites which are associated with the IAB iron meteorites. Textural evidence implies heating to at least the Fe, Ni–FeS cotectic, but previous geochemical studies are ambiguous about the extent of silicate melting in these samples. Oxygen isotope evidence indicates that the precursor material may be related to the carbonaceous chondrites. Here we analysed a suite of winonaites for modal mineralogy and bulk major- and trace-element chemistry in order to assess the extent of thermal processing as well as constrain the precursor composition of the winonaite-IAB parent asteroid. Modal mineralogy and geochemical data are presented for eight winonaites. Textural analysis reveals that, for our sub-set of samples, all except the most primitive winonaite (Northwest Africa 1463) reached the Fe, Ni–FeS cotectic. However, only one (Tierra Blanca) shows geochemical evidence for silicate melting processes. Tierra Blanca is interpreted as a residue of small-degree silicate melting. Our sample of Winona shows geochemical evidence for extensive terrestrial weathering. All other winonaites studied here (Fortuna, Queen Alexander Range 94535, Hammadah al Hamra 193, Pontlyfni and NWA 1463) have chondritic major-element ratios and flat CI-normalised bulk rare-earth element patterns, suggesting that most of the winonaites did not reach the silicate melting temperature. The majority of winonaites were therefore heated to a narrow temperature range of between ~1220 (the Fe, Ni–FeS cotectic temperature) and ~1370 K (the basaltic partial melting temperature). Silicate inclusions in the IAB irons demonstrate partial melting did occur in some parts of the parent body (Ruzicka and Hutson, 2010), thereby implying heterogeneous heat distribution within this asteroid. Together, this indicates that melting was the result of internal heating by short-lived radionuclides. The brecciated nature of the winonaites suggests that the parent body was later disrupted by a cat

Published
2017

17. New insights from zinc and copper isotopic compositions of atmospheric particulate matter from two major European cities

Author

Ochoa Gonzalez, R, Strekopytov, S, Amato, F, Querol, X, Reche, C, and Weiss, DJ

Subjects
MD Multidisciplinary, Environmental Sciences
Abstract

This study reports spatial and temporal variability of Zn and Cu isotopes in atmospheric particulate matter (PM) collected in two major European cities with contrasting atmospheric pollution, Barcelona and London. We demonstrate that non-traditional stable isotopes identify source contributions of Zn and Cu and can play a major role in future air quality studies. In Barcelona, fine PM were collected at street level at sites with variable traffic density. The isotopic signatures ranged between −0.13±0.09 and −0.55±0.09‰ for d66ZnIRMM and between +0.04±0.20 and +0.33±0.15‰ for d65CuAE633. Copper isotope signatures similar to Cu sulphides and Cu/Sb ratios within the range typically found in brake wear suggest that non-exhaust emissions from vehicles are dominant. Negative Zn isotopic signatures characteristic for gaseous emissions from smelting and combustion and large enrichments of Zn and Cd suggest contribution from metallurgical industries. In London, coarse PM collected on the top of a building over 18 months display isotope signatures ranging between +0.03±0.04 and +0.49±0.02‰ for d66ZnIRMM and between +0.37±0.17 and +0.97±0.21‰ for d65CuAE633. Heavy Cu isotope signatures (up to +0.97±0.21‰) and higher enrichments and Cu/Sb ratios during winter time suggest important contribution from fossil fuel combustion. The positive d66ZnIRMM signatures are in good agreement with signatures characteristic for ore concentrates used for the production of tires and galvanised materials, suggesting non-exhaust emissions from vehicles as the main source of Zn.

Published
2016

22. The alteration history of the Jbilet Winselwan CM carbonaceous chondrite: An analog for C‐type asteroid sample return.

Author

King, A. J., Russell, S. S., Schofield, P. F., Humphreys‐Williams, E. R., Strekopytov, S., Abernethy, F. A. J., Verchovsky, A. B., and Grady, M. M.

