Your search keyword '"relative sea level"' showing total 433 results

1. Development shifts on the emerging Järve coast (Estonia) in Late Holocene

Author

Luik, Katre, Tõnisson, Hannes, Rivis, Reimo, Vilumaa, Kadri, Vaasma, Tiit, Vandel, Egert, Tamura, Toru, and Suursaar, Ülo

Published

2025

2. New insights into the glacial and relative sea-level history of the western Fraser Lowland based on sediment cores from geotechnical drilling for the Evergreen Tunnel, British Columbia, Canada.

Author

Jackson, Lionel E., Ward, Brent C., Hicock, Stephen R., Gromig, Raphael, Clague, John J., and Turner, Derek G.

Subjects

*GLACIAL drift, *SEA level, *ICE sheets, *CANADIAN history, *GLACIATION

Abstract

Geotechnical drilling for a tunnel between Port Moody and Burnaby, BC, Canada, uncovered a buried fjord. Its sedimentary fill has a thickness of at least 130 m and extends more than 37 m below present mean sea level. Recovered sediments record cyclical growth and decay of successive Cordilleran ice sheets. The oldest sediments comprise 58 m of almost stoneless silt conformably overlying ice-proximal sediments and till, which in turn overlie bedrock. These sediments may predate Marine Isotope Stage (MIS) 4. Glacial sediments assigned to MIS 4 overlie this basal succession and, in turn, are overlain by MIS 3 interstadial sediments and sediments from two MIS 2 glacial advances. Indicators of relative sea-level elevations that bracket glacial deposits of MIS 4 and 2 indicate the cyclic existence of moat-like isostatic depressions in the front of expanding ice sheets. Compared with present sea level, these depressions were at least 160 m during the onsets of MIS 4 and MIS 2. Assuming a maximum eustatic drawdown of 120 m during MIS 2, isostatic depression may have exceeded 200 m during retreat of glacial ice from the Evergreen tunnel area. This is consistent with region-specific low mantle viscosity and rapid Cordilleran Ice Sheet buildup and wasting. [ABSTRACT FROM AUTHOR]

Published

2024

3. Coastal Dunes of the Maida River Estuary Area (Zimniy Coast of the White Sea): Spatial Distribution and Evolution Patterns.

Author

Repkina, T. Yu., Leontiev, P. A., Krekhov, A. K., Vyatkin, E. D., Orlov, A. V., Lugovoy, N. N., and Shilova, O. S.

Subjects

*COASTS, *COASTAL changes, *GROUND penetrating radar, *LITTORAL drift, *AERIAL photography, *SAND dunes

Abstract

We present new data of White Sea Coast dynamics within NE of the Gorlo Strait that were generated by satellite images, geomorphological and ground penetrating radar (GPR) profiling, aerial photography, and topographic surveys of coastal terraces and dunes. Our paleogeomorphological studies, supported by laboratory findings (diatom analysis and 14C dating), allowed us to reconstruct the morphodynamics of coastal and aeolian landforms. The obtained reconstruction enabled the evaluation of relative sea level (RSL) changes and the evolution of coastal landforms over the past ~ 3.7 cal ka BP. According to our research, sand was supplied to coastal zone and coastal dunes through scarp erosion (0.5–3.7 m/year) as well as from the shoreface, while the role of alluvial runoff is insignificant. The largest dune massifs were formed in the areas of longshore drift (from NE to SW) discharge. At the mouth of the Maida River, the barrier spit and foredune plain have been evolving from the end of the Holocene transgression (∼3.7–2.3 cal ka BP). The mean high water at this time was slightly higher (up to ∼2.5 m a.s.l.), and coastal processes were significantly more intense than current ones. Then, against a decrease in sea level and weakening sediment flows, the growth of the spit slowed. The ancient foredunes were stabilized by vegetation. Aeolian processes were activated ∼2.1 and after ∼0.8–0.7 cal ka BP. [ABSTRACT FROM AUTHOR]

Published

2024

4. Global Mean and Relative Sea-Level Changes Over the Past 66 Myr: Implications for Early Eocene Ice Sheets

Author

K. G. Miller, W. J. Schmelz, J. V. Browning, Y. Rosenthal, A. V. Hess, R. E. Kopp, and J. D. Wright

Subjects

global mean geocentric sea level, barystatic (ice-volume) sea level, relative sea level, climate, Cenozoic (past 66 million years), Dynamic and structural geology, QE500-639.5

Abstract

We estimate ice-volume driven (barystatic; BSL) sea-level changes for the Cenozoic using new Mg/Ca data from 58 to 48 Ma and a revised analysis of Mg/Ca trends over the past 66 Myr. We combine records of BSL, temperature-driven sea level, and long-term ocean basin volume variations to derive a new global mean geocentric sea level (GMGSL; “eustatic”) estimate. Bayesian analysis with Gaussian process priors shows that our BSL estimate shares a component that covaries on the Myr scale with “backstripped” relative sea-level (RSL) estimates (accounting for compaction, loading, and thermal subsidence) from the US Mid-Atlantic Coastal Plain, validating our method and estimates with errors of ±10 m. Peak warmth, elevated GMGSL and BSL, high CO2, and ice-free conditions occurred at times in the Paleocene to Eocene (ca. 64, 57.5, 35 Ma) and in much of the Early Eocene (55–48 Ma). However, our new results show that the Early Eocene was punctuated at specific times by several Myr-scale sea level lowerings (∼20–40 m) that require growth and decay of significant continental ice sheets even in the supposedly “ice-free” world. Continental-scale ice sheets waxed and waned beginning ca. 34 Ma (>50 m BSL changes), with near complete collapse during the Miocene Climate Optimum (17–14.8 Ma). Both the BSL and RSL estimates have markedly higher Oligocene to Early Miocene Myr-scale amplitudes (20–60 m) than recently published δ18O-based estimates (100 m), leading us to reject those estimates. The US Mid-Atlantic margin RSL was dominated by GMGSL but was overprinted by changes in mantle dynamic topography on the several Myr scale, showing approximately 50 m higher Eocene estimates and regionally propagating Miocene RSL changes.

Published

2024

5. Computations of Absolute Sea Levels at Tide Gauge Locations Accounting for Variable Subsidence

Author

Boretti, Alberto, Jazar, Reza N., editor, and Dai, Liming, editor

Published

2024

6. Accounting for Accelerating Subsidence in the Analysis of Tide Gauge Records

Author

Boretti, Albert, Jazar, Reza N., editor, and Dai, Liming, editor

Published

2024

7. Seismostratigraphic Characterization of the Rharb Basin’s Post-nappe Series (N-W Morocco)

Author

Sbihi, Fatima Zahra, Mridekh, Abdelaziz, Hafid, Mohamad, Ait Salem, Abdallah, Killi, Malika, El Bouhaddioui, Mohammed, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, Gawad, Iman O., Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Çiner, Attila, editor, Ergüler, Zeynal Abiddin, editor, Bezzeghoud, Mourad, editor, Ustuner, Mustafa, editor, Eshagh, Mehdi, editor, El-Askary, Hesham, editor, Biswas, Arkoprovo, editor, Gasperini, Luca, editor, Hinzen, Klaus-Günter, editor, Karakus, Murat, editor, Comina, Cesare, editor, Karrech, Ali, editor, Polonia, Alina, editor, and Chaminé, Helder I., editor

Published

2024

8. A new digital database of Ellen Louise Mertz’s 1924 ‘Overview of late- and postglacial elevation changes in Denmark’

Author

Samuel Paul Jackson, Kristian Svennevig, and Kristian Kjellerup Kjeldsen

Subjects

glacial isostatic adjustment, relative sea level, yoldia sea, littorina sea, holocene, Geology, QE1-996.5, Geophysics. Cosmic physics, QC801-809

Abstract

Data from an important historic article on late- and postglacial land-level changes in Denmark and the accompanying map are presented here in a new digital format. The original data were compiled in 1924 by Ellen Louise Mertz and comprise field observations of the marine limit in Denmark made over the late 19th and early 20th centuries. The original tables have been transcribed and expanded into a digital database consisting of 658 entries. The original map sheet has been georeferenced and 392 mapped points have been assigned coordinates. The points are linked to their attributes in the digital data table, making them newly amenable to geospatial analysis in a Geographic Information System. To demonstrate, we briefly present one such application, namely a reproduction and verification of the isolines of raised beach elevation from the original 1924 map.

Published

2024

9. 联合卫星测高和 GNSS 观测的天津沿海 近 25 年相对海平面变化分析.

Author

周东旭, 冯义楷, 张化疑, 付延光, and 唐秋华

Abstract

Objectives: In recent 40 years, the risk of sea level rise in China's coastal areas is further in‐ creased with the acceleration of sea level rise, especially in serious land subsidence areas (e. g., Tianjin, Shanghai). However, it is difficult to know the real relative sea level (RSL) change at Tianjin coast due to time frame and subsidence correction of the public tidal data. To solve this issue, we propose an analysis method of RSL change by using the data of satellite altimetry and global navigation satellite system (GNSS). Methods: The method is executed based on the idea of the collocating observation of GNSS and tide gauge. Meanwhile, to obtain RSL in different areas of Tianjin coast, we simulate 4 GNSS and tide gauge co-stations. First, the absolute sea level change and vertical land motion of tide gauge stations are determined by using the data of satellite altimetry and co-located GNSS observations, respectively. Then, the relative sea level rise of Tanggu and four virtual tide gauge stations is calculated. Finally, the feasibility of our method is discussed based on multi-year leveling data. Results: The results show that the RSL rate was 13.45±0.45 mm/a at Tanggu tide station in the past 25 years, the RSL rate of four fictitious stations varied from 11.15±0.44 mm/a to 19.17±0.45 mm/a, and the mean rate along Tianjin coast was 15.09± 0.45 mm/a. Vertical land motion and its non-uniform distribution were the main influencing factors of the RSL rise and its regional differences, with the contribution rate more than 70%. Conclusions: Our research provides a new and feasible method for analyzing the RSL rise of Tianjin coast, however, it is still necessary to encrypt the tide observation facilities along the coast and retain and release the original tidal data, which can better serve the monitoring and research of sea level in Tianjin coastal area. [ABSTRACT FROM AUTHOR]

Published

2024

10. The timing and magnitude of the British–Irish Ice Sheet between Marine Isotope Stages 5d and 2: implications for glacio‐isostatic adjustment, high relative sea levels and 'giant erratic' emplacement.

Author

Scourse, J. D.

