Добірка наукової літератури з теми "Biogenic calcium carbonate"
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Статті в журналах з теми "Biogenic calcium carbonate"
Berg, B. L., J. Ronholm, D. M. Applin, P. Mann, M. Izawa, E. A. Cloutis, and L. G. Whyte. "Spectral features of biogenic calcium carbonates and implications for astrobiology." International Journal of Astrobiology 13, no. 4 (September 10, 2014): 353–65. http://dx.doi.org/10.1017/s1473550414000366.
Повний текст джерелаRocha, Katari P., Santiago Botasini, and Eduardo Méndez. "Physicochemical characterization of biogenic calcium carbonate." MRS Advances 3, no. 61 (2018): 3569–74. http://dx.doi.org/10.1557/adv.2018.528.
Повний текст джерелаGong, Y. U. T., C. E. Killian, I. C. Olson, N. P. Appathurai, A. L. Amasino, M. C. Martin, L. J. Holt, F. H. Wilt, and P. U. P. A. Gilbert. "Phase transitions in biogenic amorphous calcium carbonate." Proceedings of the National Academy of Sciences 109, no. 16 (April 4, 2012): 6088–93. http://dx.doi.org/10.1073/pnas.1118085109.
Повний текст джерелаKroisová, Dora, and Štěpánka Dvořáčková. "Biogenic Nanoparticles of Calcium Carbonate - Preparation and Behaviour." Materials Science Forum 994 (May 2020): 197–204. http://dx.doi.org/10.4028/www.scientific.net/msf.994.197.
Повний текст джерелаŠkundrić, Tamara, Dejan Zagorac, Aleksandra Zarubica, and Branko Matović. "Theoretical investigation of mollusk shells: Energy landscape exploration of CaCo3 polymorphs and element substitution: A short review." Advanced Technologies 10, no. 1 (2021): 73–80. http://dx.doi.org/10.5937/savteh2101073s.
Повний текст джерелаSadekov, Aleksey, Nicholas S. Lloyd, Sambuddha Misra, Julie Trotter, Juan D'Olivo, and Malcolm McCulloch. "Accurate and precise microscale measurements of boron isotope ratios in calcium carbonates using laser ablation multicollector-ICPMS." Journal of Analytical Atomic Spectrometry 34, no. 3 (2019): 550–60. http://dx.doi.org/10.1039/c8ja00444g.
Повний текст джерелаIchikawa, Kazuhiko. "Buffering Dissociation/Formation Reaction of Biogenic Calcium Carbonate." Chemistry - A European Journal 13, no. 36 (December 17, 2007): 10176–81. http://dx.doi.org/10.1002/chem.200700166.
Повний текст джерелаSutton, Jill N., Yi-Wei Liu, Justin B. Ries, Maxence Guillermic, Emmanuel Ponzevera та Robert A. Eagle. "<i>δ</i><sup>11</sup>B as monitor of calcification site pH in divergent marine calcifying organisms". Biogeosciences 15, № 5 (8 березня 2018): 1447–67. http://dx.doi.org/10.5194/bg-15-1447-2018.
Повний текст джерелаMarin, Frédéric, Nathalie Le Roy, Benjamin Marie, Paula Ramos-Silva, Irina Bundeleva, Nathalie Guichard, and Françoise Immel. "Metazoan calcium carbonate biomineralizations: macroevolutionary trends – challenges for the coming decade." Bulletin de la Société Géologique de France 185, no. 4 (April 1, 2014): 217–32. http://dx.doi.org/10.2113/gssgfbull.185.4.217.
Повний текст джерелаEllison, Joanna C., Paul Han, and Trevor W. Lewis. "Carbonate Beach Sand of Abaiang Atoll, Kiribati: Geochemistry, Biogenic Sources, and Properties." Atoll Research Bulletin, no. 621 (March 20, 2019): 1–21. http://dx.doi.org/10.5479/si.0077-5630.621.
Повний текст джерелаДисертації з теми "Biogenic calcium carbonate"
Miller, Caroline E. "Environmental influences on synthetic and biogenic calcium carbonate in aragonite-calcite sea conditions." Thesis, University of Glasgow, 2018. http://theses.gla.ac.uk/8665/.
Повний текст джерелаThis research allows comparison of how non-biogenic and biogenic CaCO3 formation is influenced by seawater chemistry and environmental parameters to determine the dominant mineralogy. Increased temperature in both formations has shown to increase the impact of magnesium on calcite enabling the facilitation of aragonite. However, magnesium has influence on biogenic aragonite in extreme combined conditions of elevated temperature and pCO2. This work indicates that CaCO3 formation is complex and requires a multi-variable approach to understanding the mechanisms that facilitate the dominant mineralogy. By including variables such as temperature, this research suggests that aragonite-calcite seas conditions do not facilitate globally homogeneous switches in mineralogy, but the mineralogy is indeed influenced on latitudinal scales by other factors that influence the mechanisms involved.
van, de Locht Renée. "On the nanostructure of biogenic and bio-inspired calcium carbonate as studied by electron microscopy techniques." Thesis, University of York, 2014. http://etheses.whiterose.ac.uk/6497/.
Повний текст джерелаLemaitre, Nolwenn. "Approche multi-proxy (Thorium-234, Baryum en excès) des flux d'export et de reminéralisation du carbone et des éléments nutritifs associés à la pompe biologique océanique." Thesis, Brest, 2017. http://www.theses.fr/2017BRES0009/document.