Subjects
CARBONACEOUS chondrites (Meteorites), X-ray diffraction, CHONDRULES, PHYLLOSILICATES, TRACE elements
Abstract

Jbilet Winselwan is one of the largest CM carbonaceous chondrites available for study. Its light, major, and trace elemental compositions are within the range of other CM chondrites. Chondrules are surrounded by dusty rims and set within a matrix of phyllosilicates, oxides, and sulfides. Calcium‐ and aluminum‐rich inclusions (CAIs) are present at ≤1 vol% and at least one contains melilite. Jbilet Winselwan is a breccia containing diverse lithologies that experienced varying degrees of aqueous alteration. In most lithologies, the chondrules and CAIs are partially altered and the metal abundance is low (<1 vol%), consistent with petrologic subtypes 2.7–2.4 on the Rubin et al. () scale. However, chondrules and CAIs in some lithologies are completely altered suggesting more extensive hydration to petrologic subtypes ≤2.3. Following hydration, some lithologies suffered thermal metamorphism at 400–500 °C. Bulk X‐ray diffraction shows that Jbilet Winselwan consists of a highly disordered and/or very fine‐grained phase (73 vol%), which we infer was originally phyllosilicates prior to dehydration during a thermal metamorphic event(s). Some aliquots of Jbilet Winselwan also show significant depletions in volatile elements such as He and Cd. The heating was probably short‐lived and caused by impacts. Jbilet Winselwan samples a mixture of hydrated and dehydrated materials from a primitive water‐rich asteroid. It may therefore be a good analog for the types of materials that will be encountered by the Hayabusa‐2 and OSIRIS‐REx asteroid sample‐return missions. [ABSTRACT FROM AUTHOR]

Published
2019
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23. Return of naturally sourced Pb to Atlantic surface waters

Author

Bridgestock, L., van de Flierdt, T., Rehkämper, M., Paul, P., Middag, R., Milne, A., Lohan, M.C., Baker, A., Chance, R., Khondoker, R., Strekopytov, S., Humphreys-Williams, E., Achterberg, E.P., Rijkenberg, M.J.A., Gerringa, L.J.A., De Baar, H.J.W., Bridgestock, L., van de Flierdt, T., Rehkämper, M., Paul, P., Middag, R., Milne, A., Lohan, M.C., Baker, A., Chance, R., Khondoker, R., Strekopytov, S., Humphreys-Williams, E., Achterberg, E.P., Rijkenberg, M.J.A., Gerringa, L.J.A., and De Baar, H.J.W.

Abstract

Anthropogenic emissions completely overwhelmed natural marine lead (Pb) sources duringthe past century, predominantly due to leaded petrol usage. Here, based on Pb isotopemeasurements, we reassess the importance of natural and anthropogenic Pb sources to thetropical North Atlantic following the nearly complete global cessation of leaded petrol use.Significant proportions of up to 30–50% of natural Pb, derived from mineral dust, areobserved in Atlantic surface waters, reflecting the success of the global effort to reduceanthropogenic Pb emissions. The observation of mineral dust derived Pb in surface waters isgoverned by the elevated atmospheric mineral dust concentration of the North African dustplume and the dominance of dry deposition for the atmospheric aerosol flux to surfacewaters. Given these specific regional conditions, emissions from anthropogenic activities willremain the dominant global marine Pb source, even in the absence of leaded petrolcombustion.

Published
2016

24. Identification of Shell Colour Pigments in Marine Snails Clanculus pharaonius and C. margaritarius (Trochoidea; Gastropoda)

Author

Vermeij, GJ, Williams, ST, Ito, S, Wakamatsu, K, Goral, T, Edwards, NP, Wogelius, RA, Henkel, T, de Oliveira, LFC, Maia, LF, Strekopytov, S, Jeffries, T, Speiser, DI, Marsden, JT, Vermeij, GJ, Williams, ST, Ito, S, Wakamatsu, K, Goral, T, Edwards, NP, Wogelius, RA, Henkel, T, de Oliveira, LFC, Maia, LF, Strekopytov, S, Jeffries, T, Speiser, DI, and Marsden, JT

Published
2016

27. Identification of Shell Colour Pigments in Marine Snails Clanculus pharaonius and C. margaritarius (Trochoidea; Gastropoda)

Author

Williams, S. T., primary, Ito, S., additional, Wakamatsu, K., additional, Goral, T., additional, Edwards, N. P., additional, Wogelius, R. A., additional, Henkel, T., additional, de Oliveira, L. F. C., additional, Maia, L. F., additional, Strekopytov, S., additional, Jeffries, T., additional, Speiser, D. I., additional, and Marsden, J. T., additional

Published
2016
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32. On the geochemistry of the ferriginous concretions of the Barents Sea

Author

Strekopytov, S. and Dubinin, A.

