Late Holocene Historical Ecology: The Timing of Vertebrate Extirpation on Crooked Island, Commonwealth of The Bahamas

We report 95 vertebrate taxa (13 fishes, 11 reptiles, 63 birds, 8 mammals) from late Pleistocene bone deposits in Sawmill Sink, Abaco, The Bahamas. The >5,000 fossils were recovered by scuba divers on ledges at depths of 27–35 m below sea level. Of the 95 species, 39 (41%) no longer occur on Abaco (4 reptiles, 31 birds, 4 mammals). We estimate that 17 of the 39 losses (all of them birds) are linked to changes during the Pleistocene–Holocene Transition (PHT) (∼15–9 ka) in climate (becoming more warm and moist), habitat (expansion of broadleaf forest at the expense of pine woodland), sea level (rising from −80 m to nearly modern levels), and island area (receding from ∼17,000 km2 to 1,214 km2). The remaining 22 losses likely are related to the presence of humans on Abaco for the past 1,000 y. Thus, the late Holocene arrival of people probably depleted more populations than the dramatic physical and biological changes associated with the PHT.

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The Archaeology and Historical Ecology of Late Holocene San Miguel Island

10.2307/j.ctvdjrrhn ◽

2007 ◽

Cited By ~ 42

Author(s):

Torben C. Rick

Keyword(s):

Late Holocene ◽

Historical Ecology ◽

San Miguel Island

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The Anthropocene and the landscape of Confucius: A historical ecology of landscape changes in northern and eastern China during the middle to late-Holocene

The Holocene ◽

10.1177/0959683615594241 ◽

2015 ◽

Vol 25 (10) ◽

pp. 1640-1650 ◽

Cited By ~ 14

Author(s):

Arlene M Rosen ◽

Jinok Lee ◽

Min Li ◽

Joshua Wright ◽

Henry T Wright ◽

...

Keyword(s):

Late Holocene ◽

Historical Ecology ◽

Eastern China ◽

Landscape Changes

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Late Holocene sedimentation and hydrologic development in a shallow coastal sinkhole on Great Abaco Island, The Bahamas

Quaternary International ◽

10.1016/j.quaint.2013.09.032 ◽

2013 ◽

Vol 317 ◽

pp. 118-132 ◽

Cited By ~ 5

Author(s):

Shawn E. Kovacs ◽

Peter J. van Hengstum ◽

Eduard G. Reinhardt ◽

Jeffrey P. Donnelly ◽

Nancy A. Albury

Keyword(s):

Late Holocene ◽

The Bahamas

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Holocene vertebrates from a dry cave on Eleuthera Island, Commonwealth of The Bahamas

The Holocene ◽

10.1177/0959683617744270 ◽

2017 ◽

Vol 28 (5) ◽

pp. 806-813 ◽

Cited By ~ 3

Author(s):

David W Steadman ◽

Nancy A Albury ◽

Jim I Mead ◽

J Angel Soto-Centeno ◽

Janet Franklin

Keyword(s):

Late Holocene ◽

Terrestrial Plants ◽

Human Occupation ◽

The Bahamas ◽

Sea Levels ◽

Southeastern Myotis ◽

Accelerator Mass Spectrometer ◽

Myotis Myotis ◽

Vertebrate Assemblage ◽

Myotis Austroriparius

We report a mid- to late-Holocene, non-cultural vertebrate assemblage from Garden Cave (site EL-229), Eleuthera Island, The Bahamas, with 2450 fossils representing 26 species. The chronology is based on accelerator mass spectrometer (AMS) radiocarbon (14C) dates determined directly on individual bones of the hutia ( Geocapromys ingrahami), an extirpated species of rodent that dominates the bone assemblage at Garden Cave. Four AMS 14C dates from our excavation range from 1340 to 1280 cal. BP (surface of the site) to 4860 to 4830 cal. BP with depth. A hutia bone lying on the surface from elsewhere in the cave dated to 450 to 290 cal. BP, which is roughly the time of European and African contact on Eleuthera. Other extirpated species from Garden Cave are tortoise ( Chelonoidis sp.), rock iguana ( Cyclura sp.), skink ( Mabuya sp.), parrot ( Amazona leucocephala), crow ( Corvus nasicus), and southeastern myotis ( Myotis austroriparius). Each of these species may have survived on Eleuthera until sometime after the initial human occupation of the island (~1000 cal. BP), although we have direct AMS 14C dates for only the hutia. During the time of fossil deposition in Garden Cave, sea levels were approaching that of today, yet land areas were considerably larger than now, connecting Eleuthera to New Providence, and potentially to Exuma as well. Such relatively recent connections are important in explaining past and present distributions of terrestrial plants and animals.

