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Artículos de revistas sobre el tema "Minor elements"

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Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 31 de enero de 2023

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1

Scardia, M., D. Ghiringhelli y H. Debehogne. "Orbital elements of Minor Planets". Astronomische Nachrichten: A Journal on all Fields of Astronomy 317, n.º 1 (1996): 43–48. http://dx.doi.org/10.1002/asna.2113170113.

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2

YOKOKAWA, Chikao, Masumi FURUSHO y Hirokazu ODA. "Analyses of Minor Elements in Coals." Journal of the Fuel Society of Japan 70, n.º 8 (1991): 833–37. http://dx.doi.org/10.3775/jie.70.8_833.

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3

Scardia, M., D. Ghiringhelli y H. Debehogne. "Preliminary orbital elements of minor Planets". Astronomische Nachrichten 316, n.º 2 (1995): 125–29. http://dx.doi.org/10.1002/asna.2103160210.

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4

Scardia, M., D. Ghiringhelli y H. Debehogne. "Revised orbital elements of minor planets". Astronomische Nachrichten: A Journal on all Fields of Astronomy 314, n.º 4 (1993): 307–13. http://dx.doi.org/10.1002/asna.2113140411.

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5

Sobolev, Nikolai V., Alla M. Logvinova, Dmitry A. Zedgenizov, Nikolai P. Pokhilenko, Dmitry V. Kuzmin y Alexander Sobolev. "Olivine inclusions in Siberian diamonds: high-precision approach to minor elements". European Journal of Mineralogy 20, n.º 3 (29 de mayo de 2008): 305–15. http://dx.doi.org/10.1127/0935-1221/2008/0020-1829.

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6

Sablii, L. M. "USING OF Lemna minor FOR POLLUTED WATER TREATMENT FROM BIOGENIC ELEMENTS". Biotechnologia acta 12, n.º 5 (octubre de 2019): 82–88. http://dx.doi.org/10.15407/biotech12.05.082.

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7

YAMAGUCHI, Katsunori, Mitsuru TANAHASHI, Fumitaka TSUKIHASHI, Hidenori NAGASAKI, Yasumasa HATTORI y Toshio OISHI. "Removal of Minor Elements in Copper Smelting". Shigen-to-Sozai 119, n.º 10,11 (2003): 683–86. http://dx.doi.org/10.2473/shigentosozai.119.683.

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8

Fukunishi, H., K. Murata, S. Takeuchi y S. Kitazawa. "Ovarian fibromatosis with minor sex cord elements". Archives of Gynecology and Obstetrics 258, n.º 4 (15 de julio de 1996): 207–11. http://dx.doi.org/10.1007/s004040050125.

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9

Ibrahim, Kocher Jamal Ibrahim, Shaimaa Ahmed Qaisar Qaisar y Jasim Mohammed Salah Al-Saadi Al-Saadi. "Determination of toxic, trace and minor elements content in local Kurdish yoghurt samples". Journal of Zankoy Sulaimani - Part A 2ndInt.Conf.AGR, Special Issue (6 de febrero de 2018): 301–6. http://dx.doi.org/10.17656/jzs.10676.

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10

Whitlow, Harry J., Liping Wang, Edouard Guibert y Christian Degrigny. "Investigations of minor elements in early aluminium artefacts". Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 450 (julio de 2019): 291–93. http://dx.doi.org/10.1016/j.nimb.2018.08.019.

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11

Congyun, Huang, Zhang Mingfei, Zhang Meixiang, Long Shizong, Chen Yuankui y Ma Baoguo. "Effect of minor elements on silicate cement clinker". Journal of Wuhan University of Technology-Mater. Sci. Ed. 20, n.º 3 (septiembre de 2005): 116–18. http://dx.doi.org/10.1007/bf02835044.

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12

Crapo, Henry y William Schmitt. "Primitive elements in the matroid-minor Hopf algebra". Journal of Algebraic Combinatorics 28, n.º 1 (24 de mayo de 2007): 43–64. http://dx.doi.org/10.1007/s10801-007-0066-3.

