Emily Elliott scite author profile

Abstract. Cold dense plumes have been associated with coral killoff on tropical shelves as well as with sediment movement from banks to the deep basins adjacent to shallow banks. This paper presents evidence that plumes of dense, salty water generated over shallow banks entrain ambient water rather than descending intact to a density compensation level (as has sometimes been assumed) and that plumes can spread laterally distances of tens of kilometers from their source. In Exuma Sound, dense, salty water appears to be formed year-round by cooling or by evaporation over shallow banks. The water is forced by tidal currents through the channels between islands onto the narrow shelves of Exuma Sound where it likely moves as gravity currents. The gravity currents entrain basin water as they cross the shelf and cascade over the steep shelf edge into Exuma Sound, after which they are advected by ambient currents around the sound. A numerical streamtube model was used to explore early details of plume evolution. The model predicts that the plumes entrain 2.

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Atlantic Ocean Sea Surface Temperatures and Southeast United States streamflow variability: Associations with the recent multi-decadal decline

Sadeghi

Tootle

Elliott

et al. 2019

Journal of Hydrology

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Streamflow Variability Indicated by False Rings in Bald Cypress (Taxodium distichum (L.) Rich.)

Therrell

Elliott

Meko

et al. 2020

Forests

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Despite growing in wet lowland and riparian settings, Taxodium distichum (L.) Rich. (bald cypress) has a strong response to hydroclimate variability, and tree ring chronologies derived from bald cypress have been used extensively to reconstruct drought, precipitation and streamflow. Previous studies have also demonstrated that false rings in bald cypress appear to be the result of variations in water availability during the growing season. In this study 28 trees from two sites located adjacent to the Choctawhatchee River in Northwestern Florida, USA were used to develop a false ring record extending from 1881 to 2014. Twenty false ring events were recorded during the available instrumental era (1931–2014). This record was compared with daily and monthly streamflow data from a nearby gage. All 20 of the false-ring events recorded during the instrumental period occurred during years in which greatly increased streamflow occurred late in the growing season. Many of these wet events appear to be the result of rainfall resulting from landfalling tropical cyclones. We also found that the intra-annual position of false rings within growth rings reflects streamflow variability and combining the false-ring record with tree ring width chronologies improves the estimation of overall summer streamflow by 14%. Future work using these and other quantitative approaches for the identification and measurement of false ring variables in tree rings may improve tree-ring reconstructions of streamflow and potentially the record of tropical cyclone rainfall events.

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US Gulf Coast tropical cyclone precipitation influenced by volcanism and the North Atlantic subtropical high

Bregy

Maxwell

Robeson

et al. 2022

Commun Earth Environ

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Understanding the response of tropical cyclone precipitation to ongoing climate change is essential to determine associated flood risk. However, instrumental records are short-term and fail to capture the full range of variability in seasonal totals of precipitation from tropical cyclones. Here we present a 473-year-long tree-ring proxy record comprised of longleaf pine from excavated coffins, a historical house, remnant stumps, and living trees in southern Mississippi, USA. We use cross-dating dendrochronological analyses calibrated with instrumental records to reconstruct tropical cyclone precipitation stretching back to 1540 CE. We compare this record to potential climatic controls of interannual and multidecadal tropical cyclone precipitation variability along the Gulf Coast. We find that tropical cyclone precipitation declined significantly in the two years following large Northern Hemisphere volcanic eruptions and is influenced by the behavior of the North Atlantic subtropical high-pressure system. Additionally, we suggest that tropical cyclone precipitation variability is significantly, albeit weakly, related to Atlantic multidecadal variability. Finally, we suggest that we need to establish a network for reconstructing precipitation from tropical cyclones in the Southeast USA if we want to capture regional tropical cyclone behavior and associated flood risks.

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A novel method for sampling the suspended sediment load in the tidal environment using bi-directional time-integrated mass-flux sediment (TIMS) samplers

Elliott

Monbureau

Walters

et al. 2017

Estuarine, Coastal and Shelf Science

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Emily Elliott

Dense saline plumes in Exuma Sound, Bahamas

Atlantic Ocean Sea Surface Temperatures and Southeast United States streamflow variability: Associations with the recent multi-decadal decline

Streamflow Variability Indicated by False Rings in Bald Cypress (Taxodium distichum (L.) Rich.)

US Gulf Coast tropical cyclone precipitation influenced by volcanism and the North Atlantic subtropical high

A novel method for sampling the suspended sediment load in the tidal environment using bi-directional time-integrated mass-flux sediment (TIMS) samplers

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