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The paleoecology and extinction of endemic tortoises in the Bahamian Archipelago

The Holocene ◽

10.1177/0959683619887412 ◽

2019 ◽

Vol 30 (3) ◽

pp. 420-427

Author(s):

David W Steadman ◽

Nancy A Albury ◽

Lizabeth A Carlson ◽

Richard Franz ◽

Michelle J LeFebvre ◽

...

Keyword(s):

Native Species ◽

Late Holocene ◽

Human Settlement ◽

The Bahamas ◽

Turks And Caicos Islands ◽

Human Contact ◽

Accelerator Mass Spectrometer ◽

Island Group ◽

Bahamian Archipelago ◽

Archeological Site

No native species of tortoises ( Chelonoidis spp.) live today in the Bahamian (Lucayan) Archipelago (= The Bahamas + The Turks and Caicos Islands), although a number of species inhabited these islands at the first human contact in the late-Holocene. Until their extinction, tortoises were the largest terrestrial herbivores in the island group. We report 16 accelerator mass spectrometer (AMS) radiocarbon (14C) dates determined directly on individual bones of indigenous, extinct tortoises from the six Bahamian islands (Abaco, Eleuthera, Flamingo Cay, Crooked, Middle Caicos, Grand Turk) on five different carbonate banks. These 16 specimens probably represent six or seven species of tortoises, although only one ( Chelonoidis alburyorum on Abaco) has been described thus far. Tortoises seem to have survived on most Bahamian islands for only one or two centuries after initial human settlement, which took place no earlier than AD ~700–1000. The exception is Grand Turk, where we have evidence from the Coralie archeological site that tortoises survived for approximately three centuries after human arrival, based on stratigraphically associated 14C dates from both tortoise bones and wood charcoal. The stable isotope values of carbon (σ13C) and nitrogen (σ15N) of dated tortoise fossils show a NW-to-SE trend in the archipelago that may reflect increasing aridity and more consumption of cactus.

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Late-Holocene faunal and landscape change in the Bahamas

The Holocene ◽

10.1177/0959683613516819 ◽

2014 ◽

Vol 24 (2) ◽

pp. 220-230 ◽

Cited By ~ 20

Author(s):

David W Steadman ◽

Nancy A Albury ◽

Perry Maillis ◽

Jim I Mead ◽

John Slapcinsky ◽

...

Keyword(s):

Landscape Change ◽

Late Holocene ◽

The Bahamas

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Ancient mitogenomics elucidates diversity of extinct West Indian tortoises

Scientific Reports ◽

10.1038/s41598-021-82299-w ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Christian Kehlmaier ◽

Nancy A. Albury ◽

David W. Steadman ◽

Eva Graciá ◽

Richard Franz ◽

...

Keyword(s):

Genetic Differentiation ◽

Molecular Clock ◽

Late Holocene ◽

West Indian ◽

Distinct Species ◽

Galapagos Islands ◽

Mitochondrial Genomes ◽

Galápagos Islands ◽

The Bahamas ◽

Complete Mitochondrial Genomes

AbstractWe present 10 nearly complete mitochondrial genomes of the extinct tortoise Chelonoidis alburyorum from the Bahamas. While our samples represent morphologically distinct populations from six islands, their genetic divergences were shallow and resembled those among Galápagos tortoises. Our molecular clock estimates revealed that divergence among Bahamian tortoises began ~ 1.5 mya, whereas divergence among the Galápagos tortoises (C. niger complex) began ~ 2 mya. The inter-island divergences of tortoises from within the Bahamas and within the Galápagos Islands are much younger (0.09–0.59 mya, and 0.08–1.43 mya, respectively) than the genetic differentiation between any other congeneric pair of tortoise species. The shallow mitochondrial divergences of the two radiations on the Bahamas and the Galápagos Islands suggest that each archipelago sustained only one species of tortoise, and that the taxa currently regarded as distinct species in the Galápagos should be returned to subspecies status. The extinct tortoises from the Bahamas have two well-supported clades: the first includes one sample from Great Abaco and two from Crooked Island; the second clade includes tortoises from Great Abaco, Eleuthera, Crooked Island, Mayaguana, Middle Caicos, and Grand Turk. Tortoises belonging to both clades on Great Abaco and Crooked Island suggest late Holocene inter-island transport by prehistoric humans.

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