Your search keyword '"David A. Burney"' showing total 17 results

1. Relationships between climate change, human environmental impact, and megafaunal extinction inferred from a 4000-year multi-proxy record from a stalagmite from northwestern Madagascar

Author

L. Bruce Railsback, Fuyuan Liang, David A. Burney, Hai Cheng, R. Lawrence Edwards, George A. Brook, and Laura A. Dupont

Subjects

010506 paleontology, Archeology, Global and Planetary Change, Extinction, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Environmental change, δ18O, Climate change, Geology, Stalagmite, 01 natural sciences, Geography, Megafauna, Paleoclimatology, Physical geography, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences

Abstract

Stalagmite ANJ94-2 from Anjohibe Cave in northwestern Madagascar provides an exceptionally detailed and precisely dated record of changing environmental conditions that, combined with previously published data from stalagmites, wetland deposits, and archaeological sites, allows insights into past climate change, human environmental impact, and megafaunal extinction. Proxies of past conditions recovered from Stalagmite ANJ94-2 include ratios of carbon and oxygen stable isotopes (δ13C and δ18O), mineralogy (calcite and aragonite), layer-bounding surfaces, layer-specific width, and detrital material. Those proxies suggest that the natural environment changed in response to changes in rainfall at time scales of a few decades to multiple centuries; comparison with distant proxies suggests that wetter conditions in northwestern Madagascar may have been linked to cooling in the Northern Hemisphere. Carbon isotope data nonetheless suggest that the greatest environmental change in the area coincided with human introduction of swidden (tavy) agriculture about 1200 years ago, during a time not of drought but perhaps of slightly increasing wetness. The timing and extent of environmental change 1200 to 600 years ago seen in stalagmite and wetland data suggest that human modification of the landscape had a causal role in the extinction of Madagascar’s megafauna. On the other hand, the results combine with other recent research to indicate that drought was not the cause of the megafaunal extinction.

Published

2020

2. Stratigraphy and Chronology of Karst Features on Rodriguez Island, Southwestern Indian Ocean

Author

Lorna Steel, Nicholas Porch, Lida Pigott Burney, Gregory J. Middleton, David A. Burney, and Julian P. Hume

Subjects

Canyon, geography, geography.geographical_feature_category, Karst, Archaeology, law.invention, Calcarenite, Paleontology, Cave, law, Clastic rock, Radiocarbon dating, Holocene, Geology, Earth-Surface Processes, Chronology

Abstract

6 Abstract: The remote Indian Ocean island of Rodrigues, while largely of volcanic origin, also contains a large body of eolian calcarenite with over thirty surveyed caves and many other karst features. Little is known, however, regarding the age and stratigraphy of the clastic deposits in the caves and the associated fossils of the highly endemic, now mostly extinct, fauna. On the Plaine Caverne and Plaine Corail of the southwestern part of the island, we obtained sediment cores up to 10 m in length and excavated bones of the extinct fauna from caves in the vicinity. Stratigraphic description and radiocarbon dating revealed that sediments in Canyon Tiyel, a collapsed-cave feature, primarily accumulated during the early and middle Holocene. Sedimentation in the canyon and adjacent caves has slowed in recent millennia, with the result that many bones of fauna that went extinct after human arrival in recent centuries are on or near the surface. The chemistry of the sediments and the alternate wet and dry regime of the cave and canyon surfaces are often not conducive to preservation of bone collagen and plant microfossils. Grotte Fougere, with an apparently unique anchialine pond inside a collapsing cave, however, contains over one meter of highly organic sediment with excellent preservation of plant and animal remains.