Subjects

ICE sheets, SEA level, OPTICALLY stimulated luminescence, ICE calving, LAST Glacial Maximum, EMPLACEMENT (Geology)

Abstract

The extent, chronology and dynamics of the pre‐Marine Isotope Stage (MIS) 2 last British–Irish Ice Sheet (BIIS) are not well known. Although the BRITICE‐CHRONO Project has detailed the maximum extent and retreat phases of the last BIIS for the period after 30 ka and into the Last Glacial Maximum (LGM), the Project identified several pre‐existing datasets and generated new data that implied glaciation pre‐dating the LGM but which post‐dated the Last Interglacial (Eemian; MIS5e); these data are reviewed here. There are no dated till units but are other indicators clearly indicative of glaciation: deep‐sea ice‐rafted detritus flux into the adjacent NE Atlantic, cosmogenic rock‐exposure age dating from glaciated surfaces in Wales and the island of Lundy (Bristol Channel), and optically stimulated luminescence (OSL) ages of proximal glacifluvial sequences on the Isle of Lewis (Outer Hebrides) and in the Cheshire Basin. Taken together these indicate BIIS inception during MIS5d, growth into MIS4 and evidence for dynamic retreat–advance phases during MIS3. OSL evidence for high relative sea level indicated by raised beaches in southern Ireland during MIS4 and 3 at a time of lowered glacio‐eustatic sea level indicates substantial glacial isostatic loading, explained by the early growth of the BIIS during the last cold stage. High relative sea level during MIS4 and 3 coincident with adjacent calving ice sheet margins provides an explanation for the rafted giant erratics found around the shores of southern Britain and Ireland. [ABSTRACT FROM AUTHOR]

Published

2024

11. Refining Holocene sea‐level variations for the Lofoten and Vesterålen archipelagos, northern Norway: implications for prehistoric human–environment interactions.

Author

Balascio, Nicholas L., D'Andrea, William J., Creel, Roger C., Marshall, Leah, Dia, Moussa, Wickler, Stephen, Anderson, R. Scott, Austermann, Jacqueline, Vasskog, Kristian, Nielsen, Pål Ringkjøb, and Dahl, Svein Olaf

Subjects

HOLOCENE Epoch, ARCHIPELAGOES, PREHISTORIC settlements, SEA level, X-ray fluorescence, SEDIMENTARY basins, COASTS

Abstract

The Lofoten and Vesterålen archipelagos are located off the outer coast of northern Norway far from the center of the former Fennoscandian Ice Sheet and near the continental shelf edge. Existing relative sea‐level (RSL) data indicate a pronounced mid‐Holocene transgression and interesting connections with the region's prehistoric human settlement history. Here we present seven new sea‐level index points from isolation basins and five terrestrial limiting points from a coastal sedimentary sequence to refine the region's RSL history. Ingression and isolation contacts in isolation basin sediment cores are identified using sedimentary geochemical data, scanning X‐ray fluorescence profiles and phytoplankton analysis. The ages of these contacts are determined using radiocarbon‐based age models. Our index points range from 11.2 to 1.5k cal a bp and are combined with previously published data to predict the spatiotemporal evolution of sea level in this region using an ensemble of spatiotemporal empirical hierarchical models (STEHME). The new RSL curve constrains the timing of the mid‐Holocene transgression, which occurred from c. 9 to 6k cal a bp when sea level increased from −4 to 7 m above present day. From c. 6 to 5k cal a bp, RSL rapidly fell to c. 4 m above present values, and more gradually declined at an average rate of c. 0.8 m ka−1 over the last 5k cal a bp. Isobase maps derived using the STEHME show a decrease in the regional shoreline gradients since the transgression maximum from 0.25 to 0.07 m km−1. Our data also better define how RSL variations influenced the location and preservation of coastal settlement locations and harbors from the early Stone Age through historic intervals, improving understanding of regional human–environment interactions. [ABSTRACT FROM AUTHOR]

Published

2024

12. Reconstructing past coastal change in southeast Scotland : evolution of the Fife coastline

Author

Boyd, Sarah Louise, Bates, C. Richard, Kinnaird, Timothy Charles, and Raub, Timothy David

Subjects

OSL, Radiocarbon, Relative sea level, Geochronology, GIS, Scotland, Fife, Coastal ecology--Scotland, Eastern, Sea level--Scotland--Fife, Coast changes--Scotland--Fife, Climatic changes--Scotland--Fife

Abstract

The study of past relative sea level (RSL) change is crucial to improve our understanding of how coastlines could be affected by future climate change. This thesis adopts a multidisciplinary approach to explore past coastal change in southeast Scotland, with a focus on the Fife coastline. Development of a RSL model within a geographical information system (GIS) framework allowed for the prediction of RSL over the last ~12 ka at locations around the coast of Fife. Using the created prediction surfaces, palaeo-landscapes were reconstructed for key time periods with palaeoshorelines at 3, 6, 9 and 12 ka. The RSL surfaces show a complex history of fluctuating sea level within the last 12 ka. The models were tested with sedimentological and geophysical field data at the site of Largo Bay. A chronometric framework was measured using optically stimulated luminescence (OSL) and radiocarbon (RC) dating at the site with an age range from ~29 ka to < 300 years. A close correlation with the modelled RSL was obtained. Geospatial analysis at the field site of Kincraig Point, utilising LiDAR and unmanned aerial vehicle (UAV) survey, identified five prominent raised rock platforms (P1-P5) with minimum elevations of -1.1, 4.9, 12.3, 23.7 and 35.9 mOD respectively. Platforms P1 and P2 have been inundated and potentially eroded within the last 12 ka. The correlation between field data and modelled data gives a high level of confidence that this combined approach to study of coastal change could be followed in other similar field locations and further that where field evidence of past coastal change is not present the models may be relied upon to give a good indication of past sea level positions and future trends.

Published

2022

13. Palaeoenvironmental reconstruction of Loch Duart (NW Scotland, UK) since the Last Glacial Maximum: implications from a multiproxy approach.

Author

TAYLOR, JENNIFER, SELBY, DAVID, LLOYD, JEREMY M., PODRECCA, LUCA, MASTERSON, ANDREW L., SAGEMAN, BRADLEY B., and SZIDAT, SÖNKE

Subjects

GLACIAL isostasy, LAST Glacial Maximum, OSMIUM isotopes, SALT marshes, X-ray fluorescence, SEA level, ICE sheets

Abstract

A sediment core from the salt marsh fringing Loch Duart, NW Scotland, UK, containing Lateglacial to Holocene sediments, was analysed using a multi-element geochemical approach to elucidate the relative sea level (RSL) and palaeoenvironmental changes associated with the deglaciation of the British and Irish Ice Sheet. Elemental and isotopic measurements of rhenium, osmium, carbon and nitrogen, X-ray fluorescence scanning, radiocarbon dating, and foraminiferal analysis produced a suite of data that complements the existing biostratigraphic framework. This suite of bio-, litho- and chemostratigraphic analyses permits discussion of RSL changes that reflect the interplay between post-glacial eustatic rise and glacio-isostatic adjustment. The osmium-isotope (187Os/188Os) data, coupled with a new age-depth model, depict an RSL fall between 16.8 and 14.1 ka cal BP at an average rate of 2 mm a-1. Falling RSL culminates in basin isolation and is followed by subsequent marine inundation from 11.6 ka cal BP. This RSL record preserves the local interaction between glacial isostatic adjustment and glacio-eustatic sea-level change, a relationship that is reflected in the sediment's 187Os/188Os signature. This is the first known application of the osmium isotope system in an isolation basin that is shown to be a viable proxy for RSL change, a technique that could be applied to glacially influenced isolation basins globally. [ABSTRACT FROM AUTHOR]

Published

2024

14. Reconstructing anthropic coastal landscape of Campi Flegrei volcanic area (Southern Italy) during the Roman period from multi-technique surveys

Author

Gaia Mattei, Lucio Amato, Claudia Caporizzo, Aldo Cinque, Gerardo Pappone, Alessia Sorrentino, Paolo Stocchi, Salvatore Troisi, and Pietro P.C. Aucelli

Subjects

Coastal landscape evolution, relative sea level, urban geomorphology, archeological sea-level markers, vertical ground movements, geomorphological analysis, Maps, G3180-9980

Abstract

ABSTRACTCampi Flegrei is one of the widest and most dangerous active volcanic complexes in the Mediterranean basin, known to be affected by continuous and sudden vertical ground movements (bradyseismic crisis) that have characterized the post-calderic volcanic activity since the Late Pleistocene and particularly during the Roman period. Despite the intense volcano-tectonic processes, the area has been densely inhabited since the Greek-Roman as testified by several submerged archaeological remains here used as high-precision relative sea-level markers. By using a complex multi-technique approach made of direct, indirect morpho-acoustic and optical surveys, and stratigraphic analysis, we present a detailed reconstruction of the coastal landscape of Campi Flegrei and its surroundings between the Roman Late Republican and Early Imperial ages. The coastal scenario aims to facilitate the comprehension of how volcano-tectonic events influenced the evolution of this singular coastal landscape, and how these interfered with human activity in terms of damages and adaptation.

Published

2023

15. Sea-Level Evidence for a Significant Reduction of the Laurentide Ice Sheet in MIS 3, Georgia Bight, Southeastern United States.

Author

Garrison, Ervan G.

Subjects

*ICE sheets, *SEA level, *PALEOCLIMATOLOGY, *PLEISTOCENE Epoch, *SYNCHRONIC order

Abstract

Garrison, E.G., 2023. Sea-level evidence for a significant reduction of the Laurentide Ice Sheet in MIS 3, Georgia Bight, southeastern United States. Journal of Coastal Research, 39(5), 836–847. Charlotte (North Carolina), ISSN 0749-0208. Recently, a hypothesis was proposed for a significant reduction of the central region of the Laurentide Ice Sheet (LIS) from ca. 52 to 40 kYBP during marine isotope stage (MIS) 3. Corroborative evidence for this hypothesized reduction exists in the form of ages for higher sea levels in the Georgia Bight of the U.S. continental shelf, which have been dated to early MIS 3 using a variety of methods. These sea-level ages (15) were documented during ongoing continental shelf research conducted over the past two decades in the Georgia Bight and support the idea of a much-reduced LIS in early MIS 3 in synchrony with previously published geological and age data from the Hudson Bay Lowland of central Canada. The agreement between these data sets supports the need for a careful reassessment of late Pleistocene climate variability, ice retreat/advance, and a coupled sea-level response to both. This report reviews present and past research on paleoclimate in MIS 3 in order to place the age data in a broader perspective of sea-level and ice-volume drivers. Glacio-isostatic adjustment is also addressed as an important factor in near- and intermediate-field mantle response along the Atlantic coast of the United States to LIS ice loading during MIS 3. [ABSTRACT FROM AUTHOR]

Published

2023

16. The Lambousa (Cyprus) Fishtank in a Quasi-Stable Coastal Area of the Eastern Mediterranean, a Notable Marker for Testing GIA Models.