Abstract

The contents of Fe, Mn, Al, P, and the rare-earth elements (REE) in ferriginous concretions and enclosing sediments of the eastern part of the Barents Sea were studied. A direct Fe-P correlation in reactive components of the sediments and concretions was found. The concretions were shown to be formed through Fe(II) oxidation in the surface layer of the sediments and cementation of the sediment terrigenous fraction by Fe(III) oxyhydroxides. The latter accumulate phosphorus due to the processes of sorption-coprecipitation, by forming Fe(III) hydrophosphates. The REE composition in sediments and concretions normalized with respect to shale is characterized by an increased proportion of light REE, which may be caused by the regional features of the sources of supply. Due to the significant share of terrigenous matter in the Fe concretions (up to 65% for Nd), the REE composition of the bulk samples is similar to that of enclosing sediments. The negative cerium anomaly in the composition of reactive REE appears as the result of the effect of the REE sorbed from seawater. The ferriginous crust features REE bulk composition closer to that of seawater than the composition of ferriginous concretions from the sediments because of an essentially smaller content of the diluent terrigenous matter.

Published
2001

37. An ancient reservoir of volatiles in the Moon sampled by lunar meteorite Northwest Africa 10989

Author

Stephant, A., Anand, M., Ashcroft, H. O., Zhao, X., Hu, S., Korotev, R.L., Strekopytov, S., Greenwood, R.C., Humphreys-Williams, E., Liu, Y., Tang, G., Li, Q., Franchi, I.A., Stephant, A., Anand, M., Ashcroft, H. O., Zhao, X., Hu, S., Korotev, R.L., Strekopytov, S., Greenwood, R.C., Humphreys-Williams, E., Liu, Y., Tang, G., Li, Q., and Franchi, I.A.

Abstract

Northwest Africa (NWA) 10989 is a recently found lunar meteorite we used to elucidate the history of volatiles (H and Cl) in the Moon through analysis of its phosphates. The petrology, bulk geochemistry and mineralogy of NWA 10989 are consistent with it being a lunar meteorite with intermediate-iron bulk composition, composed of 40% of mare basaltic material and ~ 60% non-mare material, but with no obvious KREEP-rich basaltic components. It is probable that the source region for this meteorite resides near a mare–highlands boundary, possibly on the farside of the Moon. Analyses of chlorine and hydrogen abundances and isotopic composition in apatite and merrillite grains from NWA 10989 indicate sampling of at least two distinct reservoirs of volatiles, one being similar to those for known mare basalts from the Apollo collections, while the other potentially represents a yet unrecognized reservoir. In situ Th-U-Pb dating of phosphates reveal two distinct age clusters with one ranging from 3.98 ± 0.04 to 4.20 ± 0.02 Ga, similar to the ages of cryptomare material, and the other ranging from 3.32 ± 0.01 to 3.96 ± 0.03 Ga, closer to the ages of mare basalts known from the Apollo collections. This lunar breccia features mixing of material, among which a basaltic D-poor volatile reservoir which doesn’t appear to have been recorded by Apollo samples.

38. Terrestrial modification of the Ivuna meteorite and a reassessment of the chemical composition of the CI type specimen

Author

King, Ashley J., Phillips, K. J. H., Strekopytov, S., Vita-Finzi, C., Russell, Sara S., King, Ashley J., Phillips, K. J. H., Strekopytov, S., Vita-Finzi, C., and Russell, Sara S.

