Abstract
The Earth’s composition and evolution are topics that give rise to unanswered questions. However, some of the main evidences involving geology, geophysics and climatic equilibrium of our planet seem to imply a possible common explanation. Recently, several data, coming from geochemistry and geomechanics, have emphasized how tectonic activity should have been strictly connected to the most important changes in the Earth’s Crust chemical composition over the last 4.5 Billion years. At the same time, significant measurements of neutron emissions are observed at the Earth’s Crust scale during and before earthquakes. On the other hand, at the laboratory scale, original experiments performed on non-radioactive rocks under mechanical compression loading, have recently shown repeatable neutron emissions in correspondence to micro- and macro-fracture. After these experiments, a considerable reduction in the iron content appears to be consistently counterbalanced by an increase in Al, Si, and Mg contents. On these bases, the hypothesis of a new kind of nuclear reactions finds confirmations and could be considered as a valid explanation for the geologic evolution of the Earth’s Crust, Ocean, and Atmosphere.
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Kolb E (2000) Blind watchers of the sky: the people and ideas that shaped our view of the universe. Oxford University Press, Oxford
Favero G, Jobstraibizer P (1996) The distribution of aluminum in the Earth: from cosmogenesis to Sial evolution. Coord Chem Rev 149:367–400
Taylor SR, McLennan SM (2009) Planetary Crusts: their composition, origin and evolution. Cambridge University Press, Cambridge
Hawkesworth CJ, Kemp AIS (2006) Evolution of the continental crust. Nature 443:811–817
Canfiled DE (1998) A new model for Proterozoic ocean chemistry. Nature 396:450–453
Anbar AD (2008) Elements and evolution. Science 322:1481–1482
Doglioni C (2007) Interno della Terra, Treccani, Enciclopedia Scienza e Tecnica, 595–605
Holland HD (2006) The oxygenation of the atmosphere and oceans. Philos Trans R Soc Lond Ser B 361:903–915
Kump LR, Barley ME (2007) Increased subaerial volcanism and the rise of atmospheric oxygen 2.5 Billion years ago. Nature 448:1033–1036
Buesseler KO et al (2008) Ocean iron fertilization moving forward in a sea of uncertainty. Science 319:162
Saito MA (2009) Less nickel for more oxygen. Nature 458:714–715
Konhauser KO et al (2009) Oceanic nickel depletion and a methanogen famine before the Great Oxidation Event. Nature 458:750–754
Rudnick RL, Fountain DM (1995) Nature and composition of the continental crust: a lower crustal perspective. Rev Geophys 33(3):267–309
Yaroshevsky AA (2006) Abundances of chemical elements in the Earth’s crust. Geochem Int 44(1):54–62
Kuzhevskij BM, Yu. Nechaev O, Sigaeva EA, Zakharov VA (2003) Neutron flux variations near the Earth’s Crust. A possible tectonic activity detection. Nat Hazards Earth Syst Sci 3:637–645
Kuzhevskij BM, Nechaev OY, Sigaeva EA (2003) Distribution of neutrons near the Earth’s surface. Nat Hazards Earth Syst Sci 3:255–262
Antonova VP, Volodichev NN, Kryukov SV, Chubenko AP, Shchepetov AL (2009) Results of detecting thermal neutrons at Tien Shan High Altitude Station. Geomagn Aeron 49:761–767
Volodichev NN, Kuzhevskij BM, Nechaev OY, Panasyuk MI, Podorolsky AN, Shavrin PI (2000) Sun-Moon-Earth connections: the neutron intensity splashes and seismic activity. Astron Vestn 34(2):188–190
Sigaeva E et al (2006) Thermal neutrons’observations before the Sumatra earthquake. Geophys Res Abstr 8:00435
Padron E et al (2008) Changes in the diffuse CO2 emission and relation to seismic activity in and around El Hierro, Canary Islands. Pure Appl Geophys 165:95–114
Kelemen PB (2009) The origin of the land under the sea. Sci Am 300(2):42–47
Hazen RM et al (2008) Mineral evolution. Am Mineral 93:1693–1720
Lunine EJI (1998) Earth: evolution of a habitable world. Cambridge University Press, Cambridge/New York/Melbourne
Roy I, Sarkar BC, Chattopadhyay A (2001) MINFO-a prototype mineral information database for iron ore resources of India. Comput Geosci 27:357–361
World Mineral Resources Map. Available at http://www.mapsofworld.com/world-mineral-map.htm. Last accessed Oct 2009
Key Iron Deposits of the World. Available at http://www.portergeo.com.au/tours/iron2002/-iron2002depm2b.asp. Last accessed Oct 2009
Sigman D, Jaccard S, Haug F (2004) Polar ocean stratification in a cold climate. Nature 428:59–63
Egami F (1975) Minor elements and evolution. J Mol Evol 4(2):113–120
National Academy of Sciences (1975) Medical and biological effects of environmental pollutants: nickel. Proc. Natl Acad Sci, Washington, DC
Foing B (2005) Earth’s childhood attic. Astrobiol Mag. http://link.springer.com/article/10.1007%2FBF01732017#
Carpinteri A, Lacidogna G, Manuello A, Borla O (2010) Piezonuclear transmutations in brittle rocks under mechanical loading: microchemical analysis and geological confirmations. In: Kounadis AN, Gdoutos EE (eds) Recent advances in mechanics. Springer, Chennai, pp 361–382