Author

Antonioli, Fabrizio, Furlani, Stefano, Spada, Giorgio, Melini, Daniele, and Zomeni, Zomenia

Subjects

*GLACIAL isostasy, *BEDROCK, *BASES (Architecture), *QUASI-biennial oscillation (Meteorology)

Abstract

The Lambousa fishtank, an archaeological structure entirely carved in bedrock, can be easily recognized and measured in the plan on Google Earth (GE). We surveyed in situ this excellent archaeological marker in 2016 through direct measurements using traditional field instruments, such as metric tapes and invar rods, and terrestrial photogrammetry using Structure from Motion (SfM) methods. The bedrock on which the fishtank is founded is an Upper Pleistocene calcarenite also containing Persistrombus latus. The age of the studied fishtank has not been previously published, but on the basis of the construction technique and the interpretation provided by Archaelogist and references therein, we believe that it was built in the period between 2.1 and 1.8 ka BP, like similar fishtanks in the Mediterranean area. Architectural structures consist of evident foot walks (Crepido), a stone base, and a tunnel that allows for seawater exchange during high tides. The tunnel is at the same altitude as the Crepido, which lies around the fishtank. These architectural components allow us to evaluate the palaeo-sea level with significant precision during the time when the fishtank was active. MIS 5.5 coastal deposits that outcrop in the study area are located at a maximum altitude of a few meters, while the inner margin of the MIS 5.5 terrace allows us to hypothesize "quasi-tectonic stability". We have also obtained several predictions of the contribution from Glacial Isostatic Adjustment (GIA) to relative sea level at Lambousa for the past 3.5 kyr, according to models ICE-6G (VM5a), ICE-7G (VM7), and one of the GIA models by the Australian National University ANU) Research group. [ABSTRACT FROM AUTHOR]

Published

2023

17. Relative sea-level changes induced by glacial isostatic adjustment and sediment loads in the Beibu Gulf, South China Sea

Author

Andreas Groh and Jan Harff

Subjects

Relative sea level, Solid Earth deformation, Sediment loading, Glacial isostasy, Sea-level equation, Oceanography, GC1-1581

Abstract

We modelled changes in relative sea level (RSL) in the Beibu Gulf region, South China Sea, caused by the melting of the Pleistocene ice sheets, i.e., glacial isostatic adjustment (GIA). Both the temporal evolution of RSL between the last glacial maximum and present day as well as present-day rates were derived. The interplay of changing ocean water volume, gravitational induced water redistribution and solid Earth deformations due to the varying surface loads is accounted for by means of the sea-level equation. The modelled RSL curves for the Beibu Gulf region reveal the shape typical for regions far away from the former centres of glaciation, exhibiting a pronounced Holocene sea-level highstand between 4 and 5 kyr before the present. A general good agreement was found between modelled and empirical RSL curves, although differences in the timing and magnitude of the highstand were revealed. In addition to GIA-induced RSL, we also modelled the effect of RSL variations due to sediment accumulation during marine isotopic stages MIS 4 to MIS 1 descending mainly from Hainan Island, but also other terrestrial sources from the Chinese (and Vietnamese) mainland. Estimates for the sediment loading originate from seismic surveys and dated sediment cores. We found that RSL changes caused by sediment loading are at least three orders of magnitude smaller than those induced by GIA. The present-day rates of both RSL effects are too small to be detectable by geodetic observations and cannot be discriminated from prominent tectonic signals.

Published

2023

18. Coastal vegetation dynamics in response to climatic and relative sea level changes in Mahanadi River delta, NE coast of India.

Author

Samal, Pujarini, Singarasubramanian, S. R., Srivastava, Jyoti, Jena, Partha Sarathi, Shivam, Ajay, and Bhushan, Ravi

Subjects

*RELATIVE sea level change, *MANGROVE plants, *FLOODPLAINS, *TIDAL flats, *VEGETATION dynamics, *SEA level, *COASTS

Abstract

This research assesses the impacts of climate change and relative sea level (RSL) fluctuations on coastal vegetation during the past 2000 years along the Mahanadi River delta, northeast coast of India. Sediment samples of a 2.6 m trench from Barhatubi area located in the lower flood plain of Mahanadi River delta were studied for sedimentological and pollen analysis. Mangrove succession can be divided into three zones: (1) Freshwater marsh (∼1980–1420 cal yr BP); (2) Tidal flat (∼1420–770 cal yr BP) and (3) Landward mangrove margin (∼770 cal yr BP-Present). A transgressive shift from floodplain freshwater marsh to a tidal flat is recorded between ∼1980–1420 cal yr BP which is evidenced by upland tree taxa, Poaceae, pteridophyte and fungal spores along with low percentage of mangroves such as Avicennia, Sonneratia and Rhizophora representing the landward edge of the tidal region. Dominance of Sonneratia and a decline in terrestrial taxa reflects a rise in the relative sea level around ∼1420 cal yr BP with less freshwater input from land suggesting a weakened monsoon condition. After ∼770 cal yr BP, an overall regressive phase with small cycles of relative sea level rise/fall has been observed due to the dominance of salt tolerant Avicennia along with Rhizophora, Excoecaria agallocha and Aegialitis rotundifolia alternating with Sonneratia and other marine palynomorphs. [ABSTRACT FROM AUTHOR]

Published

2023

19. Holocene relative sea-level changes in northwest Ireland: An empirical test for glacial isostatic adjustment models.

Author

Kirby, Jason R, Garrett, Ed, and Gehrels, W Roland

Subjects

*GLACIAL isostasy, *SEA ice, *ABSOLUTE sea level change, *HOLOCENE Epoch, *ICE sheets

Abstract

The late-Quaternary relative sea-level (RSL) history of Ireland is complex, positioned at the margins of the former British-Irish Ice Sheet, and subject to the influence of ice unloading and forebulge collapse. Geophysical models of post-glacial isostatic adjustment (GIA) provide estimates of the pattern of RSL change since deglaciation which may be tested and validated with empirical data from proxy records. For the region of northwest Ireland, there is a paucity of high-quality RSL data and, therefore, equivocal evidence to support the GIA models that predict a mid to Late-Holocene RSL highstand of between +0.5 and +2 m above present. This study aims to investigate this model-data discrepancy by reconstructing RSL change from a near continuous salt-marsh sequence at Bracky Bridge, Donegal, spanning the last ca. 2500 years. We develop a transfer function model to reconstruct the vertical position of sea level using a regional diatom training set to quantify the indicative meaning and predict the palaeomarsh elevation of the core samples. A chronology is provided by a combination of 14C and 210Pb data, with sample specific ages derived from an age-depth model using a Bayesian framework. Our reconstruction shows ca. 2 m of relative sea-level rise in the past 2500 years. This is not compatible with some previously published sea-level index points from the region, which we re-interpret as freshwater/terrestrial limiting data. These results do not provide any evidence to support a Mid-Holocene RSL highstand above present sea level. Whilst none of the available GIA models replicate the timing and magnitude of the Late-Holocene RSL rise in our reconstruction, those which incorporate a thick and extensive British-Irish Sea Ice Sheet provide the best fit. [ABSTRACT FROM AUTHOR]

Published

2023

20. Reconstruction of the palaeo‐sea level of Britain and Ireland arising from empirical constraints of ice extent: implications for regional sea level forecasts and North American ice sheet volume.

Author

Bradley, SARAH L., Ely, JEREMY C., Clark, CHRIS D., Edwards, ROBIN J., and Shennan, Ian

Subjects

ICE sheets, ICE, VERTICAL motion, GLACIATION, FORECASTING

Abstract

Reconstructions of palaeo‐sea level are vital for predicting future sea level change and constraining palaeo‐ice sheet reconstructions, as well as being useful for a wide array of applications across Quaternary Science. Previous reconstructions of the palaeo‐sea level of Britain and Ireland relied on a circular tuning of glacio‐isostatic models: input ice sheet thicknesses and extents were iteratively altered to fit relative sea level data. Here we break that circularity by utilizing new data from the BRITICE‐CHRONO project, which constrains the position of the British–Irish ice sheet margin through time, and we compare derived glacio‐isostatic modelling to the rich relative sea level record. We test a combination of plausible ice thickness scenarios which account for the uncertainty of ice margin position over the North Sea, demonstrating the region where regional sea level data could distinguish between different glaciation scenarios. Our optimal reconstruction is then combined with several global‐scale reconstructions. As the signal of the British–Irish Ice Sheet is constrained, we demonstrate how the relative sea level record of Britain and Ireland can be used to test reconstructions of far‐field ice sheets (e.g. Antarctica, Eurasia and the Laurentide). The derived palaeo‐topography data are likely to be useful for multiple disciplines. Finally, our improved method of sea level reconstruction impacts predictions of contemporary vertical land motion. [ABSTRACT FROM AUTHOR]

Published

2023

21. Morphodynamics and Morphotectonics of the Varzuga River Estuary Area in the Late Glacial and Holocene (Terskiy Coast of the White Sea).

Author

Repkina, T. Yu., Zaretskaya, N. E., Shvarev, S. V., Lugovoy, N. N., Alyautdinov, A. R., and Shilova, O. S.

