GLORIA — GEOMAR Library Ocean Research Information Access

1

Online Resource

Reefs and Carbonate Platforms in the Pacific and Indian Oceans. (1998)

Camoin, G. F.

Newark :John Wiley & Sons, Incorporated,

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Keywords: Rocks, Carbonate. ; Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (345 pages)

Edition: 1st ed.

ISBN: 9781444304886

Series Statement: International Association of Sedimentologists Series ; v.71

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=428015

DDC: 551.424091

Language: English

Note: Intro -- Reefs and Carbonate Platforms in the Pacific and Indian Oceans -- Contents -- Preface -- Processes Operating -- Exposure, drowning and sequence boundaries on carbonate platforms -- The origin of the Great Barrier Reef-the impact of Leg 133 drilling -- Development and demise of mid-oceanic carbonate platforms, Wodejebato Guyot (NW Pacific) -- Stable tropics not so stable: climatically driven extinctions of reef-associated molluscan assemblages (Red Sea and western Indian Ocean -- last interglaciation to present) -- Sedimentary cycles in carbonate platform facies: Fourier analysis of geophysical logs from ODP Sites 865 and 866 -- Platform Case Histories -- Aptian-Albian eustatic sea-levels -- Origin of white sucrosic dolomite within shallow-water limestones, ODP Hole 866A, Resolution Guyot, Mid-Pacific Mountains: strontium isotopic evidence for the role of sea water in dolomitization -- Computer simulation of a Cainozoic carbonate platform, Marion Plateau, north-east Australia -- Quaternary and Tertiary subtropical carbonate platform development on the continental margin of southern Queensland, Australia -- Pleistocene reef complex deposits in the Central Ryukyus, south-western Japan -- Oceanic Reef Case Histories -- Atolls and Volcanic Islands -- Morphology and sediments of the fore-slopes of Mayotte, Comoro Islands: direct observations from a submersible -- Tectonic and monsoonal controls on coral atolls in the South China Sea Wang Guozhong -- Steady-state interstitial circulations in an idealized atoll reef and tidal transients in a deep borehole by computer simulation -- Active Margins -- Environmental and tectonic influence on growth and internal structure of a fringing reef at Tasmaloum (SW Espiritu Santo, New Hebrides island arc, SW Pacific) -- Passive Margins. , Lagoonal sedimentation and reef development on Heron Reef, southern Great Barrier Reef Province -- Terrigenous sediment accumulation as a regional control on the distribution of reef carbonates -- Comparison between subtropical and temperate carbonate elemental composition: examples from the Great Barrier Reef, Shark Bay, Tasmania (Australia) and the Persian Gulf (United Arab Emirates) -- Index -- Colour plates facing p. 88, p. 160 and p. 304.

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2

Electronic Resource

Holocene sea level changes and reef development in the southwestern Indian Ocean (1997)

Camoin, G. F. ; Colonna, M. ; Montaggioni, L. F. ; [et al.]

Springer

Coral reefs 16 (1997), S. 247-259

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ISSN: 1432-0975

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Geosciences

Notes: Abstract. The sedimentological and chronological study of Holocene reef sequences recovered in drill cores through modern reefs of Mauritius, Réunion Island and Mayotte allows the reconstruction of sea level changes and reef growth patterns during the Holocene. The branching-coral facies systematically predominates over coral head facies throughout the Holocene reef sequences, and Acropora is the main frame builder among the branching forms. The reconstructed sea level curves, based both on identification of coral assemblages and on radiometric U/Th ages, are characterized by a rapid rise between 10 and 7.5 ky BP, followed by a clear inflection between 7.5 and 7 ky BP. The stabilization of sea level at its present level occurred between 2000 and 3000 years ago, probably without a higher sea level stand. Rates of vertical reef accretion range between 0.9 and 7 mm. y-1. In Mauritius, and also probably in Réunion Island, the reef first tracked, then caught-up to sea level to reach an equilibrium position (“catch-up” growth), while the barrier reef margin off Mayotte has been able to keep pace with rising sea level (“keep-up” growth).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003380050080

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3

Electronic Resource

Origins and development of Holocene coral reefs: a revisited model based on reef boreholes in the Seychelles, Indian Ocean (2000)

Braithwaite, C. J. R. ; Montaggioni, L. F. ; Camoin, G. F. ; [et al.]

