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

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

doi:10.1177/03091333211017764

Progress in Physical Geography: Earth and Environment

2021

DOI: 10.1177/03091333211017764

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

Youzhu Wang

Philip van Beynen

Wang Ping

et al.

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 … Show more

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Cited by 2 publications

References 66 publications

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Potential of Cave Sediments as a Proxy for Tropical Cyclone and Storm Activity

Polk,

Van Beynen

2023

Environmental &Amp; Engineering Geoscience

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Cave sediments show promise as a proxy for the reconstruction of paleo-storm activity. Here, we present a study of allochthonous sediments from two different caves located in west-central Florida that exhibit high variability in sediment layer thickness and are characterized by mostly alternating organic matter/sand couplets. Both sediment records are well constrained chronologically by 210Pb for Vandal Cave in Citrus County and by 14C for Jennings Cave in Marion County, with ∼50 and 2,700 years of deposition, respectively. Consequently, the Vandal Cave sediments were used to determine whether historic tropical storms produced changes in stratigraphy. The three thickest layers in Vandal Cave correspond with high-precipitation events between 325 and 500 mm. There are similar sedimentary layers found in Jennings Cave, but the upper sediments representing 50 years of deposition are unfortunately highly compacted due to human traffic in the cave. Episodes of intense deposition were noted, specifically from 1,560 to 1,580 years B.P., when 15 cm of sediment was deposited in eight sand layers, indicating a recurrence interval of ∼2.5 years for major storms. Results from this study suggest cave sediments in certain geographic settings may serve as accurate proxies for storm activity.

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Potential of Cave Sediments as a Proxy for Tropical Cyclone and Storm Activity

Polk,

Van Beynen

2023

Environmental &Amp; Engineering Geoscience

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Unique Habitat for Benthic Foraminifera in Subtidal Blue Holes on Carbonate Platforms

et al. 2021

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Dissolution of carbonate platforms, like The Bahamas, throughout Quaternary sea-level oscillations have created mature karst landscapes that can include sinkholes and off-shore blue holes. These karst features are flooded by saline oceanic waters and meteoric-influenced groundwaters, which creates unique groundwater environments and ecosystems. Little is known about the modern benthic meiofauna, like foraminifera, in these environments or how internal hydrographic characteristics of salinity, dissolved oxygen, or pH may influence benthic habitat viability. Here we compare the total benthic foraminiferal distributions in sediment-water interface samples collected from <2 m water depth on the carbonate tidal flats, and the two subtidal blue holes Freshwater River Blue Hole and Meredith’s Blue Hole, on the leeward margin of Great Abaco Island, The Bahamas. All samples are dominated by miliolid foraminifera (i.e., Quinqueloculina and Triloculina), yet notable differences emerge in the secondary taxa between these two environments that allows identification of two assemblages: a Carbonate Tidal Flats Assemblage (CTFA) vs. a Blue Hole Assemblage (BHA). The CTFA includes abundant common shallow-water lagoon foraminifera (e.g., Peneroplis, Rosalina, Rotorbis), while the BHA has higher proportions of foraminifera that are known to tolerate stressful environmental conditions of brackish and dysoxic waters elsewhere (e.g., Pseudoeponides, Cribroelphidium, Ammonia). We also observe how the hydrographic differences between subtidal blue holes can promote different benthic habitats for foraminifera, and this is observed through differences in both agglutinated and hyaline fauna. The unique hydrographic conditions in subtidal blue holes make them great laboratories for assessing the response of benthic foraminiferal communities to extreme environmental conditions (e.g., low pH, dysoxia).

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

Cited by 2 publications

References 66 publications

Potential of Cave Sediments as a Proxy for Tropical Cyclone and Storm Activity

Potential of Cave Sediments as a Proxy for Tropical Cyclone and Storm Activity

Unique Habitat for Benthic Foraminifera in Subtidal Blue Holes on Carbonate Platforms

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