Your search keyword '"Paleotempestology"' showing total 249 results

1. Is the Isotopic Composition of Precipitation a Robust Indicator for Reconstructions of Past Tropical Cyclones Frequency? A Case Study on Réunion Island From Rain and Water Vapor Isotopic Observations.

Author

Vimeux, Françoise, Risi, Camille, Barthe, Christelle, François, Sören, Cauquoin, Alexandre, Jossoud, Olivier, Metzger, Jean‐Marc, Cattani, Olivier, Minster, Bénédicte, and Werner, Martin

Subjects

WATER vapor, RAINWATER, TROPICAL cyclones, COMPOSITION of water, HYDROGEN atom, CYCLONES, TROPICAL climate, RAINFALL

Abstract

Based on a 6‐year long record (2014–2020) of the isotopic composition of rain (δ18Op) at Réunion Island (55°E, 22°S), in the South‐West Indian Ocean, this study shows that the annual isotopic composition of precipitation in this region is strongly controlled by the number of cyclones, the number of best‐track days, and the proportion of cyclonic rain during the year. Our results support the use of δ18Op in annual‐resolved tropical climate archives as a reliable proxy of past cyclone frequency. The influence of the proportion of cyclonic rain on the annual isotopic composition arises from the systematically more depleted precipitation and water vapor during cyclonic events than during less organized convective systems. The analysis of the daily to hourly isotopic composition of water vapor (δ18Ov) during low‐pressure systems and the reproduction of daily δ18Ov observations by AGCMs with a global medium to coarse resolution (LMDZ‐iso and ECHAM6‐wiso) suggest that during cyclonic periods the stronger depletion mainly arises from both enhanced large‐scale precipitation and water vapor‐rain interactions under humid conditions. Plain Language Summary: Water molecules have different forms: 2 atoms of hydrogen and 1 atom of oxygen 16 (majority form), or 1 atom of hydrogen, 1 atom of deuterium (2H) and 1 atom of oxygen 16, or 2 atoms of hydrogen and 1 atom of oxygen 18. The relative proportion of these different molecules in precipitation and water vapor is called isotopic composition. We have analyzed the isotopic composition of rain and water vapor at Réunion Island (55°E, 22°S), in the South‐West Indian Ocean, for 6 years (2014–2020). We show that the annual isotopic composition of precipitation in this region is a reliable indicator of the number of tropical cyclones (TCs) during the year. This opens the possibility to use annual‐resolved tropical climate archives of the isotopic composition of precipitation, like speleothems, to study how cyclone frequency in the Indian Ocean has varied in the past under different mean climates (warmer or colder). This study also seeks to understand why the isotopic composition of precipitation behaves in this way during TCs. We show that this is due to increased precipitation at the regional scale and enhanced exchanges of water molecules between rain and water vapor in the vicinity of TCs. Key Points: The annual isotopic composition of precipitation on Réunion Island is controlled by the number of cyclones per yearBoth precipitation and water vapor are systematically more depleted during cyclonic periodsMore large‐scale precipitation and rain–vapor interactions are responsible for the stronger isotopic depletion during tropical cyclones (TCs) [ABSTRACT FROM AUTHOR]

Published

2024

2. What Are the Most Effective Proxies in Identifying Storm‐Surge Deposits in Paleotempestology? A Quantitative Evaluation From the Sand‐Limited, Peat‐Dominated Environment of the Florida Coastal Everglades.

Author

Yao, Qiang, Liu, Kam‐biu, Zhang, Zhenqing, Rodrigues, Erika, Cohen, Marcelo, Maiti, Kanchan, and Yang, Yang

Subjects

STORM surges, FOSSIL microorganisms, COASTS, X-ray fluorescence, COASTAL sediments, PRINCIPAL components analysis, STABLE isotopes

Abstract

Although many studies have attempted to reconstruct millennial‐scale hurricane patterns using various proxy‐based methods, it is still unclear what the most effective proxies are to identify storm surge deposits in different environmental settings. This study quantitatively compares the application of grain‐size, loss‐on‐ignition, stable isotopes, X‐ray fluorescence, and palynological proxies in paleotempestology from an organic‐rich environment in the Florida Everglades. The nonparametric tests indicate that only 9 among the 27 parameters (mean diameter, %water, %organic, %carbonate, Ca, Sr, Ca/Ti, Cl/Br, and marine microfossils) exhibited significant differences between storm‐surge and in situ deposits. The principal component analysis shows that five marine indicators (Sr, Ca, Ca/Ti, %Carbonate, and Marine microfossils) have the closest association with the allochthonous samples, while Cl/Br and Mz are the most sensitive proxies in low‐ and high‐energy environments, respectively. Moreover, organic geochemical proxies (e.g., δ13C and δ15N of bulk sedimentary organic matter) are ineffective for identifying storm‐surge deposits in organic‐rich mangrove environments. Plain Language Summary: To help objectively identify the occurrence of storm‐surge deposits in coastal sediment cores, this study uses a statistical approach to evaluate the effectiveness of 27 widely used sedimentological, organic and inorganic geochemical, and biological parameters in distinguishing allochthonous deposits from autochthonous deposits in an organic‐rich environment in the Florida Everglades. The results show that Ca, Sr, Ca/Ti, and marine microfossil are four of the most sensitive parameters to distinguish storm‐surge deposits in organic‐rich environments in south Florida. In addition, Cl/Br can be used to indicate storm surge inundation in further inland and lower‐energy environments. Moreover, organic geochemical proxies cannot effectively distinguish storm‐surge deposits from in situ deposits in mangrove‐dominated coastal zones. Future studies need to explore the use of more specific organic geochemical proxies (e.g., biomarker) in mangrove‐dominated environments and evaluate the effective proxies in detecting storm deposits from sandy, deltaic/estuarine, and nontropical coastal environments. Key Points: Ca, Sr, Ca/Ti, and marine microfossil are the most sensitive parameters to identify storm‐surge deposits in organic‐rich environmentsCl/Br can be used to indicate storm surge inundation in further inland and lower energy environmentsOrganic geochemical proxies cannot effectively distinguish storm‐surge deposits from in situ deposits in mangrove‐dominated coastal zones [ABSTRACT FROM AUTHOR]

Published

2023

3. What Are the Most Effective Proxies in Identifying Storm‐Surge Deposits in Paleotempestology? A Quantitative Evaluation From the Sand‐Limited, Peat‐Dominated Environment of the Florida Coastal Everglades

Author

Qiang Yao, Kam‐biu Liu, Zhenqing Zhang, Erika Rodrigues, Marcelo Cohen, Kanchan Maiti, and Yang Yang

Subjects

paleotempestology, sedimentology, geochemistry, stable isotope, palynology, Hurricane Wilma, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5

Abstract

Abstract Although many studies have attempted to reconstruct millennial‐scale hurricane patterns using various proxy‐based methods, it is still unclear what the most effective proxies are to identify storm surge deposits in different environmental settings. This study quantitatively compares the application of grain‐size, loss‐on‐ignition, stable isotopes, X‐ray fluorescence, and palynological proxies in paleotempestology from an organic‐rich environment in the Florida Everglades. The nonparametric tests indicate that only 9 among the 27 parameters (mean diameter, %water, %organic, %carbonate, Ca, Sr, Ca/Ti, Cl/Br, and marine microfossils) exhibited significant differences between storm‐surge and in situ deposits. The principal component analysis shows that five marine indicators (Sr, Ca, Ca/Ti, %Carbonate, and Marine microfossils) have the closest association with the allochthonous samples, while Cl/Br and Mz are the most sensitive proxies in low‐ and high‐energy environments, respectively. Moreover, organic geochemical proxies (e.g., δ13C and δ15N of bulk sedimentary organic matter) are ineffective for identifying storm‐surge deposits in organic‐rich mangrove environments.

Published

2023

4. Tropical cyclone activity over the past 1200 years at the Pelican Cays, Belize.

Author

Blanco, Chris L., Hawkes, Andrea D., Wallace, Elizabeth J., Donnelly, Jeffrey P., and MacDonald, Dana

Subjects

*ABSOLUTE sea level change, *COASTAL development, *SEDIMENT analysis, *CLIMATOLOGY, *TROPICAL cyclones, *GRAIN size

Abstract

Tropical cyclone (TC) models indicate that continued planet warming will likely increase the global proportion of powerful TCs (specifically Categories 4 and 5 hurricanes), increasingly jeopardizing low-lying coastal communities and resources such as the Pelican Cays, Belize. The combination of increased coastal development and continued relative sea-level rise puts these communities at even higher risk of damage from TCs. The short TC observational record for the western Caribbean hampers the extensive study of TC activity on centennial timescales, which hinders our ability to fully understand past TC climatology and improve the accuracy of TC models. To better assess TC risk, paleotempestological studies are necessary to put future scenarios in perspective. Here, we present a high-resolution reconstruction of coarser-grained sediment deposits associated with TC (predominately ≥ Category 2 hurricanes) passages over the past 1200 years from Elbow and Lagoon Cays, two coral reef-bounded lagoons at the northern and southern end of the Pelican Cays; the most southern Belizean paleotempestological site to date. Coincident timing of historic storms with statistically significant coarser-grained deposits within cay lagoon sediment cores allows us to determine which historic TCs likely generated event layers (tempestites) archived in the sediment record. Our compilation frequency analysis indicates one active interval (above-normal TC activity) from 1740-1950 CE and one quiet interval (below-normal TC activity) from 850-1018 CE. The active and quiet intervals in the Pelican Cays composite record are anticorrelated with those from nearby and re-analyzed TC records to the north, including the Great Blue Hole (∼100 km north) and the Northeast Yucatan (∼380 km northwest). This site-specific anticorrelation in TC activity along the western Caribbean indicates that we cannot rely on any one single TC record to represent regional TC activity. However, we cannot discount that these anticorrelated periods between the western Caribbean sites are due to randomness. To confirm that the anticorrelation in TC activity among sites from the western Caribbean is indeed a function of climate change and not randomness, an integration of more records and TC model simulations over the past millennium is necessary to assess the significance of centennial-scale variability in TC activity recorded in reconstructions from the western Caribbean. • Grain size analysis on sediment cores from the Pelican Cays, Belize, reconstruct tropical cyclone events over the past 1200 years. • The Pelican Cays experienced increased tropical cyclone activity from 1740‐1950 CE, and decreased tropical cyclone activity from 850‐1018 CE. • During 1200-1400 CE and 1740-1920 CE, tropical cyclone activity for the Pelican Cays is anticorrelated with nearby sites to the north. • We identified periods of TC correlation (1200-1400 CE and 1400-1700 CE) and one period of anticorrelation (1900 CE-present) in the North Atlantic. [ABSTRACT FROM AUTHOR]

Published

2024

5. Coastal Flooding

Author

Rohli, Robert V., Li, Chunyan, Rohli, Robert V., and Li, Chunyan

Published

2021

6. 4500-year paleohurricane record from the Western Gulf of Mexico, Coastal Central TX, USA.

Author

Monica, Sarah B., Wallace, Davin J., Wallace, Elizabeth J., Du, Xiaojing, Dee, Sylvia G., and Anderson, John B.