Abstract

The rare CI carbonaceous chondrites are the most aqueously altered and chemically primitive meteorites but due to their porous nature and high abundance of volatile elements are susceptible to terrestrial weathering. The Ivuna meteorite, type specimen for the CI chondrites, is the largest twentieth-century CI fall and probably the CI chondrite least affected by terrestrial alteration that is available for study. The main mass of Ivuna (BM2008 M1) has been stored in a nitrogen atmosphere at least since its arrival at the Natural History Museum (NHM), London, in 2008 (70 years after its fall) and could be considered the most pristine CI chondrite stone. We report the mineralogy, petrography and bulk elemental composition of BM2008 M1 and a second Ivuna stone (BM1996 M4) stored in air within wooden cabinets. We find that both Ivuna stones are breccias consisting of multiple rounded, phyllosilicate-rich clasts that formed through aqueous alteration followed by impact processing. A polished thin section of BM2008 M1 analysed immediately after preparation was found to contain sulphate-bearing veins that formed when primary sulphides reacted with oxygen and atmospheric water. A section of BM1996 M4 lacked veins but had sulphate grains on the surface that formed in ≤6 years, ∼3 times faster than previous reports for CI chondrite sections. Differences in the extent of terrestrial alteration recorded by BM2008 M1 and BM1996 M4 probably reflect variations in the post-recovery curation history of the stones prior to entering the NHM collection, and indicate that where possible pristine samples of hydrated carbonaceous should be kept out of the terrestrial environment in a stable atmosphere to avoid modification. The bulk elemental composition of the two Ivuna stones show some variability due to their heterogeneous nature but in general are similar to previous analyses of CI chondrites. We combine our elemental abundances with literature values to calculate a new average composi

39. The alteration history of the Jbilet Winselwan CM carbonaceous chondrite: An analog for C‐type asteroid sample return

Author

King, A. J., Russell, S. S., Schofield, P. F., Humphreys‐Williams, E. R., Strekopytov, S., Abernethy, F., Verchovsky, A. B., Grady, M., King, A. J., Russell, S. S., Schofield, P. F., Humphreys‐Williams, E. R., Strekopytov, S., Abernethy, F., Verchovsky, A. B., and Grady, M.

Abstract

Jbilet Winselwan is one of the largest CM carbonaceous chondrites available for study. Its light, major, and trace elemental compositions are within the range of other CM chondrites. Chondrules are surrounded by dusty rims and set within a matrix of phyllosilicates, oxides, and sulfides. Calcium‐ and aluminum‐rich inclusions (CAIs) are present at ≤1 vol% and at least one contains melilite. Jbilet Winselwan is a breccia containing diverse lithologies that experienced varying degrees of aqueous alteration. In most lithologies, the chondrules and CAIs are partially altered and the metal abundance is low (<1 vol%), consistent with petrologic subtypes 2.7–2.4 on the Rubin et al. (2007) scale. However, chondrules and CAIs in some lithologies are completely altered suggesting more extensive hydration to petrologic subtypes ≤2.3. Following hydration, some lithologies suffered thermal metamorphism at 400–500 °C. Bulk X‐ray diffraction shows that Jbilet Winselwan consists of a highly disordered and/or very fine‐grained phase (73 vol%), which we infer was originally phyllosilicates prior to dehydration during a thermal metamorphic event(s). Some aliquots of Jbilet Winselwan also show significant depletions in volatile elements such as He and Cd. The heating was probably short‐lived and caused by impacts. Jbilet Winselwan samples a mixture of hydrated and dehydrated materials from a primitive water‐rich asteroid. It may therefore be a good analog for the types of materials that will be encountered by the Hayabusa‐2 and OSIRIS‐REx asteroid sample‐return missions.

41. The alteration history of the Jbilet Winselwan CM carbonaceous chondrite: An analog for C‐type asteroid sample return

Author

King, A. J., Russell, S. S., Schofield, P. F., Humphreys‐Williams, E. R., Strekopytov, S., Abernethy, F., Verchovsky, A. B., Grady, M., King, A. J., Russell, S. S., Schofield, P. F., Humphreys‐Williams, E. R., Strekopytov, S., Abernethy, F., Verchovsky, A. B., and Grady, M.