Subjects

*RELATIVE sea level change, *HOLOCENE Epoch, *ESTUARIES, *FOSSIL diatoms, *MORPHOTECTONICS, *COASTAL development, *EOLIAN processes

Abstract

The late-glacial and post-glacial history of the development of the White Sea coastal zone in the area of the Varzuga River estuary is considered as a result of the interaction of endogenous and exogenous factors of coastal morpholithogenesis. Based on the geomorphological investigations, study of Holocene deposits by lithostratigraphic, diatom, and radiocarbon analyses, as well as collection and analysis of published data, new results on the development of relief of the area for ~13 cal ka have been obtained. The features of the regional hierarchical morphostructure and local post-glacial tectonics of the territory—the spatial relationships of blocks and the rate of vertical movements—were determined. The superimposed linear Nizhnevarzugskaya Depression, which determined the configuration of the Varzuga River estuary in the late-glacial and post-glacial periods, was identified for the first time. The influence of the spatial ratio of blocks and differentiated post-glacial uplift on the coastal morpholithogenesis was established. The course of changes in the relative sea level (RSL), development conditions, and morphodynamics of the open coast and the estuary of the Varzuga River were reconstructed, and new data on the rhythms of coastal geomorphologic processes (coastal, estuarine, and eolian) were obtained. Three stages of development of the coastal zone were identified, which corresponded to regional rhythms of changes in the relative sea level and climate. They are (I) the Late Glacial transgression and Early Holocene regression (~12 to 9.8 cal ka BP), (II) the Middle Holocene Tapes transgression (7.8 to 4.9 cal ka BP), and (III) the Late Holocene regression (after 4.9 cal ka BP). The upper marine boundary of the Late Glacial transgression was traced at heights of ~54 or 55 m to the west of the Nizhnevarzugskaya depression, 39 or 40 m to its east, and 22 to 25 m a.s.l in the depression. The shores of lower morphostructural blocks up to ~10.2–9.8 cal ka BP were probably blocked by dead ice. During the Tapes transgression, the RSL reached a maximum (~20 m a.s.l.) of ~7.8 to 7.6 cal ka BP and slowly decreased to ~15 m a.s.l. in the interval of ~7.6 to 4.9 cal ka BP. The prevailing directions of sediment fluxes and the approaches of winds and waves became similar to those of today and have not changed significantly since that time. The main source of the coastal sediment supply was the erosion of glaciofluvial sediments and the input of sands from the seabed. In the interval of ~4.9 to 1.7 cal ka BP, the RSL decreased to ~5 m a.s.l. and then slowly approached the modern one. Activation of coastal (~5–1 cal ka BP) and channel (~4.9–4.7 to 3.6–3.4 cal ka BP) processes contributed to rapid filling of the estuary and formation of accumulative sand terraces on exposed banks. The sediment runoff of the Varzuga River became the main source of coastal sediment supply. After ~2.3 cal ka BP, several stages in the intensification of eolian processes were revealed. [ABSTRACT FROM AUTHOR]

Published

2023

22. Factors Contributing to the Long-Term Sea Level Trends in the Iberian Peninsula and the Balearic and Canary Islands.

Author

Vargas-Yáñez, Manuel, Tel, Elena, Marcos, Marta, Moya, Francina, Ballesteros, Enrique, Alonso, Cristina, and García-Martínez, M. Carmen

Subjects

*SEA level, *RELATIVE sea level change, *TIME series analysis, *PENINSULAS, ANTARCTIC glaciers

Abstract

We present an attempt to estimate the long-term changes in Relative Sea Level (RSL), in addition to the different factors contributing to such trends on a local and regional scale, using a statistical linear model. The time series analysis corresponded to 17 tide-gauges, grouped in three different areas: the northern and western Atlantic coasts of the Iberian Peninsula, the Canary Islands, and the southern and eastern coasts of the Iberian Peninsula and Balearic Islands. The analysis was performed for two periods: 1948–2019, using tide-gauge data; and 1993–2019, using both tide-gauge and altimetry data for comparison. The trends for the period 1948–2019 ranged between 1.09 ± 0.14 (Canary Islands) and 2.05 ± 0.21 mm/yr for the northern and western Atlantic Iberian Peninsula. Altimetry data during the period 1993–2019 yielded quite homogeneous results for all the locations and regions, ranging between 2.7 ± 0.4 and 3.0 ± 0.3 mm/yr. In contrast, the results obtained from tide-gauge data for this recent period showed a large dispersion, very likely due to local effects, or perhaps even to levelling or instrumental errors. Nevertheless, when the results were averaged for each area, the observed trends were comparable to the altimetry results, with values of 2.3 ± 0.8, 2.7 ± 0.5, and 2.8 ± 0.8 mm/yr for the three regions of study. A stepwise forward linear regression was used to relate the observed RSL variability to the atmospheric forcing and the thermosteric and halosteric components of the sea level. Surprisingly, the thermosteric and halosteric contributions were not significantly correlated to the observed RSL in many cases; consequently, the steric, the total addition of mass, the mass of salt, and the freshwater contributions to the observed sea level trends could not be reliably estimated. This result seems to have been the consequence of the scarcity of temperature and salinity data; this hypothesis was confirmed, with the exception of the tide-gauge data for L'Estartit. This location is close to a well sampled region. In this case, the atmospheric variables and the thermosteric and halosteric terms accounted for 80% of the observed RSL variance, and the contributions of these terms could be estimated. The freshwater contribution for this location was between 1.3 and 1.4 mm/yr, consistent with recent estimations of the contributions of glaciers and Greenland and Antarctica Ice Sheets. These results highlight the importance of monitoring programs and routine sampling for the determination of the different factors contributing to the sea level variability. [ABSTRACT FROM AUTHOR]

Published

2023

23. Two Centuries of Relative Sea-Level Rise in Dublin, Ireland, Reconstructed by Geological Tide Gauge.

Author

Roseby, Zoë A., Southall, Katherine, Alvarez-Agoues, Fermin, Cahill, Niamh, McCarthy, Gerard D., and Edwards, Robin J.

Subjects

ABSOLUTE sea level change, SEA level, SALT marshes, PUBLIC records

Abstract

We demonstrate the utility and reproducibility of the saltmarsh foraminifera-based 'geological tide gauge' (GTG) approach by developing two independent records of relative sea-level (RSL) change for Dublin, Ireland. Our records, recovered from two different saltmarshes, indicate that RSL rose at a century-scale rate of 1.5 ± 0.9 mm yr-1 over the last 200 years. This compares favourably with the shorter, but more precise, mean sea level (MSL) record from the Dublin Port tide gauge, which indicates long-term (1953-2016 CE) rise at a rate of 1.1 ± 0.5 mm yr-1. When corrected for the influence of glacio-isostatic adjustment our saltmarsh-based reconstruction suggests sea levels in Dublin rose at a rate of 1.6 ± 0.9 mm yr-1 since the start of the 19th century, which is in excellent agreement with the regional value of MSL rise over the same period (1.5 ± 0.2 mm yr-1) calculated from a compilation of tide gauge records around Britain. Whilst our record has decadal-scale temporal resolution (1 sample every 8 years), we are currently unable to resolve multidecadal-scale variations in the rate of sea-level rise which are masked by the size of the vertical uncertainties (± 20 cm) associated with our reconstruction of palaeomarsh-surface elevation. We discuss the challenges of applying the GTG approach in the typically minerogenic saltmarshes of the NE Atlantic margin and outline potential solutions that would facilitate the production of Common Era RSL reconstructions in the region. [ABSTRACT FROM AUTHOR]

Published

2023

24. Reconstructing anthropic coastal landscape of Campi Flegrei volcanic area (Southern Italy) during the Roman period from multi-technique surveys.

Author

Mattei, Gaia, Amato, Lucio, Caporizzo, Claudia, Cinque, Aldo, Pappone, Gerardo, Sorrentino, Alessia, Stocchi, Paolo, Troisi, Salvatore, and Aucelli, Pietro P.C.

Subjects

LANDSCAPES, ROMANS, PLEISTOCENE Epoch, COASTS

Abstract

Campi Flegrei is one of the widest and most dangerous active volcanic complexes in the Mediterranean basin, known to be affected by continuous and sudden vertical ground movements (bradyseismic crisis) that have characterized the post-calderic volcanic activity since the Late Pleistocene and particularly during the Roman period. Despite the intense volcano-tectonic processes, the area has been densely inhabited since the Greek-Roman as testified by several submerged archaeological remains here used as high-precision relative sea-level markers. By using a complex multi-technique approach made of direct, indirect morpho-acoustic and optical surveys, and stratigraphic analysis, we present a detailed reconstruction of the coastal landscape of Campi Flegrei and its surroundings between the Roman Late Republican and Early Imperial ages. The coastal scenario aims to facilitate the comprehension of how volcano-tectonic events influenced the evolution of this singular coastal landscape, and how these interfered with human activity in terms of damages and adaptation. [ABSTRACT FROM AUTHOR]

Published

2023

25. Missing sea-level rise in southeast Greenland during and since the Little Ice Age.

Author

Woodroffe, Sarah A., Wake, Leanne M., Kjeldsen, Kristian K., Barlow, Natasha L. M., Long, Antony J., and Kjær, Kurt H.

Abstract

The Greenland Ice Sheet has been losing mass at an accelerating rate over the past two decades. Understanding ice mass and glacier changes during the preceding several hundred years, prior to geodetic measurements, is more difficult because evidence of past ice extent in many places was later overridden. Saltmarshes provide the only continuous records of Relative Sea Level (RSL) from close to the Greenland Ice Sheet that span the period of time during and since the Little Ice Age (LIA) and can be used to reconstruct ice mass gain and loss over recent centuries. Saltmarsh sediments collected at the mouth of Dronning Marie Dal, close to the Greenland Ice Sheet margin in southeast Greenland, record RSL changes over the past c. 300 years through changing sediment and diatom stratigraphy. These RSL changes record a combination of processes that are dominated by local/regional changes in Greenland Ice Sheet mass balance during this critical period that spans the maximum of the LIA and 20th Century warming. In the early part of the record (1725-1762 CE) the rate of RSL rise is higher than reconstructed from the closest isolation basin at Timmiarmiut, but between 1762-1880 CE the RSL rate is within the error range of rate of RSL change recorded in the isolation basin. RSL begins to slowly fall around 1880 CE and then accelerates since the 1990s, with a total amount of RSL fall of 0.08 ±0.1 m in the last 140 years. Modelled RSL, which takes into account contributions from post-LIA Greenland Ice Sheet Glacio-isostatic Adjustment (GIA), ongoing deglacial GIA, the global non35 ice sheet glacial melt fingerprint, contributions from thermosteric effects, the Antarctic mass loss sea36 level fingerprint and terrestrial water storage, over-predicts the amount of RSL fall since the end of the LIA by at least 0.5 m. The GIA signal caused by post-LIA Greenland Ice Sheet mass loss is by far the largest contributor to this modelled RSL, and error in its calculation can have a large impact on RSL predictions at Dronning Marie Dal. We cannot reconcile the modelled RSL and the saltmarsh observations, even when moving the termination of the LIA to 1800 CE and reducing the post-LIA Greenland mass loss signal by 30 %, and a 'budget residual' of +~2.5 mm/yr since the end of the LIA remains unexplained. [ABSTRACT FROM AUTHOR]

Published

2022

26. Time and Tide Wait for No Man

Author

Kemp, Andrew C., Horton, Benjamin P., Dodson, John, Series Editor, and Culver, Stephen J., editor

Published

2021

27. Coastal Wetlands of the Bahía Blanca Estuary: Landscape Structure and Plant Associations

Author

Pratolongo, Paula Daniela, Funk, Flavia, Piovan, María Julia, Celleri, Carla, Negrín, Vanesa L., Fiori, Sandra M., editor, and Pratolongo, Paula D., editor

Published

2021

28. System responses to Holocene relative sea-level rise and sediment supply in a macrotidal estuary.

Author

Best, Louise, Kirby, Jason R, and Selby, Katherine

Subjects

*ABSOLUTE sea level change, *HOLOCENE Epoch, *COASTAL zone management, *SEDIMENTS, *ESTUARIES, *WETLANDS