Subjects

*TROPICAL cyclones, *LANDFALL, *ATMOSPHERIC models, *X-ray fluorescence, *GRAIN size, *DROUGHTS

Abstract

Texas receives the second-highest number of tropical cyclone (TC) landfalls per year in the United States. At present, long-term TC projections from climate models remain uncertain due to the short and biased nature of Atlantic TC observations. Sediment archives of past storms can help extend the observational record of TC strikes over the past few millennia. When a TC makes landfall along the central Texas coast, coastal downwelling channels and storm currents transport and deposit coarse sediment to a zone of rapid accumulation along the shelf, known as the Texas Mud Blanket (TMB). This "backwash" process results in expansive storm deposits along the shelf, making this region ideal for paleotempestological reconstructions. Here, we present two sediment cores, located approximately 6 km southeast of Matagorda Island (TX), that collectively yield a ∼4500-year paleohurricane record. 210Pb and 137Cs are utilized in conjunction with radiocarbon ages to produce high-resolution Bayesian age models. One-centimeter interval grain size analyses are used to identify TC deposits. Two-centimeter interval X-Ray Fluorescence (XRF) is used as an additional measure to verify depositional mechanisms in this shelf environment. We define an intense paleohurricane event threshold through statistical analysis of mean grain size data. The sediment-derived TC record is correlated to Palmer Drought Severity Index (PDSI) data from Paleo Hydrodynamics Data Assimilation (PHYDA) to bolster our interpretation of the TC record, revealing a coupled relationship between PDSI and TCs since ∼300 yr BP. Over the ∼4500-year period, 24 intense TCs were recorded in the sediment record, yielding a long-term annual landfall probability of ∼0.53%. Additionally, comparisons between other TC records within the Atlantic establish a relationship between enhanced TC activity in the Western Gulf of Mexico (GOM) and TCs formed in the Caribbean Sea. • Sediment cores from the TX shelf yield a Late Holocene tropical cyclone record. • 24 Carla-like TC events occurred over the 4500-year sedimentary record. • Analysis of modern surface samples supports the paleo depositional mechanisms. • PHYDA suggests a relationship between tropical cyclones and regional hydroclimate. [ABSTRACT FROM AUTHOR]

Published

2024

7. Late Holocene tropical cyclones linked to climatic and solar variability.

Author

Wang, Yang, Jahan, Shakura, Burnett, William C., Wu, Zhaohua, Elsner, James B., Means, Guy H., Liu, Jin, and Jiang, Shijun

Subjects

*SOLAR oscillations, *TROPICAL cyclones, *ATLANTIC multidecadal oscillation, *OCEAN temperature, *LITTLE Ice Age, EL Nino

Abstract

Response of tropical cyclone (TC) frequency to future climate change has important implications for society but remains poorly understood due to a lack of long-term reliable observational records. Here, we use high-resolution organic geochemical proxies (OGPs) with robust chronological control from two coastal lakes, >150 km apart, to reconstruct past TC activities in the northeastern Gulf of Mexico (GOM). Results show multi-decadal-to-centennial-scale fluctuations in TC frequency over the last 5500 years. We found that TC frequency either exceeded or was comparable to modern observations during a prolonged interval (∼1500-720 cal yr BP) that encompasses the Medieval Warm Period. We also found a nearly 90% reduction in TC activity, relative to modern, during an exceptionally quiescent period (650-280 cal yr BP) that overlaps the Little Ice Age. Warmer temperatures in the North Atlantic did not always support increased TC frequency in this region. We show, for the first time, that increased TC activities in the northeastern GOM track increased solar irradiance. High TC frequency is also coupled to periods of increased sea surface temperatures in the northern GOM, enhanced El Niño-Southern Oscillation, and positive phases of the Atlantic Multi-Decadal Oscillation. Our results highlight the importance of natural variability in climate and solar activity in modulating TC frequency. • Coastal lake sediments were analyzed for organic geochemical proxies (OGPs). • A 5500-year-long tropical cyclone (TC) record was developed using the OGPs. • The record reveals multi-decadal-to-centennial-scale fluctuations in TC frequency. • 11 periods of relatively high TC frequency are recognized in the OGP record. • Possible links to climatic and solar variability were examined. [ABSTRACT FROM AUTHOR]

Published

2024

8. Unveiling the history and nature of paleostorms in the Holocene.

Author

Minamidate, Kenta and Goto, Kazuhisa

Subjects

*CYCLONES, *HOLOCENE Epoch, *TROPICAL cyclones, *ATMOSPHERIC models, *GEOLOGICAL research, *GLOBAL warming, *GEOLOGY

Abstract

Tropical and extratropical cyclones have a profound impact on coastal morphology, ecosystems, and human lives. Given the ongoing global warming and the rising coastal populations, it is an urgent task to evaluate their impact on coastal regions ranging from low to high latitudes. Although the observation records show both significant and insignificant changes in tropical cyclone activity over recent decades, detecting long-term trends and attributing them to anthropogenic warming remains challenging due to the relatively short observation records and substantial natural variability. Paleotempestology is an emerging research field to reveal past storm activity prior to observation records based on geological, geomorphological, and biological records. This review summarizes the current progress and challenges of paleotempestology and provides insight into the response of storm activity to climate variability in the Holocene. Integrating interdisciplinary perspectives from geology, paleoclimatology, and numerical climate modeling, this review underscores the non-stationarity of storm activity, which is intricately related to climate variability through diverse mechanisms in each basin. Exploring the links and discrepancies between paleotempestological, paleoclimate, and modeling studies improves our understanding of the relationship between climate environment and storm activity. [ABSTRACT FROM AUTHOR]

Published

2024

9. Investigation of sedimentary records of Hurricane Irma in sinkholes, Big Pine Key, Florida.

Author

Wang, Youzhu, Van Beynen, Philip, Wang, Ping, Brooks, Gregg, Herbert, Gregory, and Tykot, Robert

Subjects

*HURRICANE Irma, 2017, *SINKHOLES, *X-ray spectroscopy, *FOSSIL microorganisms, *PINE

Abstract

Few paleotempestological studies have focused on coastal sinkholes, a common feature in Florida, which can receive and preserve storm overwash sediments. The major goal of this research is to improve our understanding of the characteristic signatures of storm sediments in sinkholes thereby determining reliability of these environments as proxies for hurricanes. Hurricane Irma as a category 5 storm provides an excellent case study for characterizing storm deposits in sinkholes on Big Pine Key. We cored at four sinkholes along a 350 m transect normal to the shoreline. Core sediments were characterized using physical description, short-lived radioisotope dating, sediment grain size analysis, loss-on-ignition, microfossil analysis, and x-ray fluorescence elemental analysis. We found that Irma deposits had higher abundances of marine foraminifera, less total organic matter and elevated Si/Al and Ca/Ti ratios, compared to pre- or post-Irma sediments. In addition, there was a thinning of the storm sediments along the inland transect. Consequently, we propose that sinkholes, particularly those that are closer to the shoreline, can provide reliable sites for paleotempestology studies. [ABSTRACT FROM AUTHOR]

Published

2021

10. The Great Havana Hurricane of 1846: A Reconstruction of the Storm's Track, Intensity, and Impacts.

Author

Cerrito, Emily L., Mock, Cary J., and Collins, Jennifer M.

Subjects

*HURRICANES, *CLIMATOLOGY, *ATMOSPHERIC sciences, *WIND pressure, *METEOROLOGICAL charts

Abstract

This article reconstructed the track, intensity, and societal impacts of the Great Havana Hurricane of October 1846, using all available historical data, which include ship logs, newspapers, diaries, and early instrumental records. Most of the data were extracted from original manuscripts at historical libraries and repositories. Meteorological aspects of the hurricane were analyzed by mapping twice-daily surface synoptic weather maps from geographic information systems methods, estimating central pressures from known wind–pressure relationships derived from modern hurricane studies, and assessing intensity based on damage descriptions from the Saffir-Simpson Hurricane Wind Scale and an inland decay model. The storm was found to be much stronger than previously known. In this study, we clearly define the first known record of a landfalling Category 5 hurricane in the Atlantic Basin, which likely ranks among the top of all those known in the modern (1851–present) Atlantic Basin official hurricane database. Although this storm has been previously referred to as one of the most destructive hurricanes in the history of Cuba, the impacts of the Great Havana Hurricane actually spanned well beyond the Caribbean, tracking from Florida through many major populated cities along the East Coast and into Atlantic Canada. Clearly, such a storm today, with much larger metropolitan areas, would have caused enormous economic damage and should be anticipated in long-term hurricane mitigation, zoning, and worst-case scenarios. This study highlights the importance of examining historical documentary sources for extreme events, providing a framework on how to research case studies of premodern Atlantic hurricanes back in time. [ABSTRACT FROM AUTHOR]

Published

2021

11. Resolving Long‐Term Variations in North Atlantic Tropical Cyclone Activity Using a Pseudo Proxy Paleotempestology Network Approach.

Author

Wallace, Elizabeth J., Dee, Sylvia G., and Emanuel, Kerry A.

Subjects

*TROPICAL cyclones, *ATMOSPHERIC models, *HURRICANES, *COASTS

Abstract

Paleohurricane reconstructions extend the observational record of tropical cyclones (TCs) back thousands of years. However, these records are subject to biases–capturing only close‐moving intense storms at varying resolutions. We devise two pseudo proxy networks drawing from the full suite of published paleohurricane studies in the North Atlantic. We run synthetic storms forced with two global climate model simulations of the past millennium through each pseudo network to assess the theoretical skill of paleohurricane proxies at capturing low‐frequency variability in North Atlantic basin‐wide and intrabasin TCs. We find that basin‐wide and paleohurricane compiled TC counts are significantly correlated with one another for the past millennium on annual to multi‐decadal timescales, but compilation skill is limited by proxy temporal resolution. Current paleohurricane proxy networks predominantly capture storms moving in the Caribbean/Gulf of Mexico. Increasing the quantity of paleohurricane records from the North American coastline substantially improves reconstruction skill. Plain Language Summary: As our climate warms, we need to understand how the statistics of Atlantic hurricanes will change. Scientists use natural archives, such as sediment and tree cores, to reconstruct Atlantic hurricane frequency over the past couple of thousand years. These natural archives, also known as paleohurricane proxies, are biased; they only record storms that move close to the coring site at a high intensity. Over the past few decades, scientists have amassed large networks of paleohurricane proxies from coastlines in the western North Atlantic. Here, we use two different sets of synthetic hurricanes to test if a compilation of the current network of paleohurricane proxies will smooth out the biases of each individual site and provide an accurate representation of Atlantic basin‐wide hurricane frequency over the past 1,000 years. We find that current network of paleohurricane records can be used to reconstruct past Atlantic hurricanes, but most of the current sites only capture storms that form/move through the Caribbean Sea and the Gulf of Mexico. We can improve our estimates of past hurricanes in future work by adding more sites from the U.S. Southeast and Central America. Key Points: The current network of paleohurricane proxies captures annual to multi‐decadal scale variability in Atlantic tropical cyclone (TC) frequencyPaleohurricane records predominantly capture storms that impact the U.S. Gulf Coast and Caribbean SeaMore paleohurricane records, especially from the U.S. Southeast, are needed to reconstruct recurving TCs [ABSTRACT FROM AUTHOR]

Published

2021

12. The response of diatom assemblages in a Jamaican coastal lagoon to hurricane and drought activity over the past millennium.