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13

Ali Mustafa, Ahmed. "Major, Minor and Trace Elements Linum Usitatissimum in Libya". American Journal of Biomedical Science & Research 6, n.º 3 (22 de noviembre de 2019): 221–25. http://dx.doi.org/10.34297/ajbsr.2019.06.001033.

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14

Meléndez, Angel M., Alejandra Hernández-Gómez, Carlos Lara y Ignacio González. "Electrochemical Determination of Minor Elements in Zinc Flotation Concentrates". ECS Transactions 28, n.º 6 (17 de diciembre de 2019): 259–65. http://dx.doi.org/10.1149/1.3367919.

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15

Iglikowska, A., E. Humphreys-Williams, J. Przytarska, M. Chełchowski y P. Kukliński. "Minor and trace elements in skeletons of Arctic echinoderms". Marine Pollution Bulletin 158 (septiembre de 2020): 111377. http://dx.doi.org/10.1016/j.marpolbul.2020.111377.

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16

BYRNE, PAUL, EMMANUEL J. VELLA, TERENCE ROLLASON y JOHN FRAMPTON. "Ovarian fibromatosis with minor sex cord elements. Case report". BJOG: An International Journal of Obstetrics and Gynaecology 96, n.º 2 (febrero de 1989): 245–48. http://dx.doi.org/10.1111/j.1471-0528.1989.tb01671.x.

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17

Hamid, Ashraf, M. Abd El-Samad, N. F. Soliman y H. A. Hanafi. "Detection of minor and trace elements in powdered milk". Journal of Taibah University for Science 11, n.º 1 (enero de 2017): 186–95. http://dx.doi.org/10.1016/j.jtusci.2016.01.005.

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18

Mahalingam, T. R., S. Vijayalakshmi, R. Krishna Prabhu, A. Thiruvengadasami, C. K. Mathews y K. Radha Shanmugasundaram. "Studies on some trace and minor elements in blood". Biological Trace Element Research 57, n.º 3 (junio de 1997): 191–206. http://dx.doi.org/10.1007/bf02785289.

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19

Mahalingam, T. R., S. Vijayalashmi, R. Krishna Prabhu, A. Thiruvengadasami, K. S. R. Murthy, Deepak Sen, C. K. Mathews y K. Radha Shanmugasundaram. "Studies on some trace and minor elements in blood". Biological Trace Element Research 57, n.º 3 (junio de 1997): 207–21. http://dx.doi.org/10.1007/bf02785290.

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20

Mahalingam, T. R., S. Vijayalakshmi, R. Krishna Prabhu, A. Thiruvengadasami, Ann Wilber, C. K. Mathews y K. Radha Shanmugasundaram. "Studies on some trace and minor elements in blood". Biological Trace Element Research 57, n.º 3 (junio de 1997): 223–38. http://dx.doi.org/10.1007/bf02785291.

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21

Lynch, D. C., S. Akagi y W. G. Davenport. "Thermochemical nature of minor elements in copper smelting mattes". Metallurgical Transactions B 22, n.º 5 (octubre de 1991): 677–88. http://dx.doi.org/10.1007/bf02679024.

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22

Ren, Deyi, Fenghua Zhao, Yunquan Wang y Shaojin Yang. "Distributions of minor and trace elements in Chinese coals". International Journal of Coal Geology 40, n.º 2-3 (junio de 1999): 109–18. http://dx.doi.org/10.1016/s0166-5162(98)00063-9.

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23

Baturin, G. N. y E. M. Emel’yanov. "Minor elements in carbonaceous sediments of the Baltic Sea". Oceanology 52, n.º 4 (julio de 2012): 505–12. http://dx.doi.org/10.1134/s0001437012040017.

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24

Facetti-Masulli, J. F., P. Kump y J. J. Bossio. "Selected trace and minor elements in Asunción soft rocks". Czechoslovak Journal of Physics 56, S4 (diciembre de 2006): D257—D264. http://dx.doi.org/10.1007/s10582-006-0512-9.