Abstract

Jbilet Winselwan is one of the largest CM carbonaceous chondrites available for study. Its light, major, and trace elemental compositions are within the range of other CM chondrites. Chondrules are surrounded by dusty rims and set within a matrix of phyllosilicates, oxides, and sulfides. Calcium‐ and aluminum‐rich inclusions (CAIs) are present at ≤1 vol% and at least one contains melilite. Jbilet Winselwan is a breccia containing diverse lithologies that experienced varying degrees of aqueous alteration. In most lithologies, the chondrules and CAIs are partially altered and the metal abundance is low (<1 vol%), consistent with petrologic subtypes 2.7–2.4 on the Rubin et al. (2007) scale. However, chondrules and CAIs in some lithologies are completely altered suggesting more extensive hydration to petrologic subtypes ≤2.3. Following hydration, some lithologies suffered thermal metamorphism at 400–500 °C. Bulk X‐ray diffraction shows that Jbilet Winselwan consists of a highly disordered and/or very fine‐grained phase (73 vol%), which we infer was originally phyllosilicates prior to dehydration during a thermal metamorphic event(s). Some aliquots of Jbilet Winselwan also show significant depletions in volatile elements such as He and Cd. The heating was probably short‐lived and caused by impacts. Jbilet Winselwan samples a mixture of hydrated and dehydrated materials from a primitive water‐rich asteroid. It may therefore be a good analog for the types of materials that will be encountered by the Hayabusa‐2 and OSIRIS‐REx asteroid sample‐return missions.

43. An ancient reservoir of volatiles in the Moon sampled by lunar meteorite Northwest Africa 10989

Author

Stephant, A., Anand, M., Ashcroft, H. O., Zhao, X., Hu, S., Korotev, R.L., Strekopytov, S., Greenwood, R.C., Humphreys-Williams, E., Liu, Y., Tang, G., Li, Q., Franchi, I.A., Stephant, A., Anand, M., Ashcroft, H. O., Zhao, X., Hu, S., Korotev, R.L., Strekopytov, S., Greenwood, R.C., Humphreys-Williams, E., Liu, Y., Tang, G., Li, Q., and Franchi, I.A.

Abstract

Northwest Africa (NWA) 10989 is a recently found lunar meteorite we used to elucidate the history of volatiles (H and Cl) in the Moon through analysis of its phosphates. The petrology, bulk geochemistry and mineralogy of NWA 10989 are consistent with it being a lunar meteorite with intermediate-iron bulk composition, composed of 40% of mare basaltic material and ~ 60% non-mare material, but with no obvious KREEP-rich basaltic components. It is probable that the source region for this meteorite resides near a mare–highlands boundary, possibly on the farside of the Moon. Analyses of chlorine and hydrogen abundances and isotopic composition in apatite and merrillite grains from NWA 10989 indicate sampling of at least two distinct reservoirs of volatiles, one being similar to those for known mare basalts from the Apollo collections, while the other potentially represents a yet unrecognized reservoir. In situ Th-U-Pb dating of phosphates reveal two distinct age clusters with one ranging from 3.98 ± 0.04 to 4.20 ± 0.02 Ga, similar to the ages of cryptomare material, and the other ranging from 3.32 ± 0.01 to 3.96 ± 0.03 Ga, closer to the ages of mare basalts known from the Apollo collections. This lunar breccia features mixing of material, among which a basaltic D-poor volatile reservoir which doesn’t appear to have been recorded by Apollo samples.

44. Terrestrial modification of the Ivuna meteorite and a reassessment of the chemical composition of the CI type specimen

Author

King, Ashley J., Phillips, K. J. H., Strekopytov, S., Vita-Finzi, C., Russell, Sara S., King, Ashley J., Phillips, K. J. H., Strekopytov, S., Vita-Finzi, C., and Russell, Sara S.