Author

Heller, Charlotte A, Michelutti, Neal, Burn, Michael J, Palmer, Suzanne E, and Smol, John P

Subjects

*FOSSIL diatoms, *DROUGHT management, *DROUGHTS, *HURRICANES, *LAGOONS, *DIATOMS, *BIOINDICATORS, *LAKE sediments

Abstract

Reconstructing pre-industrial hurricane activity and aridity from natural archives places modern trends within the context of long-term natural variability. The first reconstruction of Atlantic hurricane activity in Jamaica was based on a sediment record previously obtained from a coastal lagoon. Specifically, an Extended Hurricane Activity (EHA) index was developed from high-resolution geochemical data that linked fluctuations in lake-level changes to rainfall variability associated with hurricane activity. Here, we analyse the same sediment core from which the EHA index was developed to assess the response of biological indicators, namely fossil diatom assemblages and sediment chlorophyll a (chl- a) concentrations, to hydrometeorological events (tropical cyclone-induced precipitation and droughts) over the past ~1500 years. The diatom assemblages responded sensitively to changes in salinity associated with lake-level changes driven by the balance of precipitation and evaporation. Aquatic production (inferred from sediment chl- a, which includes its main diagenetic products) and salinity (inferred from ITRAXTM µXRF chlorine counts) vary inversely following ca. 1300 CE, likely due to enhanced nutrient delivery from freshwater runoff during periods of elevated precipitation. Although the temporal resolution of our biological data is less-well resolved than that of the geochemical record, it generally tracks long-term trends in rainfall variability inferred by the EHA index over the past millennium. This further demonstrates the potential of using biological proxies from coastal lagoons to track past hurricane activity and aridity. [ABSTRACT FROM AUTHOR]

Published

2021

13. Abrupt Increase in Washover Deposition Along a Transgressive Barrier Island During the Late Nineteenth Century Acceleration in Sea-Level Rise

Author

Rodriguez, Antonio B., Yu, Winnie, Theuerkauf, Ethan J., Moore, Laura J., editor, and Murray, A. Brad, editor

Published

2018

14. Recent Advances in the Emerging Field of Paleotempestology

Author

Muller, Joanne, Collins, Jennifer M., Gibson, Samantha, Paxton, Leilani, Collins, Jennifer M., editor, and Walsh, Kevin, editor

Published

2017

15. Grain-Size Analysis of Hurricane-Induced Event Beds in a New England Salt Marsh, Massachusetts, USA.

Author

Castagno, Katherine A., Donnelly, Jeffrey P., and Woodruff, Jonathan D.

Subjects

*SALT marshes, *TROPICAL cyclones, *HISTORICAL source material, TROPICAL climate

Abstract

Castagno, K.A.; Donnelly, J.P., and Woodruff, J.D., 2021. Grain-size analysis of hurricane-induced event beds in a New England salt marsh, Massachusetts, USA. Journal of Coastal Research, 37(2), 326–335. Coconut Creek (Florida), ISSN 0749-0208. Tropical cyclones pose a growing threat to coastal infrastructure and livelihood. Because instrumental and historic records are too short to help us understand interactions between tropical cyclones and climate on a longer scale, proxy records are the only means for reconstructing millennia of tropical cyclone impacts. This study determines grain-size trends in storm-induced overwash deposits along a transect of sediment cores from a salt marsh in Mattapoisett, Massachusetts, to characterize sorting trends and compare deposits associated with individual storms. The overwash deposits preserved within the high-marsh peat provide a record spanning the last two millennia. Building on a 2010 study, a different approach was used to accurately determine the grain-size distribution of overwash deposits from cores in a transect running perpendicular to the adjacent sandy/gravely barrier. Although maximum grain-size values are expected to decrease as distance from the barrier increases, not all event deposits that were studied follow this trend within uncertainty. Analysis of the storm event beds reveal a significant difference in settling trends between historic and prehistoric deposits, with historic deposits largely displaying landward-fining trends and prehistoric deposits largely displaying landward-coarsening trends. This suggests changes in the hydrodynamic or that geomorphic regime may have altered the way in which storm beds were deposited at this site. This new in-depth, transect-based approach has utility for improving the accuracy of future storm reconstructions, particularly for events for which no historic record exists. [ABSTRACT FROM AUTHOR]

Published

2021

16. A Geochemical Record of Late‐Holocene Hurricane Events From the Florida Everglades.

Author

Yao, Qiang, Liu, Kam‐biu, Rodrigues, Erika, Bianchette, Thomas, Aragón‐Moreno, Alejandro Antonio, and Zhang, Zhenqing

Subjects

INTERTROPICAL convergence zone, SALTWATER encroachment, HURRICANES, NORTH Atlantic oscillation, SOUTHERN oscillation, MANGROVE forests, ANALYSIS of river sediments, X-ray fluorescence

Abstract

A 5.25‐m sediment core SRM‐1 and 45 surface samples from mangrove forests at the Shark River Estuary in the Everglades National Park, Florida, were examined by using X‐ray fluorescence and carbon isotopic analyses to study the history of intense hurricane landfall during the Late‐Holocene. Significance testing of the surface samples in relation to storm deposits from Hurricane Wilma suggests that elemental concentration of Sr and Cl and the ratio of Cl/Br are the most sensitive indicators for major hurricane events in our study area. The geochemical data sets of core SRM‐1 identified five active periods of intense hurricane activities during the last 3,500 years at ~3,400–3,000, ~2,200–1,500, ~1,000–800, ~600–300, and ~150 calibrated years before present to present. This is the longest paleohurricane record to date from South Florida. Our results are consistent with the view that intense hurricane activities in South Florida were modulated by Intertropical Convergence Zone (ITCZ) movements, El Niño/Southern Oscillation (ENSO) activities, and North Atlantic Oscillation (NAO) strength. This study contributes to the methodological advancement in paleotempestological studies by demonstrating that geochemical signals, particularly signals of saltwater intrusions, can be preserved in the sediment profiles on millennial time‐scale and measured by X‐ray fluorescence techniques, thereby enabling more storm records to be produced from otherwise suboptimal sand‐limited coastal systems such as the Florida Everglades. More work needs to be done to explore the use of geochemical and stable isotopic analyses in detecting storm signals from sand‐limited coastal environments. Plain Language Summary: This study uses geochemical analyses to detect intense hurricanes that made landfall near the southwest coast of the Florida Everglades from sediment profiles. The geochemical data sets identified five active periods of intense hurricane activities during the last 3,500 years at ~3,400–3,000, ~2,200–1,500, ~1,000–800, ~600–300, and ~150 years ago. Results from this study agree with previous studies that intense hurricane activities in the western Atlantic Basin were controlled by the position of ITCZ, ENSO activities, and NAO strength. Key Points: This study demonstrates the use of XRF analysis in detecting major hurricane events in sand‐limited coastal systemsFive active hurricane periods were identified at ~3,400–3,000, ~2,200–1,500, ~1,000–800, ~600–300, and ~150 cal yr BP to presentThis study suggests that intense hurricane activities in the western Atlantic Basin were modulated by ITCZ, ENSO, and NAO activities [ABSTRACT FROM AUTHOR]

Published

2020

17. A 1200-year history of environmental changes in Bay Jimmy area, coastal Louisiana, USA.

Author

Kiage, Lawrence M

Subjects

*LITTLE Ice Age, *MIDDLE Ages, *BAYS, *PALEOENVIRONMENTAL studies, *MULBERRY, *POLLEN, *PHRAGMITES

Abstract

Paleoecological studies from the northern Gulf of Mexico (GOM) have mostly aimed at understanding long-term paleoenvironmental changes. Only a few studies have been performed in the southern United States focusing on paleoenvironmental changes during the common era. This study investigated paleoenvironmental changes in coastal Louisiana over the past 1200 years by utilizing proxy data, including loss-on-ignition (LOI) and pollen from a sediment core collected from a wetland in Bay Jimmy. The results indicate that the marsh in the study area was formed at ca. AD 1090 and has been primarily shaped by prevailing climatic conditions, including rare extreme events. At least four major hurricanes impacted the site over the 1200 years, including two that made landfall in recent times. The findings show that coastal Louisiana was warm and dry during the 'Medieval Warm Period' (ca. AD 950–1250). The environment after AD 1090 contained scattered Pinus and Juglans vegetation communities that were later succeeded by a closed forest that included Quercus and Morus. Red mangrove (Rhizophora) was established in the vicinity of Bay Jimmy until shortly after cal AD 1450 and 1640. The pollen record indicates that the 'Little Ice Age' period (AD 1550–1850) was cold and dry, characterized by a more open vegetation community. There is evidence of forest disturbance that is marked by a rise in Ambrosia pollen in the 1700s, coinciding with the time of European settlement in North America. The presence of Ambrosia and Cheno/Am pollen throughout the record suggests that anthropogenic influence has been part of the fabric of the southern Louisiana landscapes throughout the 1200 years. [ABSTRACT FROM AUTHOR]

Published

2020

18. Geological Oceanography of the Pliocene Warm Period: A Review with Predictions on the Future of Global Warming

Author

Markes E. Johnson

Subjects

El Niño-Southern Oscillation, coastal erosion, storm surge, paleotempestology, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Atmospheric carbon dioxide reached a record concentration of 419 parts per million in May 2021, 50% higher than preindustrial levels at 280 parts per million. The rise of CO2 as a heat-trapping gas is the principal barometer tracking global warming attributed to a global average increase of 1.2 °C over the last 250 years. Ongoing global warming is expected to perturb extreme weather events such as tropical cyclones (hurricanes/typhoons), strengthened by elevated sea-surface temperatures. The melting of polar ice caps in Antarctica and Greenland also is expected to result in rising sea levels through the rest of this century. Various proxies for the estimate of long-term change in sea-surface temperatures (SSTs) are available through geological oceanography, which relies on the recovery of deep-sea cores for the study of sediments enriched in temperature-sensitive planktonic foraminifera and other algal residues. The Pliocene Warm Period occurred between ~4.5 and 3.0 million years ago, when sea level and average global temperatures were higher than today, and it is widely regarded as a predictive analog to the future impact of climate change. This work reviews some of the extensive literature on the geological oceanography of the Pliocene Warm Period together with a summary of land-based studies in paleotempestology focused on coastal boulder deposits (CBDs) and coastal outwash deposits (CODs) from the margin of the Pacific basin and parts of the North Atlantic basin. Ranging in age from the Pliocene through the Holocene, the values of such deposits serve as fixed geophysical markers, against which the micro-fossil record for the Pliocene Warm Period may be compared, as a registry of storm events from Pliocene and post-Pliocene times.