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25

Facetti-Masulli, J. F., P. Kump y J. J. Bossio. "Selected trace and minor elements in Asunción soft rocks". Czechoslovak Journal of Physics 56, n.º 1 (enero de 2006): D257—D264. http://dx.doi.org/10.1007/s10582-006-1025-2.

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26

Iskander, F. Y. "Trace and minor elements in four commercial honey brands". Journal of Radioanalytical and Nuclear Chemistry Letters 201, n.º 5 (noviembre de 1995): 401–8. http://dx.doi.org/10.1007/bf02164216.

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27

Faltejsková, Kateřina, David Jakubec y Jiří Vondrášek. "Hydrophobic Amino Acids as Universal Elements of Protein-Induced DNA Structure Deformation". International Journal of Molecular Sciences 21, n.º 11 (2 de junio de 2020): 3986. http://dx.doi.org/10.3390/ijms21113986.

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Interaction with the DNA minor groove is a significant contributor to specific sequence recognition in selected families of DNA-binding proteins. Based on a statistical analysis of 3D structures of protein–DNA complexes, we propose that distortion of the DNA minor groove resulting from interactions with hydrophobic amino acid residues is a universal element of protein–DNA recognition. We provide evidence to support this by associating each DNA minor groove-binding amino acid residue with the local dimensions of the DNA double helix using a novel algorithm. The widened DNA minor grooves are associated with high GC content. However, some AT-rich sequences contacted by hydrophobic amino acids (e.g., phenylalanine) display extreme values of minor groove width as well. For a number of hydrophobic amino acids, distinct secondary structure preferences could be identified for residues interacting with the widened DNA minor groove. These results hold even after discarding the most populous families of minor groove-binding proteins.
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28

Ceylan, Burcu. "EPISKOPEIA IN ASIA MINOR". Late Antique Archaeology 3, n.º 2 (2006): 169–94. http://dx.doi.org/10.1163/22134522-90000064.

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Although there are several complexes in Asia Minor which have been proposed as bishops’ residences, only Side, Miletus and Ephesus can be identified with certainty as episkopeia. This paper mainly focuses on these three examples, evaluating architectural elements in order to classify rooms and assess their usage. It will shed light on the physical surroundings of the late antique bishop and provide clues about his life. At the same time, the study will try to define the place of episkopeia in the architecture of the period and their physical position within the late antique city
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29

Miller, Robert N. y Peter H. Given. "The association of major, minor and trace inorganic elements with lignites. II. Minerals, and major and minor element profiles, in four seams". Geochimica et Cosmochimica Acta 51, n.º 5 (mayo de 1987): 1311–22. http://dx.doi.org/10.1016/0016-7037(87)90221-3.

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30

NISHIMURA, NAOMI, PRABHAKAR RAGDE y DIMITRIOS M. THILIKOS. "FINDING SMALLEST SUPERTREES UNDER MINOR CONTAINMENT". International Journal of Foundations of Computer Science 11, n.º 03 (septiembre de 2000): 445–65. http://dx.doi.org/10.1142/s0129054100000259.

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The diversity of application areas relying on tree-structured data results in wide interest in algorithms which determine differences or similarities among trees. One way of measuring the similarity between trees is to find the smallest common superstructure or supertree, where common elements are typically defined in terms of a mapping or embedding. In the simplest case, a supertree will contain exact copies of each input tree, so that for each input tree, each vertex of a tree can be mapped to a vertex in the supertree such that each edge maps to the corresponding edge. More general mappings allow for the extraction of more subtle common elements captured by looser definitions of similarity. We consider supertrees under the general mapping of minor containment. Minor containment generalizes both subgraph isomorphism and topological embedding; as a consequence of this generality, however, it is NP-complete to determine whether or not G is a minor of H, even for genreal trees. By focusing on trees of bounded degree, we obtain an O(n3) algorithm which determines the smallest tree T such that both of the input trees are minors of T, even when the trees are assumed to be unrooted and unordered.
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31

Caballero, E. y C. Jiménez de Cisneros. "Partitioning of minor, trace elements and rare earth elements in bentonite affecting by thermal alteration". Applied Clay Science 147 (octubre de 2017): 143–52. http://dx.doi.org/10.1016/j.clay.2017.07.028.