Abstract

The rare CI carbonaceous chondrites are the most aqueously altered and chemically primitive meteorites but due to their porous nature and high abundance of volatile elements are susceptible to terrestrial weathering. The Ivuna meteorite, type specimen for the CI chondrites, is the largest twentieth-century CI fall and probably the CI chondrite least affected by terrestrial alteration that is available for study. The main mass of Ivuna (BM2008 M1) has been stored in a nitrogen atmosphere at least since its arrival at the Natural History Museum (NHM), London, in 2008 (70 years after its fall) and could be considered the most pristine CI chondrite stone. We report the mineralogy, petrography and bulk elemental composition of BM2008 M1 and a second Ivuna stone (BM1996 M4) stored in air within wooden cabinets. We find that both Ivuna stones are breccias consisting of multiple rounded, phyllosilicate-rich clasts that formed through aqueous alteration followed by impact processing. A polished thin section of BM2008 M1 analysed immediately after preparation was found to contain sulphate-bearing veins that formed when primary sulphides reacted with oxygen and atmospheric water. A section of BM1996 M4 lacked veins but had sulphate grains on the surface that formed in ≤6 years, ∼3 times faster than previous reports for CI chondrite sections. Differences in the extent of terrestrial alteration recorded by BM2008 M1 and BM1996 M4 probably reflect variations in the post-recovery curation history of the stones prior to entering the NHM collection, and indicate that where possible pristine samples of hydrated carbonaceous should be kept out of the terrestrial environment in a stable atmosphere to avoid modification. The bulk elemental composition of the two Ivuna stones show some variability due to their heterogeneous nature but in general are similar to previous analyses of CI chondrites. We combine our elemental abundances with literature values to calculate a new average composi

45. Accumulation of molybdenum in major organs following repeated oral administration of bis-choline tetrathiomolybdate in the Sprague Dawley rat.

Author

Foster JR, Billimoria K, Del Castillo Busto ME, Strekopytov S, Goenaga-Infante H, and Morley TJ

Subjects
Administration, Oral, Animals, Choline pharmacology, Copper toxicity, Humans, Liver, Rats, Rats, Sprague-Dawley, Molybdenum toxicity, Trace Elements
Abstract

Molybdenum is an essential dietary trace element required for several critical enzyme systems. High intake is associated with toxicity in ruminants and animal studies. The proposed therapeutic use of molybdenum-based drugs poses a potential risk for accumulation through chronic administration of therapeutic doses of this element. The current experiment was designed to study the effect of daily dosing of a molybdenum compound, bis-choline tetrathiomolybdate (TTM), in Sprague Dawley rats using laser ablation inductively coupled plasma time-of-flight mass spectrometry (LA-ICP-ToF-MS) and two dosing levels of TTM for up to 3 months. To investigate if molybdenum accumulation was associated with tissue toxicity, histopathology, haematology and clinical biochemistry markers of toxicity were incorporated into the study design. There were no behavioural signs of toxicity to the rats, and no clinical or anatomic pathology was associated with treatment. The current data did show a progressive accumulation of molybdenum within the adrenal gland, kidneys, liver, spleen, brain and testes. Although this was not associated with tissue toxicity within the 3-month study design, greater exposure over a longer period of time has the potential for producing adverse pathophysiological cellular function. Tissue toxicity, as a result of local excessive accumulation of molybdenum over time, has clear implications for the therapeutic use of molybdenum in humans and demands sensitive monitoring of tissue molybdenum levels to avoid toxicity. The current study highlights the shortcomings of conventional biomonitoring approaches to detect molybdenum accumulation with the goal of avoiding molybdenum-associated toxicity., (© 2022 John Wiley & Sons Ltd.)

Published
2022
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46. Polymorphism of CaCO 3 and the variability of elemental composition of the calcareous skeletons secreted by invertebrates along the salinity gradient of the Baltic Sea.

Author

Piwoni-Piórewicz A, Strekopytov S, Humphreys-Williams E, Najorka J, Szymczycha B, and Kukliński P

Subjects
Animals, Biomineralization, Calcium Carbonate, Invertebrates, Seawater chemistry, Skeleton, Ecosystem, Salinity
Abstract