Springer

International journal of earth sciences 89 (2000), S. 431-445

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ISSN: 1437-3262

Keywords: Key words Reef structure ; Reef models ; Reef boreholes ; Influence of storms ; Seychelles

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Until recently, concepts of coral reef growth and accumulation have been predominantly based on a Darwinian model. In this, the upwards and outwards growth of a reef core (a coral framework) takes place over a foreslope consisting of reef talus, with the simultaneous filling of the back-reef lagoon by reef-derived debris. The principal adaptations of this pattern relate to the influence of relative changes in sea level and commonly ignore oceanographic factors such as storm frequency and severity. Boreholes through the outer edge of a fringing reef in the Seychelles, western Indian Ocean, reveal a record of Holocene sediment accumulation first established approximately 8 ka ago. Faunal and floral associations show that growth of this body began in relatively deep water but that this shallowed to 〈5 m within 1 ka. Subsequent accumulation was of “keep-up” style but, as the rate of sea-level rise slowed, shoaling became more frequent and aggradation was limited by reducing accommodation space. Constructional facies are characterised either by massive corals, including Leptastrea, Porites and faviids, or by branching corals, typically Acropora of the danai-robusta group. Coral surfaces may be encrusted by red algae, foraminifera and vermetids, and are commonly bored by filamentous algae, clionids and molluscs. However, detrital facies are volumetrically dominant, and the paucity of a constructional framework requires a re-evaluation of models of reef accretion. New models relate the geometry of accretion to the interplay between extreme storm events and fairweather hydrodynamic conditions. These suggest that a contiguous framework forms in areas of moderate fairweather energy without extreme storm events. Severe storms destroy the continuity of reef structures and generate increasing volumes of coarse detritus. Low storm severity, coupled with low fairweather hydrodynamic energy, may promote the accumulation of fine-grained reef-derived sediments that inhibit framework growth. While ecology reflects year-by-year sea conditions, lithology and structure are controlled by exceptional storms, with the effects of changing sea level superimposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s005310000078

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4

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Late glacial to post glacial sea levels in the Western Indian Ocean (2004)

Camoin, G. F. ; Montaggioni, L. F. ; Braithwaite, C. J. R.

Elsevier

In: Marine Geology, 206 (1-4). pp. 119-146.

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Publication Date: 2017-06-28

Description: Late glacial to post glacial sea-level changes provide direct evidence of the progress of melting of large ice sheets during the last deglaciation but, although the correlation between ice and ocean volumes is incontrovertible, the causal link is commonly obscured. Local effects including tectonics, isostatic and hydroisostatic responses and equatorial ocean-syphoning impose additional signals that hide the true picture. A detailed regional study of the Western Indian Ocean based on the analysis of drill cores carried out through modern reefs, in combination with observations and sampling of reef foreslopes, and investigations of outcrops provides a comprehensive data base. Sites from a range of tectonic settings include the microcontinental margins of Madagascar, the granitic Seychelles, and the isolated volcanic islands of Réunion, Mauritius and the Comoros in which the effects of subsidence can be shown to be small. These cover a range of latitudes, and comparisons with adjacent sites on continental margins allow the construction of sea-level curves that closely reflect the eustatic response and disengage this from the effects of other mechanisms. The Mayotte foreslope in the Comoro Islands provides the first coral reef record of sea-level change during the early deglaciation in the Indian Ocean (110–115 m below present sea level between 18,000 and 17,000 yr BP). Two distinctive reef terraces, at 90 and 60 m water depth are dated at 13,600 yr BP and partly attributed to the Younger Dryas period (12,700–11,600 cal yr BP). Reef drowning at around 13,500 yr BP may correspond to Meltwater Pulse 1A, and although there were surges in the rate of sea-level rise, most notably between 11,950 and 11,350 yr BP, there is little evidence to support a well-defined Meltwater Pulse 1B. Reconstructed Holocene sea-level curves are in good agreement and reflect a rapid sea-level rise of about 6 mm yr−1 between 10,000 and 7500 yr BP, followed by a clear inflection around 7500 yr BP when the rate fell to 1.1 mm yr−1. Modern reefs started to grow 8000–9000 years ago. In the post-glacial period the rate of sea-level rise was 1–1.5 mm yr−1 before stabilization at its present level 3000–2500 years ago. Curves for the 10,000–6000 yr−1 BP interval correspond closely with those predicted by theoretical models but lie below these in the subsequent period. In particular, and with the exception of the margins of the Madagascar microcontinent influenced by hydroisostatic processes, they do not reflect predicted higher sea-level stands during the late Holocene.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.margeo.2004.02.003