Abstract

Estuaries are at the interface of marine and terrestrial systems and as such, are subject to environmental change arising from multiple driving mechanisms, with the interplay between the dominant controls varying spatially and temporally. Relative sea-level (RSL) change and sediment supply can play a significant role in driving environmental change. This study examines the relative influence of these drivers during the Holocene. Biostratigraphic records and RSL data are presented from two locations in the inner portion and upper reaches of the macrotidal Humber Estuary, eastern England. The results provide a new terrestrial limiting point and six sea-level index points, two of which at c. 1500 cal years BP provide the youngest sea-level index points for the inner estuary. An early-mid Holocene tidal lagoon system, that lacks modern equivalent, is recorded at one site. The results indicate a shift in the dominance of RSL rise driving the early Holocene creation of wetlands, to sediment supply dominating changes in the mid-late Holocene against the backdrop of a reduced rate of RSL rise, with a submergence of wetlands evident after c. 4000 cal years BP. The persistence of fen carr evident between c. 6800 and 5500 cal years BP suggests stability and resilience of the peatland system to continuing RSL rise. As rates of contemporary RSL rise increase, combined with climate and human impacts on the landscape, the drivers of change in these type of estuary systems will shift, with the records providing analogues of potential system responses that can help inform coastal management strategies. [ABSTRACT FROM AUTHOR]

Published

2022

29. Reproducibility and variability of earthquake subsidence estimates from saltmarshes of a Cascadia estuary.

Author

Padgett, Jason S., Engelhart, Simon E., Kelsey, Harvey M., Witter, Robert C., and Cahill, Niamh

Subjects

LAND subsidence, SALT marshes, MARSHES, EARTHQUAKES, THRUST faults (Geology), SEQUENCE stratigraphy, ESTUARIES

Abstract

We examine fossil foraminiferal assemblages from 20 sediment cores to assess sudden relative sea‐level (RSL) changes across three mud‐over‐peat contacts at three salt marshes in northern Humboldt Bay, California (~44.8°N, −124.2°W). We use a validated foraminiferal‐based Bayesian transfer function to evaluate the variability of subsidence stratigraphy at a range of 30‐6000 m across an estuary. We use the consistency in RSL reconstructions to support estimates of coseismic subsidence from megathrust earthquakes. To assess the variability of subsidence estimates, we analyzed: nine examples of the 1700 CE earthquake (average of 0.64 ±0.14 m subsidence; range of 0.24 ± 0.27 to 1.00 ± 0.44 m), five examples of the ca. 875 cal a BP earthquake (average of 0.43 ±0.16 m; range of 0.41 ± 0.36 to 0.48 ± 0.39 m), and six examples of the ca. 1120 cal a BP earthquake (average of 0.70±0.18 m; range of 0.47 ± 0.36 to 0.80 ± 0.49 m). Our subsidence estimates suggest ~±0.3 m of within‐site (intrasite) variability, which is consistent with previous research. We also identify inconsistencies between sites (intersite) at northern Humboldt Bay greater than one‐sigma uncertainties, driven by variable foraminiferal assemblages in the mud overlying the 1700 CE subsidence contact. Therefore, we recommend at least two quantitative microfossil reconstructions across the same stratigraphic sequence from different marsh sites within an estuary to account for estimate variability and provide increased confidence in vertical coseismic deformation estimates. Our results have broad implications for quantitative, microfossil‐based reconstructions of coseismic subsidence at temperate coastlines globally. [ABSTRACT FROM AUTHOR]

Published

2022

30. Ancestral sea gardens supported human settlements for at least 3,800 years on the Northwest Coast of North America

Author

Keith Holmes, Dana Lepofsky, Nicole F. Smith, Travis D. Crowell, and Anne K. Salomon

Subjects

clam gardens, Northwest coast, traditional marine management, GIS, relative sea level, dating methods, Science

Abstract

The relationships between clam gardens and human settlement throughout the millennia reflects the inseparable links among human demographics, marine management systems, and the social-ecological contexts in which they are embedded. However, it can be difficult to assign causation between the initiation and development of eco-cultural innovations like clam gardens and the proliferation of human societies due to the temporal uncertainties associated with both. Here, we bring together data on the shape of the local relative sea level curve, clam garden wall elevation as determined by GIS and drone imagery, radiocarbon dates of clam garden walls, and ecological and archaeological field observations, to assign proxy ages for the clam garden walls of different tidal heights in Kanish and Waiatt Bay on northern Quadra Island, British Columbia, Canada. These data, combined with our mapping and dating of settlement sites, demonstrate a temporal relationship between clam garden building effort and the densification of human settlements. In Kanish Bay, where we have high resolution data, clam gardens begin to be constructed in significant numbers at least 3,800 years ago; this corresponds to a time of increased establishment of large human settlements. The corresponding increase in settlements and clam gardens reflects both the need to increase sustainable food production and the larger number of people who could sustain the ecological and social foundations of the production system. The correlation between number and area of clam gardens and the number of new, large settlements continues until ∼2000 years ago. After this time, existing settlements increase in size, but no additional large settlements were established. New clam gardens continue to be built but in seemingly lower numbers. This shift in settlements and clam gardens suggest that a threshold in social-ecological carrying capacity may have been reached in this land- and seascape. In the last few centuries, there is a dramatic decline in the number of clam gardens and evidence of human settlement, corresponding to social and ecological changes associated with European colonization. Taken together, these data demonstrate the strong linkages among Indigenous peoples, their lands and seas, and resilient food systems over the millennia.

Published

2022

31. Two Centuries of Relative Sea-Level Rise in Dublin, Ireland, Reconstructed by Geological Tide Gauge

Author

Zoë A. Roseby, Katherine Southall, Fermin Alvarez-Agoues, Niamh Cahill, Gerard D. McCarthy, and Robin J. Edwards

Subjects

saltmarsh, foraminifera, geological tide gauge, relative sea level, ireland, Human evolution, GN281-289, Prehistoric archaeology, GN700-890, Paleontology, QE701-760

Abstract

We demonstrate the utility and reproducibility of the saltmarsh foraminifera-based ‘geological tide gauge’ (GTG) approach by developing two independent records of relative sea-level (RSL) change for Dublin, Ireland. Our records, recovered from two different saltmarshes, indicate that RSL rose at a century-scale rate of 1.5 ± 0.9 mm yr–1 over the last 200 years. This compares favourably with the shorter, but more precise, mean sea level (MSL) record from the Dublin Port tide gauge, which indicates long-term (1953–2016 CE) rise at a rate of 1.1 ± 0.5 mm yr–1. When corrected for the influence of glacio-isostatic adjustment our saltmarsh-based reconstruction suggests sea levels in Dublin rose at a rate of 1.6 ± 0.9 mm yr–1 since the start of the 19th century, which is in excellent agreement with the regional value of MSL rise over the same period (1.5 ± 0.2 mm yr–1) calculated from a compilation of tide gauge records around Britain. Whilst our record has decadal-scale temporal resolution (1 sample every 8 years), we are currently unable to resolve multidecadal-scale variations in the rate of sea-level rise which are masked by the size of the vertical uncertainties (± 20 cm) associated with our reconstruction of palaeomarsh-surface elevation. We discuss the challenges of applying the GTG approach in the typically minerogenic saltmarshes of the NE Atlantic margin and outline potential solutions that would facilitate the production of Common Era RSL reconstructions in the region.

Published

2023

32. Relative sea-level sensitivity in the Eurasian region to Earth and ice-sheet model uncertainty during the Last Interglacial.

Author

Pollard, Oliver G., Barlow, Natasha L.M., Gregoire, Lauren J., and Gomez, Natalya

Subjects

*GLACIAL isostasy, *ICE sheet thawing, *ICE sheets, *STRAITS, *GLACIAL melting

Abstract

Fingerprinting the source and rate of the melt of polar ice sheets during the Last Interglacial is a key research challenge. This is reliant on high-quality relative sea-level constraints, and the correction of this data for the effects of glacial isostatic adjustment driven by ice sheet cover changes prior to the interglacial. However, both the spatial and temporal evolution of past ice sheets and the Earth's rheological structure that serve as inputs to glacial isostatic adjustment predictions are significantly uncertain. This study sets out to determine the relative influence of each of these inputs on modelled values of Last Interglacial relative sea levels and how this influence varies spatially. To answer this question, we use a palaeo ice-sheet model and a gravitationally consistent glacial isostatic adjustment model. We develop new numerical tools to generate plausible ice-sheet extent and histories, quantify relative sea-level uncertainty, and perform a Sobol sensitivity analysis facilitated by the use of Gaussian process emulation. We find that Earth model parameters are the dominant contributors to relative sea-level uncertainty in most Eurasian regions, but that relative sea-level values in the Barents-Kara Sea are most influenced by ice-sheet loading, while the timing of the deglaciation has the greatest impact in the Baltic Sea. Our results show that the magnitude and rate of relative sea-level change is relatively insensitive to the specific timing of ice-sheet retreat, as well as the configuration of the far-field North American ice sheet. Overall, our work suggests that the coastlines of the southern North Sea and the English Channel are least influenced by relative sea-level uncertainty and are the most suitable for future data collection studies aiming to limit the influence of glacial isostatic adjustment. [ABSTRACT FROM AUTHOR]

Published

2024

33. Holocene to present-day coastal landscapes of Bar al Hikman (Oman): Neolithic waypoints on the shores of the Arabian Sea.