Published

2021

19. A Tentative Record of Mid-Holocene Sea-Level Highstand and Barrier Overwash from the Cam River Mouth, Vietnam.

Author

Williams, Harry, Hoang, Long Van, Elliott, Patrick, Nguyen, Hiep Huu, and Manh, Ha

Subjects

*SEA level, *SEDIMENT transport, *BEACHROCK, *TROPICAL cyclones, *MOUTH, *STORM surges, *BEACH erosion

Abstract

Williams, H.; Van Hoang, L.; Elliott, P.; Nguyen, H.H., and Manh, H., 2019. A tentative record of mid-Holocene sea-level highstand and barrier overwash from the Cam River mouth, Vietnam. Journal of Coastal Research, 35(4), 852–860. Coconut Creek (Florida), ISSN 0749-0208. A freshwater coastal marsh near the mouth of the Cam River in Northern Vietnam stands 2–3 m above mean sea level and is bordered by a coastal barrier that reaches about 6 m above mean sea level. A core from the marsh contains a 14-cm-thick sand and shell layer. The presence of abundant shell fragments suggests inland transport of littoral sediment, and the sand layer is tentatively identified as a washover deposit. The coast of the study area contains a beachrock standing above the modern beach and reaching to ∼4 m above mean sea level. A tentative explanation of this beachrock is that it represents a beach that formed during a mid-Holocene 2–3-m highstand, evidence for which has been reported from Thailand, Malaysia, Singapore, and Vietnam. Possible explanations of the sand and shell layer include the following: it is a late-Holocene tropical cyclone washover deposit, formed by a large storm surge that overtopped the coastal barrier; or it is a late-Holocene tsunami deposit formed when a tsunami wave, probably from a nearby source, overtopped the coastal barrier. The lack of other distinctive washover deposits in the core suggests that overwash of a magnitude that formed the relatively thick sand and shell layer is a rare event at this site within the last 3000 years. Given the tentative but intriguing results of this study, further research at this site is warranted to better define the stratigraphy and age of the apparent washover deposit. [ABSTRACT FROM AUTHOR]

Published

2019

20. Implications of radiocarbon ages of organic and inorganic carbon in coastal lakes in Florida for establishing a reliable chronology for sediment-based paleoclimate reconstruction.

Author

Wang, Yang, Das, Oindrila, Xu, Xiaomei, Liu, Jin, Jahan, Shakura, Means, Guy H., Donoghue, Joseph, and Jiang, Shijun

Subjects

*CARBON isotopes, *COASTAL sediments, *LAKES, *RADIOCARBON dating, *LAKE sediments, *CORRECTION factors

Abstract

Coastal lake sediments are valuable paleoclimate archives provided that they can be accurately dated. Here, we report radiocarbon ages of bulk sediment organic matter (OM), plants, shells, particulate OM, and dissolved OM from coastal lakes in Florida. Bulk sediment OM yielded ages that are consistently older than contemporaneous plants and shells, indicating significant radiocarbon deficiencies in sedimentary OM in these lakes. The data show that the OM radiocarbon deficiency varies over time and with location, making it impossible to determine a proper correction factor for radiocarbon ages of bulk sediments from these lakes. As a result, we consider ages obtained from bulk sediment OM from these lakes unreliable. The age reversals in bulk sediment OM observed in the sediment cores are likely caused by rapid increases in erosion and sedimentation resulting from large storm events. The data also show that sedimentation rate can vary considerably within a given lake, implying that an age-depth model established for one core cannot be directly applied to other cores despite their close proximity. Analyses of shells from one of the lakes suggest that fresh/brackish-water shells may serve as a good substrate for radiocarbon dating owing to a small reservoir effect on inorganic carbon. [ABSTRACT FROM AUTHOR]

Published

2019

21. Paleotempestology database for the western North Atlantic basin.

Author

Oliva, Frank, Viau, Andre E., Peros, Matthew C., and Bouchard, Marc

Subjects

*CYCLONES, *DATABASES, *HURRICANES, *HOLOCENE paleoclimatology, *CLIMATE research

Abstract

Paleotempestology, the study of past tropical cyclone activity, has grown considerably over the past two decades, and there is now a relatively dense network of sites across the Western North Atlantic Basin providing records of past tropical cyclone variability. This paper presents a new database of paleotempestological records generated from 61 studies published between 1993 and 2018 for this region. A total of 266 data entries, consisting of the calibrated ages of individual tropical cyclone events and the boundaries of ‘active’ tropical cyclone periods from the present to 8000 cal. yr BP, along with the site names, geographic coordinates, proxy indicator(s) used, materials upon which dating was undertaken, and information about the depositional basin type (e.g. lagoon, mangrove), are included in the database for each site. The database is housed at the National Oceanographic and Atmospheric Association (NOAA) (https://www.ncdc.noaa.gov/paleo/study/21391) and is available for free download. This publicly available database will permit a greater number of researchers to work on questions related to past tropical cyclone dynamics and more easily allow studies of long-term spatial-temporal tropical cyclone relationships to be undertaken. [ABSTRACT FROM AUTHOR]

Published

2018

22. Hurricane Overwash and Decadal-Scale Evolution of a Narrowing Barrier Island, Ocracoke Island, NC.

Author

Conery, Ian, Walsh, J. P., and Reide Corbett, D.

Subjects

SEDIMENT transport, SEDIMENTS, SEA level, COASTAL changes, PHYSICAL geography

Abstract

Barrier islands are found around the world and are important environmentally and economically. With accelerated sea level rise and relentless storms, their evolution is complex but important to understand, especially from a coastal planning and managing perspective. In this study, shoreline change estimates from aerial photography (1949, 1974, 2006), sedimentological and stratigraphic investigation, and analysis of geomorphic character were used to evaluate the hurricane response and decadal evolution of Ocracoke Island, NC. Between 1949 and 2006, the majority (> 65% of transects) of the entire island eroded at an average rate of − 0.54 m/year. Cross-island width decreased by as much as 40% (180 m) over the period. Hurricane Isabel (2003) represented up to 23% of the long-term net change in some regions of the island. The rate of narrowing of Ocracoke Island appears to have increased in the last half century and is due to a combination of natural and anthropogenic factors. Isabel overwashed a total of 9% of the island based on aerial photographic analysis with an average deposit thickness of 0.24 m based on trench investigation. Assessment with the Storm Impact Scale showed a direct relationship between overwash and the pre-existing dune conditions, which had been affected by long-term erosion. Sedimentological signatures interpreted from cores show up to four distinct stacked overwash deposits, potentially dating back as far as 1944. This multi-pronged analysis shows the complexity of barrier island evolution and highlights the necessity to examine and model a system response in four dimensions (i.e., spatially and with time). [ABSTRACT FROM AUTHOR]

Published

2018

23. Multi-proxy Characterization of Hurricanes Rita and Ike Storm Deposits in the Rockefeller Wildlife Refuge, Southwestern Louisiana.

Author

Yao, Qiang, Liu, Kam-biu, and Ryu, Junghyung

Subjects

*COASTAL changes, *SHORELINES, *HURRICANE Rita, 2005, *HURRICANE Ike, 2008, *COASTS

Abstract

ABSTRACT Yao, Q.; Liu, K.-B., and Ryu, J., 2018. Multi-proxy Characterization of Hurricane Rita and Ike Storm Deposits in a Coastal Marsh in the Rockefeller Wildlife Refuge, Southwestern Louisiana. In: Shim, J.-S.; Chun, I., and Lim, H.S. (eds.), Proceedings from the International Coastal Symposium (ICS) 2018 (Busan, Republic of Korea). Journal of Coastal Research, Special Issue No. 85, pp. 841–845. Coconut Creek (Florida), ISSN 0749-0208. In 2005 and 2008, Hurricanes Rita and Ike made landfalls as category 3 and 2 hurricanes to the west of Rockefeller Wildlife Refuge (RWR) in southwestern Louisiana. In 2013, three ~30 cm sediment monoliths dominated by brown clay were recovered along a ~30 m transect perpendicular to the shoreline from the RWR. Each monolith contains two distinct light-colored calcareous storm deposits that are attributable to these two landfalling hurricanes. Loss-onignition and X-ray fluorescence (XRF) analyses were performed on all three sediment monoliths to study the sedimentological and geochemical characteristics of these two storm deposits. The geochemical results show that the storm deposits are characterized by higher-than-average values of Ca, Sr, Zr, and carbonates and low percentages of water and organics. In addition, remote sensing images show that the rate of average shoreline retreat at the RWR is ~14.5 m/yr from 1998 to 2017, and 19 m/year and 25.5 m/yr during the Hurricane Rita and Ike years, respectively. Both loss-on-ignition and XRF results also show that despite being a stronger storm, the Hurricane Rita layers are much thinner than those of Hurricane Ike in all monoliths. Remote sensing data support our interpretation that Hurricane Rita caused significant shoreline erosion and coastal recession in 2005, rendering the sampling locations at least 30 m closer to the ocean and thereby more susceptible to storm surges when Hurricane Ike struck in 2008. Thus, these results suggest that site-to-sea distance is an important factor in determining the thicknesses of storm deposits in coastal wetlands, particularly along shorelines undergoing rapid marine transgression. [ABSTRACT FROM AUTHOR]

Published

2018

24. Assessing the Effectiveness of Coastal Foredune Barriers in Reducing Hurricane Washover Sedimentation.

Author

Williams, Harry

Subjects

*SEDIMENTATION & deposition, *GLOBAL warming, *SEA level, *STORM surges, *MARSHES

Abstract

This study tests the effectiveness of physical barriers in blocking or reducing washover sedimentation in coastal marshes. It is widely assumed that natural and artificial physical barriers, such as foredunes and roads, block or reduce storm overwash. However, there appears to be little documented assessment of this effect. This topic has gained significance recently because of concerns over sea-level rise induced by global warming creating a larger potential threat from storm overwash. Nearshore physical barriers act to protect populations and infrastructure farther inland from storm surge, but they may also reduce sediment delivery to coastal marshlands, slowing their vertical accretion and contributing to their submergence by rising sea level. Consequently, there is a critical need for more information on the effect of physical barriers on marsh sedimentation. Washover sediment beds were examined along two transects across marshes in McFaddin National Wildlife Refuge in southeastern Texas, one in the lee of a higher and wider foredune barrier and one where foredunes are lower and narrower. Washover sediment beds deposited by Hurricanes Rita (2005) and Ike (2008) were found on both transects. Comparison of washover sedimentation along the two transects showed an average 40% reduction in sediment volume and an average reduction in inland extent of deposits of 505 m in the lee of the higher and wider barrier. These results show that even relatively subtle increases in barrier dimensions can cause substantial reductions in the magnitude of washover sedimentation in marshes. These findings have implications for paleotempestology studies that use the magnitude of washover sedimentation in the lee of dynamic coastal barriers as geologic proxies of storm intensity. Coastal management agencies contemplating the use of physical barriers to block storm surge should take into consideration the impact of such barriers on the sustainability of coastal marshes faced with rising sea level. [ABSTRACT FROM AUTHOR]

Published

2018

25. Recording Tropical Cyclone Activity from 1909 to 2014 along the Northern Gulf of Mexico using Maritime Slash Pine Trees (Pinus elliottii var. elliottii Engelm.).

Author

Tucker, Clay S., Trepanier, Jill C., Harley, Grant L., and DeLong, Kristine L.