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32

Mahendran, Revathy y Madurai Padmanaban Kanchana. "Ovarian fibrothecoma with minor sex cord elements: a case report". International Journal of Research in Medical Sciences 8, n.º 4 (26 de marzo de 2020): 1551. http://dx.doi.org/10.18203/2320-6012.ijrms20201358.

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Ovarian fibroma is the most common sex cord stromal tumour of ovary accounting to 1-5% of all ovarian tumours. Minor sex cord elements in ovarian fibroma are a rare entity occupying less than 10% of tumour area. To the best of our knowledge only 20 cases has been reported till date. This case is presented because of its rarity. Authors reported a case of fibrothecoma with minor sex cord elements in a 70yr old postmenopausal women who presented with postmenopausal bleeding with abdominal mass.
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33

Gromova, Gromova O. A., Torshin I. Yu Torshin y Tetruashvili N. K. Tetruashvili. "Vitamins and trace elements in the prevention of minor malformations". Akusherstvo i ginekologiia 8_2017 (27 de agosto de 2017): 10–20. http://dx.doi.org/10.18565/aig.2017.8.10-20.

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34

Richards, N. L. y M. C. Chaturvedi. "Effect of minor elements on weldability of nickel base superalloys". International Materials Reviews 45, n.º 3 (marzo de 2000): 109–29. http://dx.doi.org/10.1179/095066000101528331.

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35

Soukupova, I., M. Beklova, O. Zitka, P. Majzlik, J. Sochor, V. Adam, J. Zehnalek y R. Kizek. "An influence of platinum group elements on duckweed (Lemna minor)". Toxicology Letters 205 (agosto de 2011): S77. http://dx.doi.org/10.1016/j.toxlet.2011.05.289.

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36

Su, Bin, Yi Chen, Qian Mao, Di Zhang, Li-Hui Jia y Shun Guo. "Minor elements in olivine inspect the petrogenesis of orogenic peridotites". Lithos 344-345 (noviembre de 2019): 207–16. http://dx.doi.org/10.1016/j.lithos.2019.06.029.

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37

Lindstrom, Abigail P. y Nicholas WM Ritchie. "Detecting Difficult Minor Elements in Particle Samples by SEM-EDS". Microscopy and Microanalysis 20, S3 (agosto de 2014): 748–49. http://dx.doi.org/10.1017/s1431927614005467.

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38

Egoshi, Shinnosuke, Kazuhisa Azumi, Hidetaka Konno, Ken Ebihara y Yoshihiro Taguchi. "Effects of minor elements in Al alloy on zincate pretreatment". Applied Surface Science 261 (noviembre de 2012): 567–73. http://dx.doi.org/10.1016/j.apsusc.2012.08.057.

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39

Favretto, L., D. Vojnovic y B. Campisi. "Chemometric studies on minor and trace elements in cow's milk". Analytica Chimica Acta 293, n.º 3 (julio de 1994): 295–300. http://dx.doi.org/10.1016/0003-2670(94)85034-8.

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40

Hioki, Akiharu, Masayasu Kurahashi, Gregory Turk, Ralf Matschat y Sebastian Recknagel. "CCQM-K33 Final Report: Determination of minor elements in steel". Metrologia 43, n.º 1A (enero de 2006): 08007. http://dx.doi.org/10.1088/0026-1394/43/1a/08007.

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41

Klaos, E. "Direct flame atomic-absorption determination of minor elements in argillites". Talanta 34, n.º 8 (agosto de 1987): 715–21. http://dx.doi.org/10.1016/0039-9140(87)80226-6.

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42

Free, Michael. "Minor elements recovery and impurity control in industrial metal processing". JOM 63, n.º 8 (agosto de 2011): 89. http://dx.doi.org/10.1007/s11837-011-0145-8.