Published

2015

3. A Millennium of Human Activity at Makauwahi Cave, Māhāūulepū, Kauaūi

Author

David A. Burney and William K. Pila Kikuchi

Subjects

geography, geography.geographical_feature_category, Fossil Record, Sociology and Political Science, Ecology, Environmental Science (miscellaneous), Biology, Archaeology, Taxon, Arts and Humanities (miscellaneous), Cave, Anthropology, Human settlement, Period (geology), Eolianite, Overgrazing, Holocene

Abstract

A cave system in the eolianite deposits of the Māhā′ulepū/Pā′ā area of Kaua′i, Hawai′i, contains a rich fossil record of prehuman Holocene conditions and also preserves a thousand-year record of human activity. Details concerning pre-Contact Polynesian life have been extracted from subaqueous middens and artifacts, including perishable materials such as wood, gourd, and cordage. Oral traditions concerning the cave and vicinity generally show good agreement with the archaeological and paleoecological record and provide rich stories said to derive from as early as the fourteenth century A.D. Fossil evidence highlights biotic and landscape changes before, during, and after initial Polynesian and subsequent European settlement. The approximate temporal coincidence of evidence for human arrival and last occurrence of some now-extinct species is too great to ignore the possibility that humans played a role in some extinctions of native taxa before European colonization. Old maps, an 1824 sketch, records of the Land Court Awards, and old photographs confirm stratigraphic inferences and oral accounts concerning demographic and ecological conditions of the early historical period. Feral livestock proliferated in the nineteenth and early twentieth centuries, with loss of vegetative cover to overgrazing, decline of most of the native flora, and subsequent dune reactivation. Sedimentation rates reach their peak later in the twentieth century after the establishment of agricultural and mining operations nearby.

Published

2006

4. Environmental change, extinction and human activity: evidence from caves in NW Madagascar

Author

Jean Gervais Rafamantanantsoa, James B. Cowart, David A. Burney, Helen F. James, Henry T. Wright, Ramilisonina, and Frederick V. Grady

Subjects

Palynology, geography, Extinction, geography.geographical_feature_category, Ecology, biology, Environmental change, Climate change, social sciences, Mullerornis, biology.organism_classification, humanities, Natural (archaeology), Cave, geographic locations, Ecology, Evolution, Behavior and Systematics, Holocene

Abstract

In the last 2000 years, changes on the island of Madagascar have resulted in the modification of key environments and the extinction of nearly all large native animals. Humans have long been suspected as the primary cause of this ecological catastrophe, but the exact mechanisms of the island's rapid transformation and the role of natural factors such as climate change remain uncertain. Caves in northwestern Madagascar are helping researchers to disentangle these factors, by providing many types of datable information concerning the past in close physical proximity. U-series dated pollen spectra from the caverns of Anjohibe provide a 40,000-year record of vegetation in the vicinity. Bone deposits from caves in the region provide new site records for extinct taxa, including Babakotia radofilai Godfrey et al. 1990, Plesiorycteropus madagascariensis Filhol 1895, and Mullerornis sp. Several extant taxa that were present in the region in the late Holocene are now locally extinct. Archaeological evidence from the caves suggests little or no human activity in the vicinity or interaction with the fauna at these sites until recent centuries.

Published

2003

5. Late Quaternary Chronology and Stratigraphy of Twelve Sites On Kaua‘i

Author

David A Burney

Subjects

010506 paleontology, Archeology, Peat, 060102 archaeology, Pleistocene, 06 humanities and the arts, 01 natural sciences, Archaeology, law.invention, Oceanography, Absolute dating, law, General Earth and Planetary Sciences, 0601 history and archaeology, Radiocarbon dating, Quaternary, Holocene, Geology, Sea level, 0105 earth and related environmental sciences, Chronology

Abstract

Twelve new sites on Kaua‘i provide an island-wide view of late Quaternary (near time) environments on the oldest of the major Hawaiian Islands. Radiocarbon-dated lithologies are compared for estuarine sites on windward and leeward coasts, interior peat bogs ranging from 169 to 1220 m in elevation, prehistoric fishponds, and a sinkhole paleolake in the Maha‘ulepu cave system. Terrestrial sedimentation begins in many coastal sites about 6000 cal BP, as sea level approached modern levels. Prehuman sedimentation rates were quite low in all these sites, generally