CarpinteriA, Lacidogna G, Manuello A, Borla O (2010) Piezonuclear transmutations in brittle rocks under mechanical loading: microchemical analysis and geological confirmations. In Recent advances in mechanics. Dedicated to the Late Professor P.S. Theocaris, Springer, Chennai, pp 361–382
Carpinteri A, Borla O, Lacidogna G, Manuello A (2010) Neutron emissions in brittle rocks during compression tests: monotic vs. cyclic loading. Phys Mesomech 13:264–274
Carpinteri A, Chiodoni A, Manuello A, Sandrone R (2011) Compositional and microchemical evidence of piezonuclear fission reactions in rock specimens subjected to compression tests. Strain 47:267–281
Carpinteri A, Lacidogna G, Manuello A, Borla O (2011) Energy emissions from brittle fracture: neutron measurements and geological evidences of piezonuclear reactions. Strength Fract Complex 7:13–31
Carpinteri A, Lacidogna G, Borla O, Manuello A, Niccolini G (2012) Electromagnetic and neutron emissions from brittle rocks failure: experimental evidence and geological implications. Sadhana 37:59–78
Carpinteri A, Lacidogna G, Manuello A, Borla O (2012) Piezonuclear fission reactions: evidences from microchemical analysis, neutron emission, and geological transformation. Rock Mech Rock Eng 45:445–459
Carpinteri A, Lacidogna G, Manuello A, Borla O (2013) Piezonuclear fission reactions from earthquakes and brittle rocks failure: evidence of neutron emission and nonradioactive product elements. Exp Mech 53(3):345–365
Carpinteri A, Manuello A (2012) An indirect evidence of piezonuclear fission reactions: geomechanical and geochemical evolution in the Earth’s Crust. Phys Mesomech 15:14–23
Carpinteri A, Borla O, Lacidogna G, Manuello A (2012) Piezonuclear reactions produced by brittle fracture: from laboratory to planetary scale. In: Proceedings of the 19th European conference of fracture, Kazan
Diebner K (1962) Fusionsprozesse mit Hilfe konvergenter Stosswellen – einige aeltere und neuere Versuche und Ueberlegungen. Kerntechnik 3:89–93
Kaliski S (1976) Critical masses of mini-explosion in fission–fusion hybrid systems. J Tech Phys 17:99–108
Winterberg F (1984) Autocatalytic fusion–fission implosions. Atom-Kerntech 44:146
Derjaguin BV et al (1989) Titanium fracture yields neutrons? Nature 34:492
Preparata G (1991) A new look at solid-state fractures, particle emissions and “cold” nuclear fusion. Il Nuovo Cimento 104 A:1259–1263
Fujii MF et al (2002) Neutron emission from fracture of piezoelectric materials in deuterium atmosphere. Jpn J Appl Phys 41(Pt.1):2115–2119
Carpinteri A (1989) Cusp catastrophe interpretation of fracture instability. J Mech Phys Solids 37:567–582
Carpinteri A, Cardone F, Lacidogna G (2009) Piezonuclear neutrons from brittle fracture: early results of mechanical compression tests. Strain 45:332–339. Presented at the Turin Academy of Sciences on 10 Dec 2008. Proc Turin Acad Sci 33:27–42
Cardone F, Carpinteri A, Lacidogna G (2009) Piezonuclear neutrons from fracturing of inert solids. Phys Lett A 373:4158–4163
Cardone F, Cherubini G, Petrucci A (2009) Piezonuclear neutrons. Phys Lett A 373(8–9):862–866
Manuello A, Sandrone R, Guastella S, Borla O, Lacidogna G, Carpinteri A (2012) Piezonuclear reactions during mechanical tests of basalt and magnetite. In: Proceedings of the 19th European conference of fracture, Kazan
Lacidogna G, Borla O, Carpinteri A (2012) X-ray Photoelectron Spectroscopy on fracture surfaces of Carrara marble specimens crushed in compression. In: Proceedings of the 19th European conference of fracture, Kazan
Liu L (2004) The inception of the oceans and CO2-athmosphere in the early history of the Earth. Earth Planet Sci Lett 227:179–184
Catling CD, Zahnle KJ (2009) The planetary air leak. Sci Am 300(5):24–31
Aki K (1983) Strong motion seismology. In: Kanamori H, Boschi E (eds) Earthquakes: observation, theory and interpretation. North Holland Pub. Co, Amsterdam, pp 223–250
Altwegg K et al (2014) 67P/Churyumov-Gerasimenko, a Jupiter family comet with a high D/H ratio. Science. doi:10.1126/science.1261952
Knauth P (1998) Salinity history of the Earth’s early ocean. Nature 395:554–555
Acknowledgments
The authors have not been financially supported by any specific grant or agency for this research. However, they would like to anticipatedly acknowledge any form of support to further future studies in the same directions. Special thanks are due to Prof. R. Sandrone of the Environmental Engineering, Land and Infrastructures Department (Politecnico di Torino) and Dr. A. Chiodoni of the Italian Institute of Technology (IIT) for their extensive collaboration in the EDS analysis.
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Carpinteri, A., Manuello, A. (2015). Evolution and Fate of Chemical Elements in the Earth’s Crust, Ocean, and Atmosphere. In: Carpinteri, A., Lacidogna, G., Manuello, A. (eds) Acoustic, Electromagnetic, Neutron Emissions from Fracture and Earthquakes. Springer, Cham. https://doi.org/10.1007/978-3-319-16955-2_12
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DOI: https://doi.org/10.1007/978-3-319-16955-2_12
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