Повний текст джерелаThe main objective of this thesis is to improve our understanding of the different controls that affect the oceanic biological carbon pump. Particulate export and remineralization fluxes were investigated using the thorium-234 (234Th) and biogenic barium (Baxs) proxies.In the North Atlantic, the highest particulate organic carbon (POC) export fluxes were associated to biogenic (biogenic silica or calcium carbonate) and lithogenic minerals, ballasting the particles.Export efficiency was generally low (< 10%) and inversely related to primary production, highlighting a phase lag between production and export. The highest transfer efficiencies, i.e. the fraction of POC that reached 400m, were driven by sinking particles ballasted by calcite or lithogenic minerals.The regional variation of mesopelagic remineralization was attributed to changes in bloom intensity, phytoplankton cell size, community structure and physical forcing (downwelling). Carbon remineralization balanced, or even exceeded, POC export, highlighting the impact of mesopelagic remineralization on the biological pump with a near-zero, deep carbon sequestration for spring 2014.Export of trace metals appeared strongly influenced by lithogenic material advected from the margins. However, at open ocean stations not influenced by lithogenic matter, trace metal export rather depended on phytoplankton activity and biomass.A last part of this work focused on export of biogenic silica, particulate nitrogen and iron near the Kerguelen Island. This area is characterized by a natural iron-fertilization that increases export fluxes. Inside the fertilized area, flux variability is related to phytoplankton community composition
Chen, Jheng-Hong, and 陳政宏. "Calcium carbonate crystallization of clam shell affected by biogenic and environmental factors." Thesis, 2008. http://ndltd.ncl.edu.tw/handle/tks39x.
Повний текст джерела崑山科技大學
機械工程研究所
96
Shellfish do not need to moult their shell as they grow. The color of shell at the aperture is an indicator of the fitness of clams. These two facts about shellfish may sound commonplace, but the calcifying mechanism behind them is rather interesting. Calcification is widespread among marine organisms, including corals, mollusks, plankton and algae. In present time, these organisms are threatened by increasing ocean acidification due to fossil fuel burning. According to fossil record, the earth has experienced a number of mass extinction events. At least three of the events mark severe loss of calcifying organisms due to ocean acidification. Calcium carbonate mostly occurs in two forms: metastable aragonite and stable calcite. Clams as well as many other species of mollusk produce aragonite first and then transform the crystal to calcite. The aragonite-calcite transformation is critical to physiology of clams. Besides chemical factors, mechanical effect also plays a certain role in controlling calcification since the stability of calcium carbonate crystal is dependent on pressure. Studying the details about calcification is an important and meaningful task.
Частини книг з теми "Biogenic calcium carbonate"
Shirai, Kotaro. "An Elemental Fractionation Mechanism Common to Biogenic Calcium Carbonate." In Biomineralization, 283–89. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-1002-7_30.
Повний текст джерелаOwusu Asimeng, Bernard, David Walter Afeke, and Elvis Kwason Tiburu. "Biomaterial for Bone and Dental Implants: Synthesis of B-Type Carbonated Hydroxyapatite from Biogenic Source." In Biomaterials. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.92256.
Повний текст джерелаLowenstam, Heinz A., and Stephen Weiner. "Mollusca." In On Biomineralization. Oxford University Press, 1989. http://dx.doi.org/10.1093/oso/9780195049770.003.0008.
Повний текст джерелаLowenstam, Heinz A., and Stephen Weiner. "Chordata." In On Biomineralization. Oxford University Press, 1989. http://dx.doi.org/10.1093/oso/9780195049770.003.0011.
Повний текст джерелаLowenstam, Heinz A., and Stephen Weiner. "Environmental Influences on Biomineralization." In On Biomineralization. Oxford University Press, 1989. http://dx.doi.org/10.1093/oso/9780195049770.003.0013.
Повний текст джерелаТези доповідей конференцій з теми "Biogenic calcium carbonate"
Paris, Guillaume, Guillaume Caro, Mathieu Dellinger, Itay Halevy, Yigal Barkan, and Joshua West. "Calcium isotope fractionation during (a)biogenic calcium carbonate precipitation." In Goldschmidt2021. France: European Association of Geochemistry, 2021. http://dx.doi.org/10.7185/gold2021.6111.
Повний текст джерелаZhang, Chonghong, Fuchun Li, and Jun Sun. "Impact of Amorphous Calcium Carbonate on Carbon Isotope Signatures of Biogenic Ca-Mg Carbonate." In Goldschmidt2020. Geochemical Society, 2020. http://dx.doi.org/10.46427/gold2020.3088.
Повний текст джерелаKhan, Md Ashraful Islam, Iván Darío Piñerez Torrijos, Saja Hussam Aldeen Algazban, Skule Strand, and Tina Puntervold. "Polysulphate: A New Eor Additive to Maximize the Oil Recovery from Carbonate Reservoirs at High Temperature." In ADIPEC. SPE, 2022. http://dx.doi.org/10.2118/211443-ms.
Повний текст джерелаAntoshkina, A. I., L. V. Leonova, and Yu S. Simakova. "The Miocene bryozoan biogerms of the Kazantip Cape, Crimea: the role of gas-fluid seepage in their genesis." In All-Russia Lithological Meeting «Geology of reefs». Institute of Geology FRC Komi SC UB RAS, 2020. http://dx.doi.org/10.19110/98491-013-23-24.
Повний текст джерела