Published

2002

6. FOSSIL EVIDENCE FOR A DIVERSE BIOTA FROM KAUA‘I AND ITS TRANSFORMATION SINCE HUMAN ARRIVAL

Author

Robert Nishek, Storrs L. Olson, Deirdre McCloskey, Reginald Gage, Helen F. James, Delores L. Kikuchi, Lida Pigott Burney, Warren L. Wagner, William K. Kikuchi, Mara Burney, David A. Burney, and Frederick V. Grady

Subjects

Rattus exulans, Ecology, Macrofossil, Introduced species, Vegetation, Biology, biology.organism_classification, Midden, law.invention, law, Paleoecology, Radiocarbon dating, Ecology, Evolution, Behavior and Systematics, Holocene

Abstract

Coring and excavations in a large sinkhole and cave system formed in an eolianite deposit on the south coast of Kaua‘i in the Hawaiian Islands reveal a fossil site with remarkable preservation and diversity of plant and animal remains. Radiocarbon dating and investigations of the sediments and their fossil contents, including diatoms, invertebrate shells, vertebrate bones, pollen, and plant macrofossils, provide a more complete picture of prehuman ecological conditions in the Hawaiian lowlands than has been previously available. The evidence confirms that a highly diverse prehuman landscape has been completely transformed, with the decline or extirpation of most native species and their replacement with introduced species. The stratigraphy documents many late Holocene extinctions, including previously undescribed species, and suggests that the pattern of extirpation for snails occurred in three temporal stages, corresponding to initial settlement, late prehistoric, and historic impacts. The site also records land-use changes of recent centuries, including evidence for deforestation, overgrazing, and soil erosion during the historic period, and biological invasion during both the Polynesian and historic periods. Human artifacts and midden materials demonstrate a high-density human presence near the site for the last four centuries. Earlier evidence for humans includes a bone of the prehistorically introduced Pacific rat (Rattus exulans) dating to 822 yr BP (calendar year [cal yr] AD 1039–1241). Vegetation at the site before human arrival consisted of a herbaceous component with strand plants and graminoids, and a woody component that included trees and shrubs now mostly restricted to a few higher, wetter, and less disturbed parts of the island. Efforts to restore lowland areas in the Hawaiian Islands must take into account the evidence from this study that the prehuman lowlands of dry leeward Kaua‘i included plants and animals previously known only in wetter and cooler habitats. Many species may be restricted to high elevations today primarily because these remote locations have, by virtue of their difficult topography and climate, resisted most human-induced changes more effectively than the coastal lowlands.

Published

2001

7. Using a surviving lineage of Madagascar's vanished megafauna for ecological restoration

Author

Owen Griffiths, Alison Clausen, Miguel Pedrono, David A. Burney, Lora L. Smith, Christine J. Griffiths, Lucienne Wilmé, Animal et gestion intégrée des risques (UPR AGIRs), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), La Vanille Réserve des Mascareignes, Senville, Climate and Environment Futures, Joseph W. Jones Ecological Research Center, Newton, Missouri Botanical Garden, National Tropical Botanical Garden, Kalaheo, and Webcirad, Mada

Subjects

0106 biological sciences, Tortue terrestre, Tortoise, Lineage (evolution), Zoology, Évolution, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Megafauna, Megafauna extinction Ecological history Ecological functions Giant tortoises Restoration Madagascar, Ecosystem, 14. Life underwater, Repeuplement animal, Restoration ecology, Ecology, Evolution, Behavior and Systematics, Holocene, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Herbivore, Extinction, Ecology, espèce en danger, 15. Life on land, [SDE.BE] Environmental Sciences/Biodiversity and Ecology, extinction des espèces, Écologie animale, P01 - Conservation de la nature et ressources foncières, L20 - Écologie animale, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Écosystème

