DOI: 10.1016/j.quascirev.2014.01.014
Scopus记录号: 2-s2.0-84895743316
论文题名: Magnesium isotope fractionation in biogenic and abiogenic carbonates: Implications for paleoenvironmental proxies
作者: Saenger C. ; Wang Z.
刊名: Quaternary Science Reviews
ISSN: 2773791
出版年: 2014
卷: 90 起始页码: 1
结束页码: 21
语种: 英语
英文关键词: Aragonite
; Calcite
; Isotope fractionation
; Magnesium
; Temperature
; Vital effect
Scopus关键词: Calcite
; Carbonate minerals
; Experiments
; Fractionation
; Isotopes
; Magnesium
; Sols
; Temperature
; Temperature distribution
; Amorphous calcium carbonate
; Analytical uncertainty
; Aragonite
; Isotope fractionation
; Paleoenvironmental change
; Paleotemperature reconstruction
; Temperature dependence
; Vital effects
; Seawater effects
; carbonate
; environmental change
; isotopic fractionation
; magnesium
; paleoenvironment
; precipitation (climatology)
; proxy climate record
; saturation
; temperature effect
英文摘要: Geochemical variations in marine biogenic carbonates that are preserved in the geological record serve as proxies of past environmental change. However, interpreting most proxies is complicated by biologically-mediated vital effects, highlighting the need to develop new tools for reconstructing paleoenvironmental change. Recently, magnesium (Mg) isotope variability in carbonates has been explored extensively to determine its utility as a paleoenvironmental proxy. We review the results of these works, which have yielded valuable information on the factors affecting Mg isotope fractionation between carbonates and solution (δ26Mgcarb-sol) in biogenic and abiogenic carbonate minerals. Strong evidence exists for a mineralogical control on δ26Mgcarb-sol, with the negative offset from 0‰ following the sequence aragonite~3mol/mol) and saturation states (Ω >~3) that are similar to seawater suggest that δ26Mgcarb-sol has a temperature dependence of ~0.01‰ °C-1 and is insensitive to precipitation rate. In contrast, a significant precipitation rate dependence is observed in calcites precipitated from solutions with relatively low Mg/Ca ratios (<~3mol/mol) and saturation states (Ω <~3). This difference likely reflects varying mineral growth mechanisms and we discuss the degree to which δ26Mgcarb-sol may be affected by factors such as fluid inclusions, amorphous calcium carbonate precursors, ion attachment/detachment kinetics, surface entrapment and Mg speciation. High-Mg calcite organisms, which likely precipitate from relatively unmodified seawater, also exhibit a temperature dependence of ~0.01‰ °C-1, albeit sometimes with a systematic offset toward smaller fractionations. In contrast, strong vital effects in low-Mg calcite organisms, which exclude Mg from their calcifying fluids, lead to δ26Mgcarb-sol values that exhibit no clear temperature dependence and are offset from abiogenic experiments. The majority of biogenic aragonites have δ26Mgcarb-sol values that are slightly more positive than those in abiogenic experiments, but bivalves and one sclerosponge species can exhibit significantly larger fractionations. Although vital effects and analytical uncertainties will limit δ26Mgcarb-sol paleotemperature reconstructions to anomalies of at least ±10°C, Mg isotope variability in biogenic carbonates may be a useful proxy for the Mg isotope composition of seawater, which reflects continental weathering, dolomitization and hydrothermal activity. © 2014 Elsevier Ltd. Citation statistics:
资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/60333
Appears in Collections: 过去全球变化的重建
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作者单位: Department of Environmental Science, Alaska Pacific University, 310C Grant Hall, 4101 University Dr, Anchorage, AK 99508, United States; Department of Geology and Geophysics, Yale University, New Haven, CT 06520, United States
Recommended Citation:
Saenger C.,Wang Z.. Magnesium isotope fractionation in biogenic and abiogenic carbonates: Implications for paleoenvironmental proxies[J]. Quaternary Science Reviews,2014-01-01,90