Subjects

*UNDERWATER archaeology, *ESTUARINE ecology, *SALINE waters, *PINE

Abstract

The temporally incomplete tropical cyclone (TC) observational record limits the understanding of recurrence intervals and the impacts of repeated TCs on coastal ecosystems. Growth of maritime trees near the Gulf of Mexico may be affected by high winds, precipitation, and storm surges from TCs. Proxy records, such as tree growth recorded in annual ring widths, can be used to extend TC records temporally but must be verified with the observational record first. This study develops chronologies of total ring width (TRW), earlywood ring width (ERW), and latewood ring width (LRW) from slash pine (Pinus elliottii var. elliottii Engelm.) trees located 2 km from an open saltwater bay in the Grand Bay National Estuarine Research Reserve in coastal Mississippi, U.S.A. These chronologies are compared with TC storm surge and wind speed records using superposed epoch analysis. The year after a TC occurrence, tree growth is significantly (p < 0.05) suppressed (narrower than average annual growth rings) for TRW, ERW, and LRW with respect to storm surge and shows no statistical significance with high wind speeds. Individual trees display suppression in growth for 1-6 years after TC occurrences. This study demonstrates that slash pine trees in close proximity to salt water can be used to produce chronologies of TC occurrences for the northern Gulf of Mexico region and thus can eventually be used to extended and supplement temporally the existing TC observational record. [ABSTRACT FROM AUTHOR]

Published

2018

26. Hurricane Impact on Seepage Water in Larga Cave, Puerto Rico.

Author

Vieten, Rolf, Warken, Sophie, Winter, Amos, Schröder‐Ritzrau, Andrea, Scholz, Denis, and Spötl, Christoph

Abstract

Abstract: Hurricane‐induced rainfall over Puerto Rico has characteristic δ18O values which are more negative than local rainfall events. Thus, hurricanes may be recorded in speleothems from Larga cave, Puerto Rico, as characteristic oxygen isotope excursions. Samples of 84 local rainfall events between 2012 and 2013 ranged from −6.2 to +0.3‰, whereas nine rainfall samples belonging to a rainband of hurricane Isaac (23–24 August 2012) ranged from −11.8 to −7.1‰. Cave monitoring covered the hurricane season of 2014 and investigated the impact of hurricane rainfall on drip water chemistry. δ18O values were measured in cumulative monthly rainwater samples above the cave. Inside the cave, δ18O values of instantaneous drip water samples were analyzed and drip rates were recorded at six drip sites. Most effective recharge appears to occur during the wet months (April–May and August–November). δ18O values of instantaneous drip water samples ranged from −3.5 to −2.4‰. In April 2014 and April 2015 some drip sites showed more negative δ18O values than the effective rainfall (−2.9‰), implying an influence of hurricane rainfall reaching the cave via stratified seepage flow months to years after the event. Speleothems from these drip sites in Larga cave have a high potential for paleotempestology studies. [ABSTRACT FROM AUTHOR]

Published

2018

27. 2500-year paleotempestological record of intense storms for the northern Gulf of Mexico, United States.

Author

Bregy, Joshua C., Wallace, Davin J., Minzoni, Rebecca Totten, and Cruz, Valerie J.

Subjects

*STORMS, *HURRICANES, *ATMOSPHERIC transport, *FOSSIL microorganisms

Abstract

The northern Gulf of Mexico has been devastated by recent intense storms. Camille (1969) and Katrina (2005) are two notable hurricanes that made landfall in nearly the same location in Mississippi. Fully understanding the risks and processes associated with hurricane impacts are impeded by a short and fragmented instrumental record, however. Paleotempestology has the potential to employ modern analogues from intense storms in this region to extend the hurricane record beyond pre-observational time. Existing empirically-based models can back-calculate surge heights over coastal systems as a function of transport distance, particle settling velocity, and gravitational acceleration. We collected sediment cores in a pond (3) and adjacent beach (1) in Hancock County, Mississippi. Grain-size, loss-on-ignition, and microfossil analyses were conducted on cores in the context of a Bayesian statistical age model using 137 Cs and 14 C dating. Using Hurricane Camille to calibrate the archive, similar coarse-grained deposits were identified, and inverse sediment transport models calculated paleosurge intensities similar in magnitude to Camille over the 2500-yr record. Our multi-millennial annual average landfall probability (0.48%) closely matches previously published studies from the Gulf of Mexico, indicating that intense hurricanes have not varied over these timescales. Over centennial timescales, active intervals occurred between 900 to 600 and 2200 to 1900 yr BP, with relative quiescence between 1900 to 900 yr BP. Comparisons with other published sites support the notion that southerly shifts in the Loop Current may be responsible for the decline in activity around 600 yr BP. [ABSTRACT FROM AUTHOR]

Published

2018

28. Investigation of sedimentary records of Hurricane Irma in sinkholes, Big Pine Key, Florida

Author

Youzhu Wang, Ping Wang, Gregory S. Herbert, Robert H. Tykot, Philip E. van Beynen, and Gregg R. Brooks

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Feature (archaeology), Sinkhole, Geography, Planning and Development, Storm, 010502 geochemistry & geophysics, 01 natural sciences, Paleotempestology, Oceanography, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Key (lock), Sedimentary rock, Overwash, Geology, 0105 earth and related environmental sciences

Abstract

Few paleotempestological studies have focused on coastal sinkholes, a common feature in Florida, which can receive and preserve storm overwash sediments. The major goal of this research is to improve our understanding of the characteristic signatures of storm sediments in sinkholes thereby determining reliability of these environments as proxies for hurricanes. Hurricane Irma as a category 5 storm provides an excellent case study for characterizing storm deposits in sinkholes on Big Pine Key. We cored at four sinkholes along a 350 m transect normal to the shoreline. Core sediments were characterized using physical description, short-lived radioisotope dating, sediment grain size analysis, loss-on-ignition, microfossil analysis, and x-ray fluorescence elemental analysis. We found that Irma deposits had higher abundances of marine foraminifera, less total organic matter and elevated Si/Al and Ca/Ti ratios, compared to pre- or post-Irma sediments. In addition, there was a thinning of the storm sediments along the inland transect. Consequently, we propose that sinkholes, particularly those that are closer to the shoreline, can provide reliable sites for paleotempestology studies.

Published

2021

29. The characteristics and preservation potential of Hurricane Irma's overwash deposit in southern Florida, USA.

Author

Joyse, Kristen M., Khan, Nicole S., Moyer, Ryan P., Radabaugh, Kara R., Hong, Isabel, Chappel, Amanda R., Walker, Jennifer S., Sanders, Christian J., Engelhart, Simon E., Kopp, Robert E., and Horton, Benjamin P.

Subjects

*TROPICAL storms, *STORM surges, *LANDFALL, *FOSSIL microorganisms, *CARBON isotopes, *ISOTOPIC signatures, *HURRICANE Irma, 2017

Abstract

Overwash deposits from tropical cyclone-induced storm surges are commonly used as modern analogues for paleo-storm studies. However, the evolution of these deposits between their time of deposition and their incorporation into the geologic record is poorly understood. To understand how the characteristics of an overwash deposit can change over time, we analyzed overwash deposits from four mangrove islands in southern Florida two to three months and twenty-two months after Hurricane Irma's landfall in the region on 10 September 2017. We analyzed the stratigraphy, mean grain size, organic and carbonate contents, stable carbon isotopic signatures, and microfossil (foraminifera and diatom) assemblages of pre-Irma and Irma overwash sediments. Hurricane Irma's storm surge deposited light gray carbonate muds and sands up to 11 cm thick over red organic-rich mangrove peats throughout mangrove islands in southern Florida. Stratigraphy, grain size, loss-on-ignition, and foraminifera analyses provided the strongest evidence for differentiating Irma's overwash deposit from underlying mangrove peats and, if preserved, are expected to identify Hurricane Irma's overwash event within the geologic record. Mean grain size showed the overwash deposit (5.0 ± 0.8 ɸ) was coarser than underlying mangrove peats (6.7 ± 0.7 ɸ), and loss-on-ignition showed the overwash deposit had a lower organic content (19.8 ± 9.1%) and a higher carbonate content (67.8 ± 20.7%) than the underlying peats (59.4 ± 14.6% and 33.7 ± 11.0%, respectively). The overwash deposit was dominated by a diverse, abundant assemblage of sub-tidal benthic calcareous foraminifera compared to a uniform, sparse assemblage of agglutinated foraminifera in the pre-Irma mangrove peats. Geochemical indicators were not able to provide evidence of an overwash event by differentiating organic δ13C or C/N of the overwash deposit from those of the mangrove peats. The complex relationship between diatoms and local environmental factors prevented diatom assemblages from providing a statistically clear distinction between Irma's overwash sediments and underlying mangrove peats. By visiting Hurricane Irma's overwash deposit immediately following landfall and nearly two years post-storm, we were able to document how the overwash deposit's characteristics changed over time. Continued monitoring on the scale of five to ten years would provide further insights into the preservation of overwash deposits for paleo-storm studies. • Hurricane Irma's storm surge deposited carbonate sediments in Florida mangroves. • Sedimentological proxies distinguished Irma's deposit from pre-Irma sediments. • Calcareous foraminifera were diverse and abundant in Irma's deposit. • Despite post-depositional changes, Irma's deposit should be captured by the geologic record. • Modern analogue deposits are necessary to create robust paleo-records. [ABSTRACT FROM AUTHOR]

Published

2023

30. The response of diatom assemblages in a Jamaican coastal lagoon to hurricane and drought activity over the past millennium

Author

Charlotte A Heller, Michael J. Burn, Suzanne E. Palmer, John P. Smol, and Neal Michelutti

Subjects

010506 paleontology, Archeology, Global and Planetary Change, 010504 meteorology & atmospheric sciences, Ecology, biology, Paleontology, Context (language use), biology.organism_classification, 01 natural sciences, Arid, Natural (archaeology), Salinity, Paleotempestology, Geography, Diatom, Oceanography, Natural variability, Bioindicator, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Reconstructing pre-industrial hurricane activity and aridity from natural archives places modern trends within the context of long-term natural variability. The first reconstruction of Atlantic hurricane activity in Jamaica was based on a sediment record previously obtained from a coastal lagoon. Specifically, an Extended Hurricane Activity (EHA) index was developed from high-resolution geochemical data that linked fluctuations in lake-level changes to rainfall variability associated with hurricane activity. Here, we analyse the same sediment core from which the EHA index was developed to assess the response of biological indicators, namely fossil diatom assemblages and sediment chlorophyll a (chl- a) concentrations, to hydrometeorological events (tropical cyclone-induced precipitation and droughts) over the past ~1500 years. The diatom assemblages responded sensitively to changes in salinity associated with lake-level changes driven by the balance of precipitation and evaporation. Aquatic production (inferred from sediment chl- a, which includes its main diagenetic products) and salinity (inferred from ITRAXTM µXRF chlorine counts) vary inversely following ca. 1300 CE, likely due to enhanced nutrient delivery from freshwater runoff during periods of elevated precipitation. Although the temporal resolution of our biological data is less-well resolved than that of the geochemical record, it generally tracks long-term trends in rainfall variability inferred by the EHA index over the past millennium. This further demonstrates the potential of using biological proxies from coastal lagoons to track past hurricane activity and aridity.

Published

2021

31. A 3000 yr paleostorm record from St. Catherines Island, Georgia.

Author

Braun, Erick, Meyer, Brian, Deocampo, Daniel, and Kiage, Lawrence M.