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Ice volume and climate changes from a 6000 year sea-level record in French Polynesia (2018)

Hallmann, N. ; Camoin, G. ; Eisenhauer, Anton ; [et al.]

Nature Research

In: Nature Communications, 9 (285).

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Publication Date: 2021-02-08

Description: Mid- to late-Holocene sea-level records from low-latitude regions serve as an important baseline of natural variability in sea level and global ice volume prior to the Anthropocene. Here, we reconstruct a high-resolution sea-level curve encompassing the last 6000 years based on a comprehensive study of coral microatolls, which are sensitive low-tide recorders. Our curve is based on microatolls from several islands in a single region and comprises a total of 82 sea-level index points. Assuming thermosteric contributions are negligible on millennial time scales, our results constrain global ice melting to be 1.5–2.5 m (sea-level equivalent) since ~5500 years before present. The reconstructed curve includes isolated rapid events of several decimetres within a few centuries, one of which is most likely related to loss from the Antarctic ice sheet mass around 5000 years before present. In contrast, the occurrence of large and flat microatolls indicates periods of significant sea-level stability lasting up to ~300 years.

Type: Article , PeerReviewed

Format: text

DOI: 10.1038/s41467-017-02695-7

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Seychelles coral record of changes in sea surface temperature bimodality in the western Indian Ocean from the Mid-Holocene to the present (2014)

Zinke, J. ; Pfeiffer, M. ; Park, Wonsun ; [et al.]

Springer

In: Climate Dynamics, 43 (3-4). pp. 689-708.

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Publication Date: 2019-09-23

Description: We report fossil coral records from the Seychelles comprising individual time slices of 14–20 sclerochronological years between 2 and 6.2 kyr BP to reconstruct changes in the seasonal cycle of western Indian Ocean sea surface temperature (SST) compared to the present (1990–2003). These reconstructions allowed us to link changes in the SST bimodality to orbital changes, which were causing a reorganization of the seasonal insolation pattern. Our results reveal the lowest seasonal SST range in the Mid-Holocene (6.2–5.2 kyr BP) and around 2 kyr BP, while the highest range is observed around 4.6 kyr BP and between 1990 and 2003. The season of maximum temperature shifts from austral spring (September to November) to austral autumn (March to May), following changes in seasonal insolation over the past 6 kyr. However, the changes in SST bimodality do not linearly follow the insolation seasonality. For example, the 5.2 and 6.2 kyr BP corals show only subtle SST differences in austral spring and autumn. We use paleoclimate simulations of a fully coupled atmosphere–ocean general circulation model to compare with proxy data for the Mid-Holocene around 6 kyr BP. The model results show that in the Mid-Holocene the austral winter and spring seasons in the western Indian Ocean were warmer while austral summer was cooler. This is qualitatively consistent with the coral data from 6.2 to 5.2 kyr BP, which shows a similar reduction in the seasonal amplitude compared to the present day. However, the pattern of the seasonal SST cycle in the model appears to follow the changes in insolation more directly than indicated by the corals. Our results highlight the importance of ocean–atmosphere interactions for Indian Ocean SST seasonality throughout the Holocene. In order to understand Holocene climate variability in the countries surrounding the Indian Ocean, we need a much more comprehensive analysis of seasonally resolved archives from the tropical Indian Ocean. Insolation data alone only provides an incomplete picture.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s00382-014-2082-z

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Island outlook: Warm and swampy (2014)

Hubbard, D. ; Gischler, E. ; Davies, P. ; [et al.]