Author

Teillet, Thomas, Bois, Perrine, Homewood, Peter, Mettraux, Monique, Charpentier, Vincent, Melini, Daniele, Spada, Giorgio, Petrovic, Alexander, Khanna, Pankaj, and Vahrenkamp, Volker

Subjects

*COASTAL changes, *OCEAN temperature, *MARITIME history, *DIGITAL elevation models, *REMOTE-sensing images, *GEOMORPHOLOGY

Abstract

Dramatic climatic and environmental changes over the last 12,000 years have significantly impacted Arabian coastal stratigraphy and human populations. The Bar Al Hikman peninsula (BAH), the largest low-lying area (1000 km2) along the Arabian Sea coast of Oman is a monsoon storm-dominated carbonate-evaporite system, where late Neolithic artifacts suggest human presence from at least 5.75–5.05 ka before the present (BP). Despite its archaeological significance at the crossroads of important Neolithic coastal sites in Dhofar, Masirah, and Ja'alan coast, paleoenvironmental interpretation, timing, and expression of relative sea level (RSL) changes in this coastal area remain poorly understood. Fortunately, the extensive size and arid climate of the area have preserved carbonate-dominated Mid-Late Holocene coastal geomorphologies exceptionally well, making this area an excellent geological archive to study past coastal environments, thereby understanding how environmental changes at BAH influenced Neolithic human mobility and settlement patterns. This study reconstructs the paleoenvironment of BAH over the last 12,000 years using a combination of field and remote sensing techniques, including satellite imagery, digital elevation models, bathymetric data, GIA modeling, and Sea Level Index Points to trace RSL history. The Holocene transgression began flooding the extensive continental shelf offshore BAH around 10 ka BP, progressively separating Masirah from the mainland through channel formation between 9.5 and 8.0 ka BP. It then inundated the present-day BAH peninsula around 7.7 ka BP, reaching a highstand of 2.5–3.2 m above present sea level by 6.0 ka BP (Mid-Holocene Highstand; MHHS), before gradually declining to the current level. Human presence documented at BAH (5.75–5.05 ka BP) coincides with the end of the mid-Holocene highstand, and the onset of the regression. This relative sea level history is contemporaneous to the aridification of Arabia, a period of transition from mangrove-dominated intertidal settings to coral reef and carbonate coastal barriers. The disappearance of mangrove-like gastropods around 5.4 cal ka BP and the subsequent appearance of significant coral fragments in the sediment indicates a critical change in terms of environmental settings with less nutrients and a warmer sea surface temperature). Comparing the findings at BAH to well-established nearby Neolithic sites on Masirah Island, the scarcity of prehistoric remains at BAH suggests that during the Mid-Holocene Highstand (MHHS), the small, rocky, paleo-low-lying islands at BAH may have served as waypoints and shelters between Masirah and the mainland. [Display omitted] • Holocene relative sea-level history and paleo-environmental reconstruction of the Peninsula of Bar Al Hikman, Arabian Sea coast, Oman. • Human presence in the area (5750–5050 cal BP) coincides with the end of the Mid-Holocene Highstand and the onset of Arabian Aridification. • Late Neolithic populations used small, rocky paleo-low-lying islands as waypoints and shelters between Masirah and the mainland. [ABSTRACT FROM AUTHOR]

Published

2024

34. An updated reconstruction of Campi Flegrei caldera (southern Italy) ground deformation history and its interaction with the human sphere since Roman time.

Author

Mattei, Gaia, Caporizzo, Claudia, Amato, Lucio, Cinque, Aldo, Pappone, Gerardo, and Aucelli, Pietro P.C.

Subjects

*GROUND motion, *SEA level, *OYSTER culture, *CALDERAS, *ARCHAEOLOGICAL excavations

Abstract

Since the 19th century, many scientists have tried to reconstruct the ground motions that occurred in the Campi Flegrei caldera, one of the most dangerous volcanos in the Mediterranean area. This study aims to assess the joint effects of vertical ground movements and anthropic forcing along the coasts of this volcanic area. A huge dataset of hundreds of archeo-stratigraphic boreholes was coupled with direct and indirect surveys of the main underwater archaeological sites scattered along the whole coastal sector and with the reinterpretation of bibliographic sources. Clear evidence of a differential volcano-tectonic behaviour (highlighted for the first time in this study) led us to divide the study area into three coastal stretches with homogeneous vertical ground movements. In each sector, a new relative sea-level (RSL) curve was reconstructed, by interpreting our stratigraphic and archaeological data in terms of SL markers covering a wider timespan compared to the previous studies, from the first Roman urbanization to the present day. The comparison between RSL curves and GIA models allowed estimating vertical ground movements (See Supplementary material 2) that occurred along the coast with decimetres accuracy. For each of the 5 recognized phase of uplift or subsidence, we also studied the subsequent effects in terms of coastal geomorphological change, and advantages or negative impacts on ancient human activities. We measured an overall subsiding trend that brought the RSL from −12 ± 1 m (4th century BC) to 7 ± 0.2 m during three different episodes between 5th and 15th centuries (1450–450 y BP) , which was interrupted by short-lived falls (less of 100 years) of RSL. During the phases of RSL fall and/or volcano-tectonic stability, detected for the first time in the eastern and western part of the caldera (1st-2nd century AD and 3rd-4th century AD), a basinward shift of the coastline created newly emerged land even at the base of the local sea cliffs, where shore platforms emerged, favouring intense phases of urbanization on them along the Baia – Miseno sector and at the footslope of Rione Terra. This trend also favoured the closure of the Lucrino lagoon with an extended spit bar during the 2nd century BC, allowing the establishment of a large oyster farming system belonging to Sergio Orata. On the contrary, the subsiding phases resulted in the flooding of coastal areas and anthropic structures such as villas, nymphaea and ports inducing the construction of coastal protection structures. In the extreme case of Portus Julius, subsidence led to the abandonment of the military port and its move to nearby Miseno. • Differential vertical ground movements in CF caldera during the last 2.4 ka. • Coastal changes due to the five reconstructed volcano-tectonics phases in 2.4 ka. • New relative sea level dataset of geological and geoarchaeological markers. • Statistical approach to the high-precision evaluation of historical VGM. [ABSTRACT FROM AUTHOR]

Published

2024

35. Millennia-Long Progradation Turned into Coastal Erosion at Järve Coast of the Baltic Sea.

Author

Luik, Katre, Suursaar, Ülo, Tõnisson, Hannes, Rivis, Reimo, Suuroja, Sten, and Vilumaa, Kadri

Subjects

*COASTAL changes, *BEACH erosion, *BEACH ridges, *LITTORAL drift, *SEA level

Abstract

Luik, K.; Suursaar, Ü.; Tõnisson, H.; Rivis, R.; Suuroja, S., and Vilumaa, K., 2024. Millennia-long progradation turned into coastal erosion at Järve coast of the Baltic Sea. In: Phillips, M.R.; Al-Naemi, S., and Duarte, C.M. (eds.), Coastlines under Global Change: Proceedings from the International Coastal Symposium (ICS) 2024 (Doha, Qatar). Journal of Coastal Research, Special Issue No. 113, pp. 235-239. Charlotte (North Carolina), ISSN 0749-0208. Throughout the Holocene, seacoasts of the Baltic Sea have experienced some profound changes and development shifts. The latest one, the turn of the uplift driven progradation into relative sea level (RSL) rise and associated coastal erosion, is studied at the south-facing Järve coast on Saaremaa Island, Estonia. Old cartographic and photographic material, results from coastal surveys (near-annual since the 1990s), LiDAR-based relief analysis, and met-ocean forcing data are used to reveal important turning points, driving mechanisms, and resulted effects in the coastal change. The RSL lowering, which has dominated on account of the geocentric land uplift component (∼2.2 mm/a) during most of the Late-Holocene, has turned into RSL rise in the 1930s–1940s. Over the past hundred years, sea level maxima from storms and their impacts have increased due to a combination of shifts in wind climate and sea-ice conditions. The duration of seasonal ice-cover at the Järve coast, as an average, has decreased from about 65 days to 25 days. As a result, the elevated Järve coastal barrier and scarped dune system, which build-up took 4000 years, is eroding now on its southern side. The recent change at Järve has been especially fast with the most notable coastal erosion events occurring during winter storms. The coastline has receded by around 50–80 m in the past 70 years, and the scarp and previously wide beach is losing sand through longshore sediment drift towards the east. [ABSTRACT FROM AUTHOR]

Published

2024

36. Elevation and age of a raised beach in the upper Gulf of Thailand, as evidence for regional sea level during the Late Holocene.

Author

Terry, James P., Goff, James, Jankaew, Kruawun, Lhosupasirirat, Kasidis, Li, Tanghua, Oalmann, Jeffrey, Oliver, Grahame J.H., and Parham, Peter R.

Subjects

*GLACIAL isostasy, *SEA level, *WINTER storms, *HOLOCENE Epoch, *MYLONITE, *TYPHOONS

Abstract

• Raised beach is preserved at 3.3–5.3 m amsl in the upper Gulf of Thailand. • C14 and OSL age-dating suggest formation between 3.5–4.0 ka BP. • Provides evidence for Late Holocene local relative sea level (RSL) position. • Extends understanding of geographical variations in RSL across Southeast Asia. Few constructional features of coastal geomorphology have been investigated at the northernmost extremity of the Gulf of Thailand (GoT), with a view to establishing the position (height) of local relative sea level (RSL) during the marine regression following the regional mid-Holocene highstand (MHH) that occurred at approximately 6.5 ka BP. Here, the work investigates a 2 m thick exposure of marine gravels on the coast of Ko Khang Khao islet in the eastern Bay of Bangkok. At an elevation of 3.3–5.3 m above modern sea level, the sequence is interpreted to represent a Holocene raised beach. The unlithified sediments comprise rounded quartz and mylonite pebbles and cobbles, oriented predominantly NE–SW, supported by fossiliferous sands that are rich in marine shells, coral fragments and occasional terrestrial gastropods. The juxtaposition of the marine and non-marine gastropoda of contemporaneous ages makes a compelling story for a coastal storm deposit, thrown up either by a winter monsoon storm, or by a palaeotyphoon that managed to penetrate the upper Gulf. Overlapping results of C14 and OSL age-dating of shell material and mineral sands suggest the raised (storm) beach formed between 3.5 and 4.0 ka BP, i.e. ∼ 2.5–3.0 ka after the MHH peak, at a height of ∼ 1.3–3.3 m above the local RSL position at that time (according to glacial isostatic adjustment modelling). Given the otherwise paucity of data from the upper GoT, the Ko Khang Khao raised beach provides new information that expands our current understanding of geographical variations in RSL across Southeast Asia during the Late Holocene. [ABSTRACT FROM AUTHOR]

Published

2024

37. Holocene Geomorphic Processes in Eastern Canada

Author

Slaymaker, Olav, Catto, Norm, Kovanen, Dori J., Migoń, Piotr, Series Editor, Slaymaker, Olav, editor, and Catto, Norm, editor

Published

2020

38. Landforms and Landscapes of the Magdalen Islands: The Role of Geology and Climate

Author

Hétu, Bernard, Rémillard, Audrey M., Bernatchez, Pascal, St-Onge, Guillaume, Migoń, Piotr, Series Editor, Slaymaker, Olav, editor, and Catto, Norm, editor

Published

2020

39. Isostatic Adjustment, Vertical Motion Rate Variation and Potential Detection of Past Abrupt Mass Unloading.

Author

Gargani, Julien

Subjects

*GLACIAL isostasy, *VERTICAL motion, *LOADING & unloading, *RELATIVE motion, *LAND subsidence

Abstract

Intraplate volcanic islands are often considered as stable relief with constant vertical motion and used for relative sea-level reconstruction. This study shows that large abrupt mass unloading causes non-negligible isostatic adjustment. The vertical motion that occurs after abrupt mass unloading is quantified using a modeling approach. We show that a giant landslide causes a coastline uplift of 80–110 m for an elastic thickness of 15 km < Te < 20 km in Tahiti. Theoretical cases also reveal that a coastal motion of 1 m occurs for an abrupt mass unloading involving a displaced volume of 0.2 km3 and influences relative sea-level reconstruction. In Tahiti, a change in the subsidence rate of 0.1 mm/yr (from 0.25 to 0.15 mm/year) occurred during the last 6 kyr and could be explained by an abrupt mass unloading involving a minimum volume of 0.2 km3, 6 ± 1 kyr ago. [ABSTRACT FROM AUTHOR]

Published

2022

40. Identifying Geographical Patterns of Transient Deformation in the Geological Sea Level Record.

Author

Simon, K. M., Riva, R. E. M., and Broerse, T.