Subjects

*SURFACE temperature, *TEMPERATURE control, *DATA analysis, *SURFACE properties, *DRAG (Aerodynamics)

Abstract

Tropical cyclones (hurricanes in the northern hemisphere) are amongst the most devastating of the world's natural disasters and cause billions of dollars in damage every year. Data on the likelihood of a coastal site being struck by a major hurricane strike can potentially aid in planning and mitigation efforts that could save money and lives. However, forecasting requires data that are currently insufficient for the Georgia Bight. This study provides information to enhance the paleohurricane record by analysis of a 467 cm thick vibracore raised from St. Catherines Island, GA. Sediment geochemistry and foraminiferal assemblages indicate deposits attributable to seven paleohurricane events, five of which were likely major hurricanes when they made landfall on St. Catherines. Magnitudes were estimated by comparison to the overwash deposit left by “The Sea Islands hurricane of 1893”, a major hurricane recorded by the recent sediment of St. Catherines Island. The St. Catherines record also shows a change in the activity levels on the Georgia coast with two distinct activity regimes over the past 3000 years. [ABSTRACT FROM AUTHOR]

Published

2017

32. Linking hurricane landfalls, precipitation variability, fires, and vegetation response over the past millennium from analysis of coastal lagoon sediments, southwestern Dominican Republic.

Author

LeBlanc, Allison, Kennedy, Lisa, Liu, Kam-biu, and Lane, Chad

Subjects

HURRICANES, PRECIPITATION variability, COASTAL sediments, LAGOONS

Abstract

We reconstructed the late-Holocene environmental history of a coastal lagoon in semi-arid southwestern Hispaniola through multiproxy analysis of a sediment core, including pollen, macroscopic and microscopic charcoal, loss-on-ignition analysis (LOI), stable isotope analysis, bulk density, and magnetic susceptibility. Four chronological accelerator mass spectrometry radiocarbon dates indicated that our core represents the past ~1000 years. We interpreted ten hurricanes events over the past millennium from high-resolution geological proxies, LOI data, and ostracod valve stable oxygen isotope data, thus producing the first long record of hurricanes from the Dominican Republic. Geological proxies indicated a high-energy event abruptly changed the ecosystem state of our core site from a shallow mangrove wetland to a lacustrine environment ~330 cal yr BP. We interpret the driver of that event to be the landfall of a strong hurricane that initiated lowland flooding, mangrove mortality, and subsequent peat collapse at the core site. Pollen data indicated that during the relatively moist Medieval Warm Period (MWP), hurricanes led to temporary declines in tropical dry forest taxa that recovered within several decades following disturbance. By comparison, during the relatively arid Little Ice Age (LIA), when precipitation was highly variable in the circum-Caribbean, closely spaced hurricanes seemed to delay forest recovery. Sedimentary charcoal concentrations revealed increased fire activity after inferred hurricane landfalls in the MWP, providing evidence of a link between enhanced biomass and fuel availability during moister periods and burning in recently disturbed dry forests and scrub of our semi-arid study region. Our interpretations of increased aridity and precipitation variability, indicated by alternating thin layers of microbial mats with evaporite layers, along with more frequent hurricanes from ~330 cal yr BP to present, generally agree with other sedimentary records from the circum-Caribbean, and may be linked to a more southerly position of the Intertropical Convergence Zone during the LIA. [ABSTRACT FROM AUTHOR]

Published

2017

33. A review of the spatial distribution of and analytical techniques used in paleotempestological studies in the western North Atlantic Basin.

Author

Oliva, Frank, Peros, Matthew, and Viau, André

Subjects

*TROPICAL cyclones, *GRAIN size, *X-ray fluorescence, *CLIMATE change, *ANALYTICAL geochemistry

Abstract

Paleotempestology, the study of past tropical cyclones (TCs) using geological proxy techniques, is a growing discipline that utilizes data from a broad range of sources. Most paleotempestological studies have been conducted using ''established proxies,'' such as grain-size analysis, loss-on-ignition, and micropaleontological indicators. More recently, however, researchers have been applying more advanced geochemical analyses, such as X-ray fluorescence core scanning and stable isotopic geochemistry, to generate new paleotempestological records. In this paper we begin by providing a list of paleotempestological studies for the western North Atlantic Basin and illustrate the spatial coverage of these studies. We then review the premises behind both established and new proxies and discuss their strengths and limitations at resolving past hurricane activity. Lastly, we suggest future directions for paleotempestological research based on our review of the literature that we argue will ultimately lead to a better understanding of TC dynamics under future climate change scenarios. [ABSTRACT FROM AUTHOR]

Published

2017

34. Verification of tropical cyclone deposits with oxygen isotope analyses of coeval ostracod valves.

Author

Lane, Chad, Hildebrandt, Brooklyn, Kennedy, Lisa, LeBlanc, Allison, Liu, Kam-Biu, Wagner, Amy, and Hawkes, Andrea

Subjects

TROPICAL cyclones, LAKE sediments, OXYGEN isotopes, FOSSIL ostracoda, LAGOON ecology

Abstract

Reconstruction of prehistoric tropical cyclone (TC) activity often relies on the identification of distinctive overwash deposits (tempestites) in coastal lagoon sediments. Similar sediment deposits, however, can result from high-energy events other than TCs. In this study we assessed the utility of using the geochemistry of ostracod valves, specifically their stable oxygen isotope composition (δO), as a potential validation variable that could reduce the chances of misidentifying an overwash deposit as having been generated by a TC, when in fact it formed from another high-energy depositional process (type 1 error). We applied this technique to a sediment core recovered from Laguna Alejandro, Dominican Republic, which had already been analyzed for other sedimentary TC proxies. Negative δO anomalies identified in the ostracod valve stable isotope record are associated with TC deposits and are most easily explained by large influxes of O-depleted meteoric waters typical of intense tropical storms. There is potential for this technique to be used to identify TC landfalls that are not represented by overwash deposits. We, however, propose a more conservative approach and suggest this technique be used to validate the origin of a storm deposit and reduce the odds of a type 1 error. [ABSTRACT FROM AUTHOR]

Published

2017

35. Assessing the suitability of Holocene environments along the central Belize coast, Central America, for the reconstruction of hurricane records.

Author

Adomat, Friederike and Gischler, Eberhard

Subjects

*HOLOCENE paleogeography, *HURRICANES, *SEDIMENTATION & deposition, *LAGOONS, *GEOMORPHOLOGY

Abstract

Since the Belize coast was repeatedly affected by hurricanes and the paleohurricane record for this region is poor, sediment cores from coastal lagoon environments along the central Belize coast have been examined in order to identify storm deposits. The paleohurricane record presented in this study spans the past 8000 years and exhibits three periods with increased evidences of hurricane strikes occurring at 6000-4900, 4200-3600 and 2200-1500 cal yr BP. Two earlier events around 7100 and 7900 cal yr BP and more recent events around 180 cal yr BP and during modern times have been detected. Sand layers, redeposited corals and lagoon shell concentrations have been used as proxies for storm deposition. Additionally, hiatuses and reversed ages may indicate storm influence. While sand layers and corals represent overwash deposits, the lagoon shell concentrations, which mainly comprise the bivalve Anomalocardia cuneimeris and cerithid gastropods, have been deposited due to changes in lagoon salinity during and after storm landfalls. Comparison with other studies reveals similarities with one record from Belize, but hardly any matches with other published records. The potential for paleotempestology reconstructions of the barrier-lagoon complexes along the central Belize coast differs depending on geomorphology, and deposition of washovers in the lagoon basins is limited, probably due to the interplay of biological, geological and geomorphological processes. [ABSTRACT FROM AUTHOR]

Published

2017

36. Sedimentary signature of Hurricane Isaac in a Taxodium swamp on the western margin of Lake Pontchartrain, Louisiana, USA.

Author

KAM-BIU LIU, McCLOSKEY, TERRENCE A., ORTEGO, STACY, and KANCHAN MAITI

Subjects

BALDCYPRESS, HURRICANE Isaac, 2012, COASTAL changes, SALT marshes

Abstract

Compositional and geochemical profiles were established for a 59-cm sediment core extracted from a small pothole pond in a Taxodium (bald cypress) swamp 830 m inland from Lake Pontchartrain in south-eastern Louisiana, USA. The core consists of a top organic unit (peat to clayey peat) from 0–29 cm above a bottom clay unit at 30–59 cm depth. Four distinct zones, marked by gradual changes in organic content and elemental concentrations, occur in the clay unit. These changes probably reflect two cycles of slowly changing water depths. Hurricane Isaac's signature, a brown clay band at 3–5 cm, is identified based on the stratigraphic and compositional correspondence with the storm's event layer, documented from nearby sites. Sedimentary and geochemical similarities between this material and clastic bands at 15–19 and 23–25 cm identify those two intervals as potentially representing earlier floods. The Cl/Br ratio presents a potentially useful method for distinguishing fluvial and marine flooding. [ABSTRACT FROM AUTHOR]

Published

2015

37. Resolving Long‐Term Variations in North Atlantic Tropical Cyclone Activity Using a Pseudo Proxy Paleotempestology Network Approach

Author

Sylvia G. Dee, E. J. Wallace, and Kerry Emanuel

Subjects

Paleotempestology, Geophysics, Climatology, General Earth and Planetary Sciences, Environmental science, Tropical cyclone, Proxy (statistics), Network approach, Term (time)

Published

2021

38. Micropaleontology of the 2013 Typhoon Haiyan overwash sediments from the Leyte Gulf, Philippines.

Author

Pilarczyk, Jessica E., Horton, Benjamin P., Soria, Janneli Lea A., Switzer, Adam D., Siringan, Fernando, Fritz, Hermann M., Khan, Nicole S., Ildefonso, Sorvigenaleon, Doctor, Angelique A., and Garcia, Mikko L.

Subjects

*MICROPALEONTOLOGY, *TYPHOONS, *SEDIMENTS, *COASTAL processes (Physical geology), *FOSSIL foraminifera

Abstract

Coastal geologic records allow for the assessment of long-term patterns of tropical cyclone variability. However, the accuracy of geologic reconstructions of tropical cyclones is limited by the lack of modern analogues. We describe the microfossil (foraminifera and testate amoebae) assemblages contained within overwash sediments deposited by Typhoon Haiyan when it made landfall on the islands of Leyte and Samar in the Philippines on 7 November 2013 as a Category 5 super typhoon. The overwash sediments were transported up to 1.7 km inland at four study sites. The sediments consisted of light brown medium sand in a layer < 1 to 8 cm thick. We used Partitioning Around a Medoid (PAM) cluster analysis to identify lateral and vertical changes in the foraminiferal and testate amoebae data. The presence of intertidal and subtidal benthic, and planktic foraminifera that were variably unaltered and abraded identify the microfossil signature of the overwash sediments. Agglutinated mangrove foraminifera and testate amoebae were present within the overwash sediments at many locations and indicate terrestrial scouring by Haiyan’s storm surge. PAM cluster analysis subdivided the Haiyan microfossil dataset into two assemblages based on depositional environment: (1) a low-energy mixed-carbonate tidal flat located on Samar Island (Basey transect); and (2) a higher-energy clastic coastline near Tanauan on Leyte Island (Santa Cruz, Solano, and Magay transects). The assemblages and the taphonomy suggest a mixed provenance, including intertidal and subtidal sources, as well as a contribution of sediment sourced from deeper water and terrestrial environments. [ABSTRACT FROM AUTHOR]

Published

2016

39. Revised paleoenvironmental analysis of the Holocene portion of the Barbados sea-level record: Cobbler's Reef revisited.