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43

Cook, Nigel J., Cristiana L. Ciobanu, Allan Pring, William Skinner, Masaaki Shimizu, Leonid Danyushevsky, Bernhardt Saini-Eidukat y Frank Melcher. "Trace and minor elements in sphalerite: A LA-ICPMS study". Geochimica et Cosmochimica Acta 73, n.º 16 (agosto de 2009): 4761–91. http://dx.doi.org/10.1016/j.gca.2009.05.045.

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44

Lockington, Julian A., Nigel J. Cook y Cristiana L. Ciobanu. "Trace and minor elements in sphalerite from metamorphosed sulphide deposits". Mineralogy and Petrology 108, n.º 6 (12 de agosto de 2014): 873–90. http://dx.doi.org/10.1007/s00710-014-0346-2.

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45

Pringle, T. G. y R. E. Jervis. "The redistribution of trace and minor elements during coal liquefaction". Canadian Journal of Chemical Engineering 65, n.º 3 (junio de 1987): 494–99. http://dx.doi.org/10.1002/cjce.5450650320.

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46

Yuan, Peng, Dong Liu, Junming Zhou, Qian Tian, Yaran Song, Huihuang Wei, Shun Wang, Jieyu Zhou, Liangliang Deng y Peixin Du. "Identification of the occurrence of minor elements in the structure of diatomaceous opal using FIB and TEM-EDS". American Mineralogist 104, n.º 9 (1 de septiembre de 2019): 1323–35. http://dx.doi.org/10.2138/am-2019-6917.

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Abstract The occurrence of minor elements in the structure of biogenic diatomaceous opal-A is an important issue because it is closely related to biogeochemical processes driven by the precipitation, sedimentation, and storage of diatoms, as well as to the properties and applications of diatomite, which is the sedimentary rock composed of diatomaceous opal-A. However, to date, there is no direct microscopic evidence for the existence of minor elements, such as Al, Fe, and Mg, in the structure of diatomaceous opal-A, because such evidence requires observation of the internal structure of frustules to exclude the disturbance of impurity minerals, which is technically challenging using conventional techniques. In this work, transmission electron microscopy (TEM) and scanning electron microscopy (SEM) combined with energy-dispersive X-ray spectroscopy (EDS) mapping analysis were performed on diatomaceous opal-A from three typical diatomite specimens that were pretreated using focused ion beam (FIB) thinning. This technique produces a slice of a diatom frustule for direct TEM observation of the internal structure of the diatomaceous opal-A. The results of this work clearly indicate that minor elements, such as Al, Fe, Ca, and Mg, conclusively exist within the siliceous framework of diatomaceous opal-A. The contents of these minor elements are at atomic ratio levels of 1 (minor element)/10 000 (Si) – 1/100, regardless of the genus of the diatoms. The occurrence of minor elements in the internal structure is likely through biological uptake during biosynthesis by living diatoms. Moreover, surface coatings composed of aluminosilicates on diatom frustules are common, and the contents of elements such as Al and Fe are tens or hundreds of times higher in the coatings than in the internal siliceous structure of diatomaceous opal-A. The discovery of the incorporation of the above-mentioned minor elements in the diatomaceous opal-A structure, both in the internal Si-O framework and on the surface, updates the knowledge about the properties of diatomite.
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47

Engel, Dulcie M. "A minor issue?" Lingvisticæ Investigationes. International Journal of Linguistics and Language Resources 32, n.º 1 (25 de junio de 2009): 33–54. http://dx.doi.org/10.1075/li.32.1.02eng.

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‘Minor sentences’ is one of the many terms used in the literature to refer to a phenomenon usually relegated to an obscure paragraph of the grammar book, or treated principally as a spoken discourse feature. These forms are also referred to as sentence fragments, incomplete sentences, verbless sentences, and nominal sentences, to name but a few of the terms found. Despite the marginal status attributed to the forms, more detailed study is warranted. Minor sentences occur frequently in the written language, and perform important communicative functions in a range of contexts. The term is used to refer to apparently complete phrases which do not conform to canonical sentence structure. Typically, they lack a subject noun phrase, or a finite verb, i.e. one of the two ‘essential’ elements of the sentence. In this paper, we begin with an overview of English and French grammar book and discourse analysis approaches. We then discuss previous studies of minor sentence contexts, French recipes and newspaper headlines, before turning to a corpus consisting of public signs and notices, headlines, advertising slogans, and crossword clues, in an effort to determine whether certain minor sentence types can be associated with particular (written) discourse functions.
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48

George, Luke, Nigel Cook y Cristiana Ciobanu. "Minor and Trace Elements in Natural Tetrahedrite-Tennantite: Effects on Element Partitioning among Base Metal Sulphides". Minerals 7, n.º 2 (29 de enero de 2017): 17. http://dx.doi.org/10.3390/min7020017.