Subjects

*GLACIAL isostasy, *ICE sheets, *SEA level

Abstract

In this study, we examine the effect of transient mantle creep on the prediction of glacial isostatic adjustment (GIA) signals. Specifically, we compare predictions of relative sea level (RSL) change from GIA from a set of Earth models in which transient creep parameters are varied in a simple Burgers model to a reference case with a Maxwell viscoelastic rheology. The model predictions are evaluated in two ways: first, relative to each other to quantify the effect of parameter variation, and second, for their ability to reproduce well‐constrained sea level records from selected locations. Both the resolution and geographic location of the RSL observations determine whether the data can distinguish between model cases. Model predictions are most sensitive to the inclusion of transient mantle deformation in regions that are near‐field and peripheral relative to former ice sheets. This sensitivity appears particularly true along the North American west coast in the region of the former Cordilleran Ice Sheet, which experienced rapid sea‐level fall following deglaciation between 14 and 12 kyr BP. Relative to the Maxwell case, Burgers models better reproduce this rapid phase of regional postglacial sea‐level fall. As well, computed goodness‐of‐fit values in this region show a clear preference for models where transient deformation is present in the whole or lower mantle, and for models where the rigidity of the Kelvin element is weakened relative to the rigidity of the Maxwell element. In contrast, model predictions of relative sea‐level change in the far‐field show weak sensitivity to the inclusion of transient deformation. Plain Language Summary: In this study, we compare glacial isostatic adjustment (GIA) model predictions using two different Earth model types: Maxwell and Burgers models. Maxwell models are commonly used in GIA studies and employ a time‐invariant (steady‐state) form of mantle creep. Burgers models, on the other hand, allow for time‐varying mantle deformation and include both steady‐state and transient components of mantle creep. To evaluate the models, the predictions from both model types are compared to high quality records of relative sea level (RSL) change over the last several thousand years. Burgers models that include transient (time‐varying) mantle deformation often fit the RSL data as well as, or better, than the Maxwell models. In particular, the fit between predictions and data is improved in regions that were beneath or near former ice sheets, for example, along the west coast of North America. This result suggests that transient mantle deformation should be considered an additional process of interest in GIA models, especially in regions near the former ice sheets. Key Points: We compare glacial isostatic adjustment (GIA) model predictions with Maxwell and Burgers rheologies to relative sea level dataModels with Burgers rheology can yield better fits to sea level data, particularly around the west coast of North AmericaTransient deformation should be another process of interest in GIA models, especially in the near‐field [ABSTRACT FROM AUTHOR]

Published

2022

41. Terrace Morpho-Sedimentary Sequences on the Sibari Plain (Calabria, Southern Italy): Implication for Sea Level and Tectonic Controls.

Author

Lucà, Federica, Brogno, Andrea, Tripodi, Vincenzo, and Robustelli, Gaetano

Subjects

*SEA level, *MORPHOTECTONICS, *TERRACING, *COASTAL sediments, *TOPOGRAPHIC maps, *PLAINS

Abstract

The Sibari Plain (northeastern Calabria) shows a well-developed stair of late Quaternary marine/coastal terraces resulting from the interaction between sea level fluctuations and tectonic uplift. This paper (i) provides a stratigraphic description of terraced deposits between the Raganello and Coscile rivers, (ii) assesses the relative controls of eustacy and uplift on the staircase formation, and (iii) unravels the Quaternary morphosedimentary evolution of the study area. A geomorphological approach was coupled with stratigraphic field surveys. Photo interpretation, topographic map analyses, and field surveys allowed us to map ten orders of terraces forming telescopically incised valley-fills. Based on the uppermost position of foreshore deposits on inner margins and an average uplift rate of ~1 mm/y, inferred from the Marine Isotope Stage (MIS) 5.5, terraces were correlated with highstands. Sedimentological and stratigraphic analyses allowed us to recognize four assemblages of genetically associated sedimentary facies related to superimposed and juxtaposed coastal and alluvial systems, showing a seaward-stepping architecture. Based on stratal geometry and facies association, we argue that alluvial/fluvial sediments and coastal depositional systems formed contemporaneously along the same terrace. Terrace arrangement resulted from repeated cycles of valley incision (sea level fall) and aggradational to progradational stacking pattern (sea level rise and highstands) in a framework of sustained uplift. [ABSTRACT FROM AUTHOR]

Published

2022

42. Palaeogeographical Reconstruction of Ancient Diolkos Slipway by Using Beachrocks as Proxies, West Corinth Isthmus, Greece.

Author

Saitis, Giannis, Karkani, Anna, Evelpidou, Niki, and Maroukian, Hampik

Subjects

BEACHROCK, OPTICALLY stimulated luminescence dating, SEA level

Abstract

Beachrocks are well known as significant proxies for paleoenvironmental analysis as they indicate the coastal evolution. The combination of geomorphological and archaeological sea level indicators has a significant contribution to the coastal paleogeographic reconstruction. In this study, we studied a beachrock from the Diolkos area (West Corinth canal, Greece) and remnants of Diolkos slipway to reconstruct the coastal evolution before Diolkos construction until today. We conducted detailed mapping of Diolkos beachrock using DGPS-GNSS, as well as mineralogical analysis and OSL dating of beachrock samples. The results showed that a beachrock slab was preserved before the construction of Diolkos below it, followed by its submergence by a co-seismic event after Diolkos abandonment during 146 B.C. Consequently, a new beachrock was developed on top of the submerged Diolkos around 120 ± 14 A.D. The RSL was stable until 1596 ± 57 A.D. when the beachrock developed even closer to the present-day coastline. After 1596 A.D., it was uplifted by 12 cm until it reached today's condition. [ABSTRACT FROM AUTHOR]

Published

2022

43. The Sinop Peninsula: The Northernmost Part of Asia Minor

Author

Yıldırım, Cengiz, Tüysüz, Okan, Görüm, Tolga, Migoń, Piotr, Series Editor, Kuzucuoğlu, Catherine, editor, Çiner, Attila, editor, and Kazancı, Nizamettin, editor

Published

2019

44. Vedde Ash constrains Younger Dryas glacier re-advance and rapid glacio-isostatic rebound on Svalbard

Author

Wesley R. Farnsworth, Ólafur Ingólfsson, Erik S. Mannerfelt, Maarit H. Kalliokoski, Esther R. Guðmundsdóttir, Michael Retelle, Lis Allaart, Skafti Brynjólfsson, Mark F.A. Furze, Holt J. Hancock, Kurt H. Kjær, Anna J. Pieńkowski, and Anders Schomacker

Subjects

Cryptotephra, Glacio-isostatic adjustment, Restrained rebound, Relative sea level, Geography. Anthropology. Recreation, Archaeology, CC1-960

Abstract

The distal deposition of tephra from explosive volcanism has the potential to geochronologically constrain sedimentary archives and landforms. With this technique, we constrain a Late Glacial glacier re-advance on Svalbard and suggest that glacioisostatic emergence rates during the Younger Dryas chronozone were at least three times greater than previous estimates. The identification of cryptotephra (i.e., non-visible) horizons, outside the extent of visible fallout, has greatly expanded the field of application of tephrochronology. While the cryptotephra revolution has triggered a burst of investigations using low-concentration tephra to constrain distal sedimentary sequences, as of yet, few investigations have used this tool to constrain the age of glacial landforms. Here we constrain a moraine formed during a glacier re-advance (12.8–12.2 cal ka BP) into a high relative sea level during the early Younger Dryas chronozone, with the first identified occurrence of the Icelandic Vedde Ash on Svalbard. Low concentrations (∼63 shards/g dried sediment) of the bimodal Vedde Ash (rhyolitic long axis c. 30–90 μm; basaltic c. 35–100 μm) were identified in a lake sediment sequence collected from the Heftyebreen glacier foreland, in a tributary valley to Grønfjorden, western Spitsbergen. Given that the cryptotephra was deposited within a lacustrine isolation basin, we further reconstruct a minimum rate of glacio-isostatic emergence during the end of the Late Glacial. Strong and longstanding evidence suggests Svalbard's west-coast cirque glaciers were less extensive during the Late Glacial than the Late Holocene. However, the Late Glacial Heftyebreen moraine suggests Svalbard glacier dynamics during this period may have been more complex.

Published

2022

45. Local and regional constraints on relative sea‐level changes in southern Isle of Skye, Scotland, since the Last Glacial Maximum.

Author

Best, Louise, Simms, Alexander R., Brader, Martin, Lloyd, Jerry, Sefton, Juliet, and Shennan, Ian

Subjects

LAST Glacial Maximum, YOUNGER Dryas, ISLANDS

Abstract

New relative sea‐level (RSL) data constrain the timing and magnitude of RSL changes in the southern Isle of Skye following the Last Glacial Maximum (LGM). We identify a marine limit at ~23 m OD, indicating RSL ~20 m above present c. 15.1 ka. Isolation basin data, supported by terrestrial and marine limiting dates, record an RSL fall to 11.59 m above present by c. 14.2 ka. This RSL fall occurs across the time of global Meltwater Pulse 1A, supporting recent research on the sources of ice melting. Our new data also help to resolve some of the chronological issues within the existing Isle of Skye RSL record and provide details of the sub‐Arctic marine environment associated with the transition into Devensian Lateglacial climate at c. 14.5 k cal a bp, and the timing of changes in response to the Loch Lomond Stadial climate. Glacio‐isostatic adjustment (GIA) model predictions of RSL deviate from the RSL constraints and reflect uncertainties in local and global ice models used within the GIA models. An empirical RSL curve provides a target for future research. [ABSTRACT FROM AUTHOR]

Published

2022

46. Preservation and Destruction of Holocene Marine Terraces: The Effects of Episodic Versus Gradual Relative Sea Level Change.

Author

Matsumoto, Hironori, Dickson, Mark E., and Kench, Paul S.

