A 60-year isotopic record from a mid-Holocene fossil giant clam (Tridacna gigas) in the Ryukyu Islands: physiological and paleoclimatic implications

Watanabe, Takehiko; Suzuki, Atsushi; Kawahata, Hodaka; Kan, Haidong; Ogawa, Satoshi

doi:10.1016/j.palaeo.2004.07.001

Cited by 21 publications

(22 citation statements)

References 26 publications

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“…In tridacnid bivalves, subdaily resolved Mg/Ca and Sr/Ca variations were previously observed (Sano et al, ; Warter et al, ). While daily variability in Sr/Ca in T. sanchezi is similar to that measured in tridacnids (~1 mmol/mol; Figure ; Watanabe et al, ; Elliot et al, ), daily fluctuations in Mg/Ca far exceed those in diurnal Tridacna profiles (20 versus 0.4–1.4 mmol/mol in Tridacna ). However, strong variability in Mg/Ca ratios between tridacnids (3–50 mmol/mol) may reflect vital effects in these species (Elliot et al, ; Gillikin et al, ; Watanabe et al, ).…”

Section: Discussionsupporting

confidence: 68%

“…While daily variability in Sr/Ca in T. sanchezi is similar to that measured in tridacnids (~1 mmol/mol; Figure ; Watanabe et al, ; Elliot et al, ), daily fluctuations in Mg/Ca far exceed those in diurnal Tridacna profiles (20 versus 0.4–1.4 mmol/mol in Tridacna ). However, strong variability in Mg/Ca ratios between tridacnids (3–50 mmol/mol) may reflect vital effects in these species (Elliot et al, ; Gillikin et al, ; Watanabe et al, ). The difference in mineralogy between aragonitic tridacnid shells and the LMC shell of T. sanchezi might also explain the difference in Mg content between these taxa, as the partition constant of Mg (and other trace elements) is different for aragonite and calcite (e.g., Hasiuk & Lohmann, ; Lear et al, ; Onuma et al, ; Rimstidt et al, ).…”

Section: Discussionsupporting

confidence: 68%

“…Accurately dated and well‐preserved hard tissues (e.g., fossil mollusk shells, corals, and bioapatites) are valuable archives of subannual to multidecadal paleoenvironmental change (Butler et al, ; Fricke et al, ; Gothmann et al, ; Steuber, ). Bivalve shells have proven to be especially useful for reconstructing paleoseasonality and decadal climate variability (e.g., Schöne et al, ; Steuber et al, ; Watanabe et al, ). Indeed, shells of many bivalve species record daily growth increments, especially during the first years of growth (e.g., Pannella, ; Schöne, Fiebig, et al, ; Warter & Müller, ).…”

Section: Introductionmentioning

confidence: 99%

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Subdaily‐Scale Chemical Variability in a Torreites Sanchezi Rudist Shell: Implications for Rudist Paleobiology and the Cretaceous Day‐Night Cycle

Winter

Goderis

Malderen

et al. 2020

Paleoceanog and Paleoclimatol

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This study presents subdaily resolved chemical records through fossil mollusk shell calcite. Trace element profiles resolve periodic variability across ~40‐μm‐thin daily growth laminae in a Campanian Torreites sanchezi rudist bivalve. These high‐resolution records are combined with seasonally resolved stable isotope and trace element records that allow shell‐chemical variability to be discussed on both seasonal and daily scale. A combination of layer counting, spectral analysis of chemical cyclicity and chemical layer counting shows that the rudist precipitated 372 daily laminae per year, demonstrating that length of day has increased since the Late Cretaceous, as predicted by astronomical models. This new approach to determine the length of a solar day in geologic history through multiproxy chemical records at subdaily resolution yields considerably more control on the uncertainty of this estimate. Daily chemical variability exceeds seasonal variability in our records, and cannot be explained by diurnal temperature changes. Instead, we postulate that rudist shell chemistry is driven on a daily scale by changes in light intensity. These results together with those of stable isotope analyses provide strong evidence that Torreites rudists had photosymbionts. Bivalve shell calcite generally preserves well. Therefore, this study paves the way for daily‐scale reconstructions of paleoenvironment and sunlight intensity on geologic time scales from bivalve shells, potentially allowing researchers to bridge the gap between climate and weather reconstructions. Such reconstructions improve shell chronologies, document environmental change in warm ecosystems, and widen our understanding of the magnitude of short‐term changes during greenhouse climates.