Author

Toscano, Marguerite

Subjects

CORAL reefs & islands, PALEOENVIRONMENTAL studies, ELKHORN coral, SEA level, PALEOCLIMATOLOGY

Abstract

Sample elevations corrected for tectonic uplift and assessed relative to local modeled sea levels provide a new perspective on paleoenvironmental history at Cobbler's Reef, Barbados. Previously, C-dated surface samples of fragmented Acropora palmata plotted above paleo sea level based on their present (uplifted) elevations, suggesting supratidal rubble deposited during a period of extreme storms (4500-3000 cal BP), precipitating reef demise. At several sites, however, A. palmata persisted, existing until ~370 cal BP. Uplift-corrected A. palmata sample elevations lie below the western Atlantic sea-level curve, and ~2 m below ICE-6G-modeled paleo sea level, under slow rates of sea-level rise, negating the possibility that Cobbler's Reef is a supratidal storm ridge. Most sites show limited age ranges from corals likely damaged/killed on the reef crest, not the mixed ages of rubble ridges, strongly suggesting the reef framework died off in stages over 6500 yr. Reef crest death assemblages invoke multiple paleohistoric causes, from ubiquitous hurricanes to anthropogenic impacts. Comparison of death assemblage ages to dated regional paleotempestological sequences, proxy-based paleotemperatures, recorded hurricanes, tsunamis, European settlement, deforestation, and resulting turbidity, reveals many possible factors inimical to the survival of A. palmata along Cobbler's Reef. [ABSTRACT FROM AUTHOR]

Published

2016

40. Geologic records of Holocene typhoon strikes on the Gulf of Thailand coast.

Author

Williams, Harry, Choowong, Montri, Phantuwongraj, Sumet, Surakietchai, Peerasit, Thongkhao, Thanakrit, Kongsen, Stapana, and Simon, Eric

Subjects

*TYPHOONS, *GEOLOGICAL statistics, *HOLOCENE Epoch, *TROPICAL cyclones, *STORM surges

Abstract

Washover sedimentation resulting from modern typhoon strikes on the Gulf of Thailand coast forms anomalous sand layers in low-energy coastal environments including marshes, ponds and swales. The primary diagnostic for recognizing prehistoric typhoon-deposited sand layers in the geologic record are sharp upper and lower contacts between coarser-grained transported sand layers and finer-grained in-situ sediments. In this first paleotempestology study in Thailand, cores from two low-energy settings on the Gulf of Thailand coast – a coastal marsh near Cha-am and beach ridge plain swales near Kui Buri – reveal geologic evidence of up to 19 typhoon strikes within the last 8000 years. The sand layers have sharp upper and lower contacts with enclosing finer sediments. Some sand layers also contain other evidence of a sudden powerful landward-directed surge of ocean water, including gravel-sized clasts, offshore foraminifera, abundant shell fragments, plant debris and mud rip-up clasts. Sand layers record eleven typhoon strikes at Cha-am, ranging in age from AD 1952 to 7575 cal. yr. BP, and eight typhoon strikes at Kui Buri, ranging in age from 4075 to 7740 cal. yr. BP. Bayesian age–depth models, derived from eight AMS radiocarbon dates, suggest that the frequency of typhoon strikes was 2–5 times greater from 3900 to 7800 cal. yr. BP compared to 0–3900 cal. yr. BP. Possible explanations for this variability in the typhoon record are that typhoons were more frequent and/or more intense in Southeast Asia in the mid-Holocene because of climatic changes associated with the Mid-Holocene Warm Period or that the record reflects site sensitivity changes resulting from a mid-Holocene sea-level highstand. The preliminary finding of a possible link between warmer conditions and a greater frequency of intense typhoon strikes could have important societal implications, given possible consequences of ongoing global warming. [ABSTRACT FROM AUTHOR]

Published

2016

41. Establishing the Chronology of Paleo-Storms During the Holocene on the Magdalen Islands, Eastern Canada, Using Peat Cores.

Author

Lachance, Antoine, St-Jacques, Jeannie-Marie, and Peros, Matt

Subjects

*HOLOCENE Epoch, *TROPICAL cyclones, *WINTER storms, *CLIMATE change

Abstract

Tropical cyclones and winter storms are pervasive dangers to coastal communities in eastern Canada. To better understand the impact of climate change on these events, two peat sequences of 3.25 and 7.00-meter long were recovered from two ombrotrophic peat bogs on Îie du Havre-Aubert, the southernmost island of the Magdalen Islands archipelago, in eastern Canada. The samples cover the entire peat sequence, with the base of the cores ending in sediments of glacial or marine origin. The cores were sampled to be dated by 14C. The bottommost peat sediments date back to ~8500 years for the 7.00-meter core and ~4200 years for the 3.25-meter core. Both cores were analysed with high resolution X-ray microfluorescence (µ-XRF) and computerized-tomography (CT) scans to detect the presence of allochthonous material from the ocean and surrounding beaches and sandstone cliffs deposited in the peatbogs during extreme weather events. Preliminary analyses show high frequency variability in bromine and chlorine, which may be associated to sea-spray, and terrigenous elements (potassium, titanium, manganese, iron), which may be associated to surrounding beaches and cliffsediments. Ultimately, Holocene past-storminess will be established by combining [µ-XRF geochemistry, CT-scan-derived density measurements, and aeolian sand influx measurements derived from loss-on-ignition (LOI) analysis. [ABSTRACT FROM AUTHOR]

Published

2022

42. Grain-size analysis of hurricane-induced event beds in a New England salt marsh, Massachusetts, USA

Author

Castagno, Katherine, Donnelly, Jeffrey P., Woodruff, Jonathan D., Castagno, Katherine, Donnelly, Jeffrey P., and Woodruff, Jonathan D.

Abstract

Author Posting. © Coastal Education and Research Foundation, 2021. This article is posted here by permission of Coastal Education and Research Foundation for personal use, not for redistribution. The definitive version was published in Journal of Coastal Research 37(2), (2021): 326-33, https://doi.org/10.2112/JCOASTRES-D-19-00159.1., Tropical cyclones pose a growing threat to coastal infrastructure and livelihood. Because instrumental and historic records are too short to help us understand interactions between tropical cyclones and climate on a longer scale, proxy records are the only means for reconstructing millennia of tropical cyclone impacts. This study determines grain-size trends in storm-induced overwash deposits along a transect of sediment cores from a salt marsh in Mattapoisett, Massachusetts, to characterize sorting trends and compare deposits associated with individual storms. The overwash deposits preserved within the high-marsh peat provide a record spanning the last two millennia. Building on a 2010 study, a different approach was used to accurately determine the grain-size distribution of overwash deposits from cores in a transect running perpendicular to the adjacent sandy/gravely barrier. Although maximum grain-size values are expected to decrease as distance from the barrier increases, not all event deposits that were studied follow this trend within uncertainty. Analysis of the storm event beds reveal a significant difference in settling trends between historic and prehistoric deposits, with historic deposits largely displaying landward-fining trends and prehistoric deposits largely displaying landward-coarsening trends. This suggests changes in the hydrodynamic or that geomorphic regime may have altered the way in which storm beds were deposited at this site. This new in-depth, transect-based approach has utility for improving the accuracy of future storm reconstructions, particularly for events for which no historic record exists.

Published

2021

43. A 1200-year history of environmental changes in Bay Jimmy area, coastal Louisiana, USA

Author

Lawrence M. Kiage

Subjects

Palynology, 010506 paleontology, Archeology, Global and Planetary Change, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ecology, Paleontology, Wetland, 15. Life on land, 01 natural sciences, Paleotempestology, Oceanography, Geography, 13. Climate action, Little ice age, Bay, Medieval warm period, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Paleoecological studies from the northern Gulf of Mexico (GOM) have mostly aimed at understanding long-term paleoenvironmental changes. Only a few studies have been performed in the southern United States focusing on paleoenvironmental changes during the common era. This study investigated paleoenvironmental changes in coastal Louisiana over the past 1200 years by utilizing proxy data, including loss-on-ignition (LOI) and pollen from a sediment core collected from a wetland in Bay Jimmy. The results indicate that the marsh in the study area was formed at ca. AD 1090 and has been primarily shaped by prevailing climatic conditions, including rare extreme events. At least four major hurricanes impacted the site over the 1200 years, including two that made landfall in recent times. The findings show that coastal Louisiana was warm and dry during the ‘Medieval Warm Period’ (ca. AD 950–1250). The environment after AD 1090 contained scattered Pinus and Juglans vegetation communities that were later succeeded by a closed forest that included Quercus and Morus. Red mangrove ( Rhizophora) was established in the vicinity of Bay Jimmy until shortly after cal AD 1450 and 1640. The pollen record indicates that the ‘Little Ice Age’ period (AD 1550–1850) was cold and dry, characterized by a more open vegetation community. There is evidence of forest disturbance that is marked by a rise in Ambrosia pollen in the 1700s, coinciding with the time of European settlement in North America. The presence of Ambrosia and Cheno/Am pollen throughout the record suggests that anthropogenic influence has been part of the fabric of the southern Louisiana landscapes throughout the 1200 years.

Published

2019

44. Grain-Size Analysis of Hurricane-Induced Event Beds in a New England Salt Marsh, Massachusetts, USA

Author

Jonathan D. Woodruff, Katherine A. Castagno, and Jeffrey P. Donnelly

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ecology, 010505 oceanography, Sorting (sediment), Storm, 01 natural sciences, Paleotempestology, Salt marsh, Physical geography, Overwash, Tropical cyclone, Transect, Sediment transport, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes, Water Science and Technology

Abstract

Castagno, K.A.; Donnelly, J.P., and Woodruff, J.D., 2021. Grain-size analysis of hurricane-induced event beds in a New England salt marsh, Massachusetts, USA. Journal of Coastal Research, 37(2), 326–335. Coconut Creek (Florida), ISSN 0749-0208.Tropical cyclones pose a growing threat to coastal infrastructure and livelihood. Because instrumental and historic records are too short to help us understand interactions between tropical cyclones and climate on a longer scale, proxy records are the only means for reconstructing millennia of tropical cyclone impacts. This study determines grain-size trends in storm-induced overwash deposits along a transect of sediment cores from a salt marsh in Mattapoisett, Massachusetts, to characterize sorting trends and compare deposits associated with individual storms. The overwash deposits preserved within the high-marsh peat provide a record spanning the last two millennia. Building on a 2010 study, a different approach was used to accurately determine the grain-size distribution of overwash deposits from cores in a transect running perpendicular to the adjacent sandy/gravely barrier. Although maximum grain-size values are expected to decrease as distance from the barrier increases, not all event deposits that were studied follow this trend within uncertainty. Analysis of the storm event beds reveal a significant difference in settling trends between historic and prehistoric deposits, with historic deposits largely displaying landward-fining trends and prehistoric deposits largely displaying landward-coarsening trends. This suggests changes in the hydrodynamic or that geomorphic regime may have altered the way in which storm beds were deposited at this site. This new in-depth, transect-based approach has utility for improving the accuracy of future storm reconstructions, particularly for events for which no historic record exists.