American Association for the Advancement of Science (AAAS)

In: Science, 345 (6203). p. 1461.

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Publication Date: 2019-09-23

Description: In his In Depth News story “Warming may not swamp islands” (1 August, p. 496), C. Pala argues that “coral reefs supporting sandy atoll islands will grow and rise in tandem with the sea,” based largely on studies that showed stable Pacific-island area over recent decades (1–4). He suggests that recent land losses are driven mostly by bad choices and that islanders are being affected “for the same reason as millions of people on the continents: because they live too close to shore.” We disagree with these conclusions.

Type: Article , PeerReviewed

Format: text

DOI: 10.1126/science.345.6203.1461-a

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A 300000 years coral reef record of sea level changes, Mururoa atoll (Tuamotu archipelago, French Polynesia) (2001)

Camoin, G. F. ; Ebren, P. ; Eisenhauer, Anton ; [et al.]

Elsevier

In: Palaeogeography, Palaeoclimatology, Palaeoecology, 175 . pp. 325-341.

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Publication Date: 2020-08-07

Description: The accurate dating of fossil coral reefs is of prime importance in determining the timing of deglaciation events and thus understanding the mechanisms driving glacial–interglacial cycles. So far, the most useful coral reef records of past sea level changes are those related to the last deglaciation and the Last Interglacial period. U/Th ages for older isotopic stages are more limited, due to the scarcity of datable material, reflecting diagenetic alteration. Most data are from emergent parts of reefs and reef terraces in active subduction zones where relative sea level records may be biased by variations in rates of tectonic uplift. New constraints on sea level changes over the past 300 000 yr are based on high-precision U-series age measurements of successive reef units on Mururoa. These have been cored in four continuous 300-m-long drill holes with seaward inclinations of 30 to 45° on the northeastern rim of the atoll. Past sea level positions have been calculated from the radiometric ages of corals by correcting the present depth of subsurface horizons both for thermal subsidence and for depositional palaeodepth. The location of this atoll at a considerable distance from former ice sheets (‘far field’) minimises the influence of glacio–isostatic rebound. Prominent units formed during four periods of relative sea level highstands, including the Holocene and stages 5 (∼125 ka), 7 (∼212 ka) and 9 (∼332 ka). These are primarily composed of coralgal frameworks that grew in very shallow water. Three periods of relative low stand correspond to stages 2 (∼17–23 ka), 4 (∼60 ka) and 8 (∼270 ka) during which small reefs developed in association with large bioclastic accumulations. Good agreement with the timing of sea level changes based on oxygen isotope measurements in deep-sea cores is noted for most of the dated reef units. We report here the first accurate coral record of the Last Glacial Maximum in the Pacific, 135–143 m below the present sea surface, suggesting that sea level may have been lower than expected during this period.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/S0031-0182(01)00378-9

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Sealevel changes and Evolution of the foreslopes of the Comoro Islands: Direct observations from submersible (1996)

Dullo, Wolf-Christian ; Camoin, G. F. ; Blomeier, D. ; [et al.]

Universität Göttingen

In: In: Global and regional controls on biogenic sedimentation. I. Reef evolution. Research reports. , ed. by Reitner, J., Neuweiler, F. and Gunkel, F. Göttinger Arbeiten zur Geologie und Paläontologie, Sb 2 . Universität Göttingen, Göttingen, pp. 19-22.

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Publication Date: 2017-02-02

Type: Book chapter , NonPeerReviewed

Format: text

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Sediments and Sea Level Changes of the foreslopes of Mayotte, Comoro Island: direkt observation from a submersible (1998)

Dullo, Wolf-Christian ; Camoin, G. F. ; Blomeier, D. ; [et al.]

Blackwell Science

In: In: Reefs and carbonate platforms in the Pacific and Indian Oceans. , ed. by Camoin, G. F. and Davies, P. J. Special Publication of the International Association of Sedimentologists, 25 . Blackwell Science, Oxford, pp. 219-236.

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Publication Date: 2016-09-15

Type: Book chapter , NonPeerReviewed

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