Origin, paleoecology, and extirpation of bluebirds and crossbills in the Bahamas across the last glacial–interglacial transition

On low islands or island groups such as the Bahamas, surrounded by shallow oceans, Quaternary glacial–interglacial changes in climate and sea level had major effects on terrestrial plant and animal communities. We examine the paleoecology of two species of songbirds (Passeriformes) recorded as Late Pleistocene fossils on the Bahamian island of Abaco—the Eastern bluebird (Sialia sialis) and Hispaniolan crossbill (Loxia megaplaga). Each species lives today only outside of the Bahamian Archipelago, with S. sialis occurring in North and Central America and L. megaplaga endemic to Hispaniola. Unrecorded in the Holocene fossil record of Abaco, both of these species probably colonized Abaco during the last glacial interval but were eliminated when the island became much smaller, warmer, wetter, and more isolated during the last glacial–interglacial transition from ∼15 to 9 ka. Today’s warming temperatures and rising sea levels, although not as great in magnitude as those that took place from ∼15 to 9 ka, are occurring rapidly and may contribute to considerable biotic change on islands by acting in synergy with direct human impacts.

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Twitter under Storm: Social Media Response Sensitization in the Caribbean

10.31235/osf.io/8kc46 ◽

2020 ◽

Author(s):

Danilo T Perez-Rivera ◽

Alexis Josué Martínez ◽

Adriana Pons ◽

Alejandro Rodríguez-Natal ◽

Sergio Andrés Davila-Santana

Keyword(s):

Social Media ◽

Emergency Preparedness ◽

Previous History ◽

The Bahamas ◽

Sea Levels ◽

History Of ◽

The Caribbean ◽

Rising Sea Levels ◽

Hurricane Exposure ◽

Effective Design

Climate change has led to rising sea levels and warmer sea surface temperatures. These factors contribute greatly to the intensity of hurricanes and floods they provoke. Projections estimate there will be an increase of 45% to 87% in the frequency of Category >4 hurricanes originating in the Atlantic Basin, which typically impact the Caribbean and Continental United States of America. During the 2019 Hurricane Season, there were 20 depressions, 18 storms, 6 hurricanes and 3 major hurricanes. Through this work, we explored the response on Social Media to these natural phenomena as a function of their trajectory, intensity, and previous exposure of the population to intense natural disasters. Data was collected through the Twitter API. The influences of hurricane proximity and intensity on volume of Social Media production was explored. Hurricane Dorian, with its trajectory strongly threatening the previously exposed Puerto Rico, and eventually causing widespread damage in the Abaco Islands of the Bahamas, presented the strongest case for the evaluation of the dichotomy of responses between populations with differences in previous history of exposure. The landscape of historic hurricane exposure Caribbean has radically changed in recent years. Taking advantage of Big Data to help elucidate these dynamics could be instrumental in the tailoring of emergency preparedness plans and the effective design of mental health first aid strategies.

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Sea Levels of the Last Glacial in the East China Sea Continental Shelf.

The Quaternary Research (Daiyonki-Kenkyu) ◽

10.4116/jaqua.37.235 ◽

1998 ◽

Vol 37 (3) ◽

pp. 235-242 ◽

Cited By ~ 44

Author(s):

Yoshiki Saito

Keyword(s):

Continental Shelf ◽

East China Sea ◽

East China ◽

The East China Sea ◽

Sea Levels ◽

China Sea ◽

Last Glacial ◽

The Last Glacial

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Erratum to: The genetic legacy of lower sea levels: does the confluence of rivers during the last glacial maximum explain the contemporary distribution of a primary freshwater fish (Pseudobarbus burchelli, Cyprinidae) across isolated river systems?

Hydrobiologia ◽

10.1007/s10750-014-1847-z ◽

2014 ◽

Vol 730 (1) ◽

pp. 215-215

Author(s):

Ernst R. Swartz ◽

Albert Chakona ◽

Paul H. Skelton ◽

Paulette Bloomer

Keyword(s):

Freshwater Fish ◽

Last Glacial Maximum ◽

Glacial Maximum ◽

River Systems ◽

Sea Levels ◽

Last Glacial ◽

The Last Glacial Maximum ◽

The Last Glacial

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Maximum sea levels for the last glacial period from U-series ages of submerged speleothems

Nature ◽

10.1038/367357a0 ◽

1994 ◽

Vol 367 (6461) ◽

pp. 357-360 ◽

Cited By ~ 74

Author(s):

David A. Richards ◽

Peter L. Smart ◽

R. Lawrence Edwards

Keyword(s):

Glacial Period ◽

Last Glacial Period ◽

Sea Levels ◽

Last Glacial ◽

The Last Glacial

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Giant boulders and Last Interglacial storm intensity in the North Atlantic

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1712433114 ◽

2017 ◽

Vol 114 (46) ◽

pp. 12144-12149 ◽

Cited By ~ 26

Author(s):

Alessio Rovere ◽

Elisa Casella ◽

Daniel L. Harris ◽

Thomas Lorscheid ◽

Napayalage A. K. Nandasena ◽

...

Keyword(s):

Sea Level ◽

North Atlantic ◽

Global Climate ◽

Last Interglacial ◽

The Bahamas ◽

Sea Levels ◽

Storm Intensity ◽

The North ◽

Rising Sea Levels ◽

Mis 5E

As global climate warms and sea level rises, coastal areas will be subject to more frequent extreme flooding and hurricanes. Geologic evidence for extreme coastal storms during past warm periods has the potential to provide fundamental insights into their future intensity. Recent studies argue that during the Last Interglacial (MIS 5e, ∼128–116 ka) tropical and extratropical North Atlantic cyclones may have been more intense than at present, and may have produced waves larger than those observed historically. Such strong swells are inferred to have created a number of geologic features that can be observed today along the coastlines of Bermuda and the Bahamas. In this paper, we investigate the most iconic among these features: massive boulders atop a cliff in North Eleuthera, Bahamas. We combine geologic field surveys, wave models, and boulder transport equations to test the hypothesis that such boulders must have been emplaced by storms of greater-than-historical intensity. By contrast, our results suggest that with the higher relative sea level (RSL) estimated for the Bahamas during MIS 5e, boulders of this size could have been transported by waves generated by storms of historical intensity. Thus, while the megaboulders of Eleuthera cannot be used as geologic proof for past “superstorms,” they do show that with rising sea levels, cliffs and coastal barriers will be subject to significantly greater erosional energy, even without changes in storm intensity.

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