Biomineralization is of great importance in ecosystem functioning and for the use of carbonate skeleton as environmental proxies. Skeletal formation is controlled to different degrees by environmental parameters and biological mechanisms. While salinity is one of the most important factors affecting ecological processes and ocean physiochemistry, the goal of this investigation was to identify how salinity influences the mineral type and the concentrations of chemical elements in the whole skeleton of invertebrates from the Baltic Sea. In this model system, the surface salinity decreases from marine values (27.2) to almost fresh water (6.1). The selected organisms, mussels (Mytilus spp.), bryozoans (Einhornia crustulenta, Cribrilina cryptooecium, Cryptosula pallasiana, Electra pilosa, Escharella immersa), barnacles (Amphibalanus improvisus, Semibalanus balanoides), and polychaetes (Spirorbis tridentatus), precipitated skeleton composed of calcite and aragonite, most likely as a result of various interacting environmental and biological factors. The concentrations of all elements in bulk skeleton were highly variable between species from the same location, underlining the role of the biological mechanisms in skeletal formation. The concentration of Ca, Mg, Sr, and Na increased in the bulk skeleton of stenohaline organisms with increasing salinity, while in the bulk skeleton of euryhaline species, only the concentration of Na increased with increasing salinity. The concentrations of Mn, Ba, Cu, Pb, Y, V, Cd, and U in the skeleton of euryhaline species generally decreased at higher salinities, most likely reflecting the lower bioavailability of elements at higher salinity. However, the concentrations of elements in the skeleton of stenohaline organisms were highly variable with no clear salinity impact. This study suggests that, although the composition of skeleton of calcifying organisms along the salinity gradient of the Baltic Sea is to a large extent affected by biological mechanisms, it also reflects the responses to environmental conditions., (© 2022 John Wiley & Sons Ltd.)

Published
2022
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47. Wood Nutrient-Water-Density Linkages Are Influenced by Both Species and Environment.

Author

Lira-Martins D, Quesada CA, Strekopytov S, Humphreys-Williams E, Herault B, and Lloyd J

Abstract

Tropical trees store a large amount of nutrients in their woody tissues, thus triggering the question of what the functional association of these elements with other wood traits is. Given the osmotic activity of mineral elements such as potassium, sodium, and calcium, these elements should be strong candidates in mediating the water storing capacity in tropical trees. We investigated the role of wood nutrients in facilitating wood water storage in trees by using branch samples from 48 tropical tree species in South America and examined their associations with wood density (ρ). Wood density varied from 316 kg/m 3 in Peru plots, where the soil nutrient status is relatively higher, to 908 kg/m 3 in Brazil plots, where the nutrient availability is lower. Phosphorus content in wood varied significantly between plots with lowest values found in French Guiana (1.2 mol/m 3 ) and plots with highest values found in Peru (43.6 mol/m 3 ). Conversely, potassium in woody tissues showed a significant cross-species variation with Minquartia guianensis in Brazil showing the lowest values (8.8 mol/m 3 ) and with Neea divaricata in Peru having the highest values (114 mol/m 3 ). We found that lower wood density trees store more water in their woody tissues with cations, especially potassium, having a positive association with water storage. Specific relationships between wood cation concentrations and stem water storage potential nevertheless depend on both species' identity and growing location. Tropical trees with increased water storage capacity show lower wood density and have an increased reliance on cations to regulate this reservoir. Our study highlights that cations play a more important role in tropical tree water relations than has previously been thought, with potassium being particularly important., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Lira-Martins, Quesada, Strekopytov, Humphreys-Williams, Herault and Lloyd.)

Published
2022
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48. Cadmium isotope fractionation reveals genetic variation in Cd uptake and translocation by Theobroma cacao and role of natural resistance-associated macrophage protein 5 and heavy metal ATPase-family transporters.

Author

Moore RET, Ullah I, de Oliveira VH, Hammond SJ, Strekopytov S, Tibbett M, Dunwell JM, and Rehkämper M

Abstract

In response to new European Union regulations, studies are underway to mitigate accumulation of toxic cadmium (Cd) in cacao ( Theobroma cacao , Tc). This study advances such research with Cd isotope analyses of 19 genetically diverse cacao clones and yeast transformed to express cacao natural resistance-associated macrophage protein (NRAMP5) and heavy metal ATPases (HMAs). The plants were enriched in light Cd isotopes relative to the hydroponic solution with Δ 114/110 Cd tot-sol  = -0.22 ± 0.08‰. Leaves show a systematic enrichment of isotopically heavy Cd relative to total plants, in accord with closed-system isotope fractionation of Δ 114/110 Cd seq-mob  = -0.13‰, by sequestering isotopically light Cd in roots/stems and mobilisation of remaining Cd to leaves. The findings demonstrate that (i) transfer of Cd between roots and leaves is primarily unidirectional; (ii) different clones utilise similar pathways for Cd sequestration, which differ from those of other studied plants; (iii) clones differ in their efficiency of Cd sequestration. Transgenic yeast that expresses TcNRAMP5 ( T. cacao natural resistance-associated macrophage gene) had isotopically lighter Cd than did cacao. This suggests that NRAMP5 transporters constitute an important pathway for uptake of Cd by cacao. Cd isotope signatures of transgenic yeast expressing HMA-family proteins suggest that they may contribute to Cd sequestration. The data are the first to record isotope fractionation induced by transporter proteins in vivo., Competing Interests: Conflict of interestThe authors declare that they have no conflict of interest., (© The Author(s) 2020.)