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Section: Discussionsupporting

confidence: 68%

Section: Discussionsupporting

confidence: 68%

Section: Introductionmentioning

confidence: 99%

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Subdaily‐Scale Chemical Variability in a Torreites Sanchezi Rudist Shell: Implications for Rudist Paleobiology and the Cretaceous Day‐Night Cycle

Winter

Goderis

Malderen

et al. 2020

Paleoceanog and Paleoclimatol

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“…; Watanabe & Oba ; Watanabe et al . ). The oxygen isotope composition (δ 18 O) of Tridacnidae shell, which is precipitated in isotopic equilibrium with seawater at their living sites (Aharon & Chappell ; Jones et al .…”

Section: Introductionmentioning

confidence: 99%

“…; Aharon ; Watanabe & Oba ; Watanabe et al . ). The δ 18 O sw is related to salinity associated with the evaporation–precipitation balance, upwelling of deeper water, and/or river water input (Craig & Gordon ; Fairbanks et al .…”

Section: Introductionmentioning

confidence: 99%

Late Holocene coral reef environment recorded in Tridacnidae shells from archaeological sites in Okinawa‐jima, subtropical southwestern Japan

et al. 2014

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Seasonally resolved records of carbon and oxygen isotopic composition (δ18O) in fossil shells of giant clams (Tridacnidae) recovered from the Kogachibaru Shell Mound (26°26′N, 127°49′E) and the Second Aragusuku‐Shichabaru Ruin (26°18′N, 127°46′E) in Okinawa‐jima, southwestern Japan, were investigated to reconstruct subtropical coral reef environments of the past. The samples, mainly composed of aragonite shells with limited amounts of diagenetically‐altered calcite cements, were selected for geochemical analyses. The radiocarbon dating of the samples for stable isotope analyses yields about 4000 yr cal. BP for the Kogachibaru Shell Mound and about 1900–1700 yr cal. BP for the Second Aragusuku‐Shichabaru Ruin, respectively, that correspond to the early and middle Shell Mound periods in Okinawa‐jima. These show good agreement with the respective ages inferred from excavation. The shell δ18O values roughly show seasonal variations, coincident with the occurrence of annual growth bands. Applying corrections for the effect of diagenetic alteration, the averages of annual, summer, and winter δ18O values of fossil shells were significantly lower (by 0.1–0.7‰) than those of aragonite theoretically precipitated in present‐day coral reef water of Okinawa‐jima. These results demonstrate that annual mean seawater temperature and salinity at the sites where the Tridacnida spp. lived were about 1–3°C higher and/or about 1–2 lower than at present. This variation cannot be fully explained by global climate change, sea level change, and topographic growth of coral reef. Therefore, it is likely that the giant clams lived in extremely small and/or closed coral‐reef lagoons with less water circulation where seawater is highly susceptible to insolation‐induced temperature increase and input of fresh water; the effect could be enhanced by the fisheries lifestyle that stonewalling would be constructed at shallow waters through the use of tidal variation during the early and middle Shell Mound period in Okinawa‐jima.

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Thermal dependency of shell growth, microstructure, and stable isotopes in laboratory‐reared Scapharca broughtonii (Mollusca: Bivalvia)

Nishida

Suzuki

Isono

et al. 2015

Geochem Geophys Geosyst

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We experimentally examined the growth, microstructure, and chemistry of shells of the bloody clam, Scapharca broughtonii (Mollusca: Bivalvia), reared at five temperatures (13, 17, 21, 25, and 298C) with a constant pCO 2 condition ($450 latm). In this species, the exterior side of the shell is characterized by a composite prismatic structure; on the interior side, it has a crossed lamellar structure on the interior surface. We previously found a negative correlation between temperature and the relative thickness of the composite prismatic structure in field-collected specimens. In the reared specimens, the relationship curve between temperature and the growth increment of the composite prismatic structure was humped shaped, with a maximum at 178C, which was compatible with the results obtained in the field-collected specimens. In contrast, the thickness of the crossed lamellar structure was constant over the temperature range tested. These results suggest that the composite prismatic structure principally accounts for the thermal dependency of shell growth, and this inference was supported by the finding that shell growth rates were significantly correlated with the thickness of the composite prismatic structure. We also found a negative relationship between the rearing temperature and d18 O of the shell margin, in close quantitative agreement with previous reports. The findings presented here will contribute to the improved age determination of fossil and recent clams based on seasonal microstructural records.

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A 60-year isotopic record from a mid-Holocene fossil giant clam (Tridacna gigas) in the Ryukyu Islands: physiological and paleoclimatic implications

Cited by 21 publications

References 26 publications

Subdaily‐Scale Chemical Variability in a Torreites Sanchezi Rudist Shell: Implications for Rudist Paleobiology and the Cretaceous Day‐Night Cycle

Subdaily‐Scale Chemical Variability in a Torreites Sanchezi Rudist Shell: Implications for Rudist Paleobiology and the Cretaceous Day‐Night Cycle

Late Holocene coral reef environment recorded in Tridacnidae shells from archaeological sites in Okinawa‐jima, subtropical southwestern Japan

Thermal dependency of shell growth, microstructure, and stable isotopes in laboratory‐reared Scapharca broughtonii (Mollusca: Bivalvia)

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