Published

2021

45. Intense Southwest Florida hurricane landfalls over the past 1000 years.

Author

Ercolani, Christian, Muller, Joanne, Collins, Jennifer, Savarese, Michael, and Squiccimara, Louis

Subjects

*HURRICANES, *OCEAN temperature, *SEDIMENTS, *CLIMATE change

Abstract

Recent research has proposed that human-induced sea surface temperature (SST) warming has led to an increase in the intensity of hurricanes over the past 30 years. However, this notion has been challenged on the basis that the instrumental record is too short and unreliable to reveal long-term trends in hurricane activity. This study addresses this limitation by investigating hurricane-induced overwash deposits (paleotempestites) behind a barrier island in Naples, FL, USA. Paleotempestologic proxies including grain size, percent calcium carbonate, and fossil shells species were used to distinguish overwash events in two sediment cores spanning the last one thousand years. Two prominent paleotempestites were observed in the top 20 cm of both cores: the first identified as Hurricane Donna in 1960 whereas an older paleotempestite (1900–1930) could represent one of three documented storms in the early 1900s. An active period of hurricane overwash from 1000 to 500 yrs. BP and an inactive period from 500 to 150 yrs. BP correlate with reconstructed SSTs from the Main Development Region (MDR) of the North Atlantic Ocean. We observe an increased number of paleotempestites when MDR SSTs are warmer, coinciding with the Medieval Warm Period, and very few paleotempestites when MDR SSTs are cooler, coinciding with the Little Ice Age. Results from this initial Southwest Florida study indicate that MDR SSTs have been a key long-term climate driver of intense Southwest Florida hurricane strikes. [ABSTRACT FROM AUTHOR]

Published

2015

46. Micropaleontological Evidence of Prehistoric Hurricane Strikes from Southeastern North Carolina.

Author

Hippensteel, Scott P. and Garcia, William J.

Subjects

*HURRICANE research, *PALEOCLIMATOLOGY, *SEDIMENTATION & deposition research, *MARSHES, *MARINE sediment analysis, *FORAMINIFERA

Abstract

Hippensteel, S.P. and Garcia, W.J., 2014. Micropaleontological evidence of prehistoric hurricane strikes from southeastern North Carolina. Nine back barrier marshes from Onslow Bay, North Carolina, were cored to a 3-m depth in search of paleohurricane deposits. Only two marshes, Alligator Bay and Tar Landing Bay, contained sand layers enriched with displaced marine foraminifers indicative of storm deposition. Ten discrete storm layers, representing four storms, were recovered at Tar Landing Bay, and 16 storm deposits, representing five storms, were recovered at Alligator Bay. Radiocarbon analysis indicates these storm layers were all deposited during the last 1500 years. Foraminiferal assemblages from the sediments directly below the coarser-grained storm layers indicate that the paleostorms were depositing marine and beach/dune sediment into a variety of marsh subenvironments and that preservation was not necessarily greater in the high marsh (lower bioturbation) subenvironment. Onslow Bay has sustained more than 10 hurricane strikes in the last 200 years. The scarcity of storm deposits detected in the strata from these nine marshes (representing approximately 1500 years of deposition) suggests that sand layers enriched with displaced marine foraminifers may significantly underestimate the frequency of storms in the region and may be limited as a paleotempest proxy. The preserved storm layers probably represent only the largest, most robust storm deposits from intense hurricanes. [ABSTRACT FROM AUTHOR]

Published

2014

47. Storm deposition induced by hurricanes in a rapidly subsiding coastal zone.

Author

Naquin, James D., Kam-biu Liu, McCloskey, Terrence A., and Bianchette, Thomas A.

Subjects

*SEDIMENTOLOGY, *CYCLONES, *MARSHES, *PETROLOGY, *CARBONATES

Abstract

To understand the geological processes induced by tropical cyclones, geochemical and sedimentological analyses were performed on a 3 m sediment core (basal 14C date of 940 +/- 50 years BP) extracted from a marsh adjacent to a backbarrier lake along Louisiana's Gulf of Mexico coast (USA). This study was conducted in order to identify the geologic changes within a subsiding coastal region in the light of coastal recession and past hurricane activity. Previous studies show that Bay Champagne, a semi-circular lake near Port Fourchon, Louisiana, is subjected to subsidence rates between 1.0 and 1.2 cm year-1, the highest rate of retreat within the entire northern Gulf of Mexico. Loss-on-ignition (LOI) and X-ray fluorescence (XRF) analyses, employed to generate lithological and geochemical core profiles, identified three distinct sand layers measuring up to 50 cm in thickness deposited by recent hurricanes. LOI shows large decreases in water, organic, and carbonate contents, indicating the occurrence of marine inundation. Within each marine incursion layer terrestrial elemental concentrations as determined by XRF display large depletions. Grain size analysis of a portion of the core (30-86 cm) indicates the presence of two series of sequential high-energy storm deposits followed by intense fluvial flooding within Bay Champagne. These events are attributed to Hurricanes Katrina/Rita in 2005 and Gustav/Ike in 2008. [ABSTRACT FROM AUTHOR]

Published

2014

48. Hurricane Isaac storm surge deposition in a coastal wetland along Lake Pontchartrain, southern Louisiana.

Author

Kam-biu Liu, McCloskey, Terrence A., Bianchette, Thomas A., Keller, Gregory, Lam, Nina S. N., Cable, Jaye E., and Arriola, Jill

Subjects

*HURRICANE research, *COASTS, *COASTAL ecology, *WETLANDS, *SWAMPS

Abstract

Hurricanes play an important role in shaping the coast of Louisiana. Although the sedimentary signatures of hurricane deposits have been documented in several different coastal environments along the northern Gulf coast, no studies have as yet documented the signatures in wetlands adjacent to large, inland brackish water bodies. In this paper we present results of a case study documenting the distribution and characteristics of storm surge deposits related to Hurricane Isaac (2012) in a wetland on the western shore of Lake Pontchartrain, Louisiana. Hurricane Isaac, a category1 storm, made landfall near the mouth of the Mississippi River on August 28, 2012. Due to its large size and slow movement, Isaac generated strong easterly winds across Lake Pontchartrain, producing a large storm surge along the west shore of the lake and unprecedented flooding in the surrounding lowlands. Loss-on-ignition, XRF, radioisotopic, and grain-size analyses conducted on sediment cores and surface samples from the area identify two distinct sedimentary signatures for the Hurricane Isaac deposits. Near the lake shore the signature is characterized by a laminated silty sand with a geochemical profile closely resembling that of lake bed material. Storm deposits located in a brackish swamp ~ 1km inland consist of a dark, low-organic mud with low concentrations of terrestrial metals and elevated concentrations of Br, S, and Cl. Differences in the storm signal are explained by the differing effect of topographical features on the depositional and transportation processes occurring at the two sites. Utilizing the geochemical/compositional signatures as a hurricane-generated storm surge proxy indicates the possible occurrence of a similar event predating the historical record. [ABSTRACT FROM AUTHOR]

Published

2014

49. Heightened hurricane activity on the Little Bahama Bank from 1350 to 1650 AD.

Author

van Hengstum, Peter J., Donnelly, Jeffrey P., Toomey, Michael R., Albury, Nancy A., Lane, Philip, and Kakuk, Brian

Subjects

*HURRICANES, *TROPICAL cyclones, *HOLOCENE Epoch, *CARBONATES, *COASTAL sediments

Abstract

Deciphering how the climate system has controlled North Atlantic tropical cyclone activity through the Holocene will require a larger observational network of prehistoric hurricane activity. Problematically, the tropical North Atlantic is dominated by carbonate landscapes that typically preserve poorer quality coastal sediment records in comparison to their temperate-region counterparts (e.g., sedimentation continuity and rate). Coastal karst basins (CKBs), such as sinkholes, blueholes, and underwater caves, are widely distributed on carbonate platforms and contain overlooked sedimentary records. Here we present a millennium of hurricane deposits on the Little Bahama Bank archived in a 165 cm core that was extracted from 69 m below sea level in a bluehole on Great Abaco Island, The Bahamas. The coarse-grained overwash deposits associated with both hurricanes Jeanne (2004) and Floyd (1999) were identified using radioisotopes ( 137 Cs, 14 C, 210 Pb), and indicate that the bluehole is sensitive to hurricane-induced sedimentation. Over the last millennium, the Little Bahama Bank experienced heightened hurricane activity from 1350 to 1650 AD. The simplest explanation for this active interval is that favorable climate conditions (El Niño, West African Monsoon, and sea surface temperatures) encouraged North Atlantic hurricane activity at that time. However, asynchronous hurricane activity at similar latitudes in the North Atlantic and Gulf of Mexico suggest that regional oceanography has modulated or amplified regional hurricane activity over the last millennium. [ABSTRACT FROM AUTHOR]

Published

2014

50. Hurricane Isaac storm surge deposition in a coastal wetland along Lake Pontchartrain, southern Louisiana.

Author

Liu, Kam-biu, McCloskey, Terrence A., Bianchette, Thomas A., Keller, Gregory, Lam, Nina S.N., Cable, Jaye E., and Arriola, Jill

Subjects

*HURRICANE Isaac, 2012, *STORM surges, *SEDIMENTATION & deposition, *WETLANDS

Abstract

Liu, K.., McCloskey, T.A., Bianchette, T.A., Keller, G., Lam, N.S.N., Cable, J.E., Arriola, J. 2014. Hurricane Isaac Storm Surge Deposition in a Coastal Wetland along Lake Pontchartrain, Southern Louisiana. In: Green, A.N. and Cooper, J.A.G. (eds.), Proceedings 13th International Coastal Symposium (Durban, South Africa), Journal of Coastal Research, Special Issue No. 70, pp. 266-271, ISSN 0749-0208. Hurricanes play an important role in shaping the coast of Louisiana. Although the sedimentary signatures of hurricane deposits have been documented in several different coastal environments along the northern Gulf coast, no studies have as yet documented the signatures in wetlands adjacent to large, inland brackish water bodies. In this paper we present results of a case study documenting the distribution and characteristics of storm surge deposits related to Hurricane Isaac (2012) in a wetland on the western shore of Lake Pontchartrain, Louisiana. Hurricane Isaac, a category1 storm, made landfall near the mouth of the Mississippi River on August 28, 2012. Due to its large size and slow movement, Isaac generated strong easterly winds across Lake Pontchartrain, producing a large storm surge along the west shore of the lake and unprecedented flooding in the surrounding lowlands. Loss-on-ignition, XRF, radioisotopic, and grain-size analyses conducted on sediment cores and surface samples from the area identify two distinct sedimentary signatures for the Hurricane Isaac deposits. Near the lake shore the signature is characterized by a laminated silty sand with a geochemical profile closely resembling that of lake bed material. Storm deposits located in a brackish swamp ~ 1km inland consist of a dark, low-organic mud with low concentrations of terrestrial metals and elevated concentrations of Br, S, and Cl. Differences in the storm signal are explained by the differing effect of topographical features on the depositional and transportation processes occurring at the two sites. Utilizing the geochemical/compositional signatures as a hurricane-generated storm surge proxy indicates the possible occurrence of a similar event predating the historical record. [ABSTRACT FROM AUTHOR]

Published

2014