Published
2020
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49. Tropical Tree Branch-Leaf Nutrient Scaling Relationships Vary With Sampling Location.

Author

Lira-Martins D, Humphreys-Williams E, Strekopytov S, Ishida FY, Quesada CA, and Lloyd J

Abstract

Bivariate relationships between plant tissue nutrient concentration have largely been studied across broad environmental scales regardless of their covariation with soil and climate. Comparing leaf and branch wood concentrations of C, Ca, K, Mg, N, Na, and P for trees growing in tropical forests in Amazonia and Australia we found that the concentrations of most elements varied with sampling location, but with foliar and branch woody tissues varying from site to site in different ways. Using a Mixed Effect Model (MEM) approach it was further found that relationships between branch and leaf concentrations within individual plots differed in terms of both slope and/or significance to the ordinary least squares (OLS) estimates for most elements. Specifically, using MEM we found that within plots only K and Mg were correlated across organs, but with the K cross-organ intercept estimates varying significantly between sites. MEM analyses further showed that within-plot wood density variations were also negatively related to wood K and Na, suggesting a potentially important role for these cations in water transport and/or storage in woody tissues. The OLS method could not detect significant correlations in any of the above cases. By contrast, although Ca, N, and P leaf and wood tissue concentrations showed similar patterns when individual elements were compared across sites, MEM analyses suggested no consistent association within sites. Thus, for all these three elements, strong within-tree scaling relationships were inferred when data were analyzed across sites using OLS, even though there was no relationship within individual sites. Thus (as for Ca, N, and P) not only can a pooling of data across sites result in trait (co)variations attributable to the environment potentially being incorrectly attributed solely to the species and/or individual (the so-called "ecological fallacy"), but in some cases (as was found here for K and Na) the opposite can also sometimes occur with significant within-site covariations being obscured by large site-site variations. We refer to the latter phenomenon as "environmental obfuscation."

Published
2019
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50. Determination of major and trace element variability in healthy human urine by ICP-QMS and specific gravity normalisation.

Author

E T Moore R, Rehkämper M, Kreissig K, Strekopytov S, and Larner F

Abstract

Sixty five urine samples obtained during one or two non-consecutive days from 10 healthy individuals were analysed for major (Na, Mg, K, Ca) and trace (Co, Cu, Zn, As, Rb, Sr, Mo and Pb) element concentrations. Following microwave digestion, the analyses were carried out using ICP-QMS (inductively coupled plasma quadrupole mass spectrometry) incorporating a collision/reaction cell. Repeat analyses of quality control samples show that the procedure produces unbiased results and is well suited for routine urinalysis of the investigated elements. Concentrations were normalised using specific gravity (SG) and the resultant decrease in variability supports previous conclusions that SG-normalisation appropriately corrects for differences in urine dilution. The elemental concentrations of the individual urine samples show large differences in dispersion. Most variable are As, Co and Zn, with CVs (coefficients of variation) of >75%. The major elements as well as Rb, Sr and Mo display intermediate variability, whilst Cu and Pb have the least elemental dispersion with CV values of about 30%. A detailed assessment shows that the overall elemental variability is governed both by differences between individuals and variations for a single individual over time. Spot urine samples exhibit elemental concentrations that, on average, resemble the daily mean values to within about 30% for all elements except K and Rb. Diet-related changes in urinary element concentration are most prominent for Mg, K, Co, Rb and Pb. The concentrations of Co, As and Rb appear to vary systematically with gender but this may primarily reflect co-variance with specific diets., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2018
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