Subjects

*RELATIVE sea level change, *EARTHQUAKE magnitude, *HOLOCENE Epoch, *EARTHQUAKE hazard analysis, *TERRACING

Abstract

Holocene marine terraces occur globally and record information about the timing and magnitude of past coseismic events. Staircased terraces develop through repetitive coseismic uplift of shore platforms, but are also subject to destruction from subsequent wave erosion and rock weathering. In this study we calibrate a rock coast evolution model using terrace field data from Mahia Peninsula, New Zealand, and use it to investigate how relative sea level (RSL) change influences Holocene terrace development. Analyses of 10,002 simulations reveal time periods of extremely rapid terrace creation and destruction as a result of shore platform development processes that are modulated both by episodic and gradual RSL change scenarios. Subtle differences in these scenarios give rise to completely different terrace sequences, even if coseismic event timing is held constant. Improved interpretation of Holocene terrace sequences require higher resolution paleo RSL data and chronological data on shore platform development. Plain Language Summary: Holocene marine terraces develop when tectonically active rock coasts are uplifted during earthquakes, and thus provide the information about the timing and magnitude of past seismic events that is useful to estimate future seismic hazards. However, the record is often partial because once terraces are uplifted, subsequent marine erosion processes (wave erosion and intertidal rock weathering) start destroying terraces and can completely remove them from the landscape. This can confound paleo‐seismic interpretations of Holocene terrace sequences. In this study we used a numerical model to explore how earthquake‐driven episodic and climate‐driven gradual relative sea level (RSL) changes can influence marine erosion processes, and therefore Holocene terrace preservation. The simulation results reveal that subtle differences in episodic and gradual RSL change histories can lead to periods in which marine erosion are greatly accelerated, which can completely alter terrace sequences that are preserved in the landscape. Until this study, we had little understanding of the way in which RSL modulates the erosion processes that control terrace creation and destruction. We conclude that better interpretation of past seismic event history from Holocene terraces require a more detailed understanding of RSL history and higher resolution data on rates of shore platform formation through time. Key Points: The effects of episodic and gradual relative sea level (RSL) change on Holocene marine terrace development are numerically exploredEven subtle differences in RSL have large impacts on shore platform development rates, thereby changing preserved terrace sequencesBetter understanding of past RSL and shore platform development history will improve paleo‐seismic interpretation of Holocene terraces [ABSTRACT FROM AUTHOR]

Published

2021

47. Reconstruction of Middle to Late Quaternary sea level using submerged speleothems from the northeastern Yucatán Peninsula.

Author

Steidle, Simon D., Warken, Sophie F., Schorndorf, Nils, Förstel, Julius, Schröder‐Ritzrau, Andrea, Moseley, Gina E., Spötl, Christoph, Aviles, Jeronimo, Stinnesbeck, Wolfgang, and Frank, Norbert

Subjects

SEA level, SPELEOTHEMS, TRACE element analysis, PENINSULAS, STALACTITES & stalagmites

Abstract

We examined 14 subaerially deposited speleothems retrieved from submerged caves in the northeastern Yucatán Peninsula (Mexico). These speleothems grew during the Middle to Late Quaternary and were dated by 230Th‐U techniques to provide upper depth limits for past sea levels. We report the first relative sea‐level limits for Marine Isotope Stages (MIS) 11 and 6, and present new evidence for sea‐level oscillations during MIS 5 and early MIS 1. For the latter periods, the origin of growth interruptions is evaluated by combining petrographic methods with trace element analyses. The MIS 5c sea‐level highstand probably occurred between 103.94 ± 0.58 ka and 96.82 ± 0.42 ka and must have exceeded ‐10.8 m (relative to present‐day local sea level). The minimum average rate of sea‐level fall over a 9.4 ka‐long period during the MIS 5e/5d transition is calculated from stalagmite and published coral data at 1.74 ± 0.37 m/ka. For the early Holocene, previous discrepancies with respect to a potential multimetre oscillation of local sea level were found to be challenging to reconcile with the existing speleothem data from the area. [ABSTRACT FROM AUTHOR]

Published

2021

48. Late Holocene relative sea‐level fluctuations and crustal mobility at Bataneh (Najirum) archaeological site, Persian Gulf, Iran.

Author

Pourkerman, Majid, Marriner, Nick, Morhange, Christophe, Djamali, Morteza, Lahijani, Hamid, Amjadi, Sedighe, Vacchi, Matteo, Jelodar, Mohammad E., Spada, Giorgio, Tofighian, Hossein, and Beni, Abdolmajid N.

Subjects

*ARCHAEOLOGICAL excavations, *HOLOCENE Epoch, *COASTS, *SEA level, *ARCHAEOLOGICAL geology, *DIAPIRS

Abstract

The impacts of relative sea‐level (RSL) variations and crust mobility on the development of ancient harbours in the northern Persian Gulf are poorly understood. Many unanswered questions remain with regard to the main reasons for a shift in the location of the most important ancient harbours in the northern part of the Persian Gulf coastal since 50 BC. Furthermore, some important early Islamic harbours, such as Siraf, have ancient city quarters that are today below the present sea level. The aim of this study is to evaluate the relationship between halokinesis and RSL changes using geophysical models and multidisciplinary geoarchaeological methods at the ancient Sassanid–Islamic site of Bataneh (presently known as Najirum) located at the foothill of an active Darang salt diapir. The results reveal that after the mid‐Holocene highstand, RSL regression was not continuous. The studied facies have recorded three RSL oscillations. The oscillations are correlated with the eustatic sea‐level position. During the first lowstand, important Sassanid harbours shifted from Rishar to Apologus. The second lowstand is consistent with the transition of maritime trade from Apologus to Siraf, during the Abbasid dynasty. Uplift of the Bataneh coastal zone exposed the city to risks from flooding and fluvial debris flows. With a modification of the local watershed, runoff water originating from the salt anticlinal was controlled and used for the extraction of gypsum in evaporation ponds. The economic expansion of Siraf led to Bataneh being abandoned with a shift in trade to Kish Island. [ABSTRACT FROM AUTHOR]

Published

2021

49. Development of a Training Set of Contemporary Salt-Marsh Foraminifera for Late Holocene Sea- Level Reconstructions in southeastern Australia

Author

Sophie Williams, Ed Garrett, Patrick Moss, Rebecca Bartlett, and Roland Gehrels

Subjects

relative sea level, new south wales, tasmania, microfossil, multivariate analyses, transfer function, Human evolution, GN281-289, Prehistoric archaeology, GN700-890, Paleontology, QE701-760

Abstract

We collected contemporary foraminiferal training sets from two salt marshes to enable more precise and accurate proxy historical sea-level reconstructions from southeastern Australia. Combined with an existing training set from Tasmania, this new regional set consists of 112 samples and 16 species of foraminifera, of which 13 are agglutinated. Cluster analyses group the regional training set into a high–elevation cluster, dominated by 'Trochamminita salsa', a mid–elevation cluster, dominated by 'Entzia macrescens' and 'Trochammina inflata', and a mid–low elevation cluster dominated by Miliammina fusca and tidal-flat species. We develop transfer functions using local and regional training sets and assess their performance. Our resulting site-specific and chosen regional models are capable of predicting sea level with decimetre-scale precision (95% confidence intervals of 0.12–0.22 m). These results are comparable to other examples from around the world. When developing regional training sets, we advocate that the similarity in the environmental settings (particularly salinity) should be assessed as an alternative way of grouping sites, rather than simply using spatial proximity. We compare our findings with global results and conclude that salt marshes along microtidal coasts yield models with the lowest vertical uncertainties. Studies with the lowest uncertainties are located in the western Pacific and the western Atlantic, whereas those from the eastern Atlantic generally have larger tidal ranges and carry larger vertical uncertainties. Our models expand the existing region available for sea-level reconstruction and can be used to generate new late Holocene sea-level reconstructions across southeastern Australia.

Published

2021

50. Salt-Marsh Foraminiferal Distributions from Mainland Northern Georgia, USA: An Assessment of Their Viability for Sea-Level Studies

Author

Huixian Chen, Timothy A. Shaw, Jianhua Wang, Simon Engelhart, Daria Nikitina, Jessica E. Pilarczyk, Jennifer Walker, Ane García-Artola, and Benjamin P. Horton

Subjects

intertidal foraminifera, infaunal, taphonomy, georgia, relative sea level, multivariate analysis, Human evolution, GN281-289, Prehistoric archaeology, GN700-890, Paleontology, QE701-760

Abstract

We investigated foraminiferal distributions from two salt-marsh sites at Thunderbolt and Georgetown, in mainland northern Georgia, U.S. Atlantic coast. We analyzed modern epifaunal foraminiferal assemblages across multiple transects consisting of 54 surface samples. Multivariate statistical analysis (Partitioning Around Medoids and Detrended Correspondence Analysis) revealed that dead foraminiferal assemblages are divided into three faunal zones, which are elevation-dependent and site-specific. At Thunderbolt, an intermediate salinity marsh (17‰), high marsh assemblages are dominated by 'Haplophragmoides' spp. with an elevational range of 1.19 to 1.68 m mean tide level (MTL) between Mean Higher High Water (MHHW) to Highest Astronomical Tide (HAT). Low marsh assemblages are dominated by 'Miliammina fusca' and 'Ammobaculites' spp. with an elevational range of – 0.05 to 1.14 m MTL (between MTL and MHHW). At Georgetown, a low salinity marsh (6‰), the assemblages are dominated by 'Ammoastuta inepta' with an elevational range of 0.43 to 1.16 m MTL (between MTL and MHHW). We also enumerated living infaunal foraminiferal populations from six 50-cm sediment cores from the two salt marshes to assess implications for interpretations of sea-level change. Peak concentrations of living foraminiferal populations occur in the upper 1-cm surface sediment in five of the six cores. An exception was observed in high marsh settings of Thunderbolt, where 'Haplophragmoides' spp. and 'Arenoparrella mexicana' were observed living down to 40 cm depth and both the live and dead abundance peaked (32 and 520 specimens per 10 cc respectively) between depths of 15–35 cm in the core. The dominant infaunal species were similar to those observed in modern surface samples, and the total number of infaunal foraminifera was typically less than 15% compared to the total number of dead specimens in the surface samples. Finally, we com­pared the down-core patterns of living and dead foraminiferal abundance that suggest that 90% of the tests were removed within the upper 10 cm of sediment in most cores. This may be due to taphonomic alteration from bioturbation and/or microbial processes. Selective preservation between resistant species such as 'A. mexicana' and fragile species like 'M. fusca' and 'Ammobaculites' spp. can change the subsurface foraminiferal assemblage. This has the potential to cause errors in sea-level reconstructions using foraminiferal assemblage from low marsh sediments. This study highlights the modern vertical distribution of salt-marsh foraminifera in mainland northern Georgia and their potential as modern analogues for fos­sil counterparts in reconstructing sea-level changes. Taphonomic processes may cause the absence of foraminiferal tests or differences between modern and fossil assemblages, which could be problematic when performing RSL reconstructions in low marsh environment.

Published

2020