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49

Tischendorf, G., H. J. Förster y B. Gottesmann. "Minor- and trace-element composition of trioctahedral micas: a review". Mineralogical Magazine 65, n.º 2 (abril de 2001): 249–76. http://dx.doi.org/10.1180/002646101550244.

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AbstractMore than 19,000 analytical data mainly from the literature were used to study statistically the distribution patterns of F and the oxides of minor and trace elements (Ti, Sn, Sc, V, Cr, Ga, Mn, Co, Ni, Zn, Sr, Ba, Rb, Cs) in trioctahedral micas of the system phlogopite-annite/siderophyllite-polylithionite (PASP), which is divided here into seven varieties, whose compositional ranges are defined by the parametermgli(= octahedral Mg minus Li). Plots of trace-element contentsvs.mglireveal that the elements form distinct groups according to the configuration of their distribution patterns. Substitution of most of these elements was established as a function ofmgli. Micas incorporate the elements in different abundances of up to four orders of magnitude between the concentration highs and lows in micas of ‘normal’ composition. Only Zn, Sr and Sc are poorly correlated tomgli. In compositional extremes, some elements (Zn, Mn, Ba, Sr, Cs, Rb) may be enriched by up to 2–3 orders of magnitude relative to their mean abundance in the respective mica variety. Mica/melt partition coefficients calculated for Variscan granites of the German Erzgebirge demonstrate that trace-element partitioning is strongly dependent on the position of the mica in the PASP system, which has to be considered in petrogenetic modelling.This review indicates that for a number of trace elements, the concentration ranges are poorly known for some of the mica varieties, as they are for particular host rocks (i.e. igneous rocks of A-type affiliation). The study should help to develop optimal analytical strategies and to provide a tool to distinguish between micas of ‘normal’ and ‘abnormal’ trace-element composition.
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50

Wu, Shitou, Yadong Wu, Yueheng Yang, Hao Wang, Chao Huang, Liewen Xie y Jinhui Yang. "Simultaneous Quantification of Forsterite Content and Minor–Trace Elements in Olivine by LA–ICP–MS and Geological Applications in Emeishan Large Igneous Province". Minerals 10, n.º 7 (17 de julio de 2020): 634. http://dx.doi.org/10.3390/min10070634.

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Olivine forsterite contents [Fo = 100 × Mg/(Mg + Fe) in mol%] and minor–trace element concentrations can aid our understanding of the Earth’s mantle. Traditionally, these data are obtained by electron probe microanalysis for Fo contents and minor elements, and then by laser ablation–inductively coupled plasma–mass spectrometry (LA–ICP–MS) for trace elements. In this study, we demonstrate that LA–ICP–MS, with a simplified 100% quantification approach, allows the calculation of Fo contents simultaneously with minor–trace elements. The approach proceeds as follows: (1) calculation of Fo contents from measured Fe/Mg ratios; (2) according to the olivine stoichiometric formula [(Mg, Fe)2SiO4] and known Fo contents, contents of Mg, Fe and Si can be computed, which are used as internal standards for minor–trace element quantification. The Fo content of the MongOLSh 11-2 olivine reference material is 89.55 ± 0.15 (2 s; N = 120), which agrees with the recommended values of 89.53 ± 0.05 (2 s). For minor–trace elements, the results matched well with the recommended values, apart from P and Zn data. This technique was applied to olivine phenocrysts in the Lijiang picrites from the Emeishan large igneous province. The olivine compositions suggest that the Lijiang picrites have a peridotitic mantle source.
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