Abstract

International audience; The extinctions of keystone megafauna during the Pleistocene and Holocene continue to affect extant species and ecosystems. This is particularly acute in southern and western Madagascar where two now extinct species of giant tortoises were once amongst the most dominant herbivores. The extinct giant tortoises are likely to have influenced ecosystem processes by being effective dispersers of large seeds, keeping the understorey open, cycling nutrients, and indirectly regulating fire regimes. As a result of their extinction, ecological interactions and ecosystems have been altered. Given that there is evidence that the extant Aldabran giant tortoise, Aldabrachelys gigantea, is closely related to at least one of these Madagascan giant tortoises, Aldabrachelys abrupta, we propose using captive Aldabran giant tortoises to restore missing ecological functions. This ambitious approach will represent the first continental island restoration project with a surviving lineage of now extinct, endemic megafauna. Translocation of this megafauna species could be a pragmatic and cost-effective tool to contribute to halting the ongoing extinction processes in parts of western and southern Madagascar, and would further understanding of the role of these species in pre-human Madagascan ecosystems.

Published

2013

8. A Holocene record of climate change, fire ecology and human activity from montane Flat Top Bog, Maui

Author

F. N. Kostel-Hughes, Helen F. James, Lida Pigott Burney, Thomas W. Stafford, R. V. DeCandido, and David A. Burney

Subjects

geography, geography.geographical_feature_category, Climate change, Aquatic Science, Deposition (geology), Oceanography, Disturbance (ecology), Paleoecology, Fire ecology, Sedimentology, Bog, Holocene, Geology, Earth-Surface Processes

Abstract

A sediment core from a high-elevation bog on Maui in the Hawaiian Islands contains evidence for drier conditions between 9.4–5.8 kyr BP, followed by a wetter interval between 5.8–2.2 kyr BP, and a variable late Holocene. These precipitation changes may be a reflection of vertical displacements of the upper boundary of the mid-Pacific Trade Wind Inversion (TWI) cloud layer. Fires, probably volcanically ignited, occurred in the forests prior to human arrival. Polynesian activity in this high-elevation, remote site was apparently limited, with no pollen, charcoal, or sedimentological evidence for local anthropogenic disturbance. After European contact, grass fires increased and introduced plant species invaded the site. Values for Cd, Cu, Pb, and Zn in sediments throughout the Holocene indicate low trace-metal deposition from atmospheric particulates at the site, even in the twentieth century.

Published

1995

9. AMS 14C Dates for Extinct Lemurs from Caves in the Ankarana Massif, Northern Madagascar

Author

Berthe Rakotosamimanana, Laurie R. Godfrey, Elwyn L. Simons, Prithijit S. Chatrath, William L. Jungers, and David A. Burney

Subjects

010506 paleontology, Babakotia, 010504 meteorology & atmospheric sciences, biology, Pleistocene, Zoology, Lemur, biology.organism_classification, 01 natural sciences, Archaeology, Archaeolemur, Megaladapis, Arts and Humanities (miscellaneous), biology.animal, Megafauna, General Earth and Planetary Sciences, Quaternary, Holocene, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

An extensive late Quaternary fauna, including many extinct giant lemurs, has been collected recently in a 110+-km system of caves in the Ankarana Massif of northern Madagascar. AMS 14C dates for the acid-insoluble (collagen/gelatin) fraction of bones of the giant lemur Megaladapis (26,150 ± 400 and 12,760 ± 70 yr B.P.) confirm its presence in the area during the late Pleistocene and provide the first Pleistocene 14 C ages from bones of the extinct megafauna of the island. The first date from bones of the recently described extinct Babakotia radofilai (4400 ± 60 yr B.P.) shows that it was present in northern Madagascar in mid-Holocene times. A comparatively recent age of 1020 ± 50 yr B.P. for the extinct Archaeolemur indicates survival of this genus for at least a millennium after the first direct evidence for humans in Madagascar. This suggests that the island's "extinction window" may have represented a longer time span than would have been expected under the Blitzkrieg model of late Quaternary extinctions. A mid-Holocene age (4560 ± 70 yr B.P.) for a bone sample of the small extant lemur Hapalemur simus indicates that the disappearance of this now-restricted species from the Ankarana occurred after this date. New data from the Ankarana and other sites on the island add to the consensus that major biotic changes occurred on Madagascar in the late Holocene.

Published

1995

10. A Holocene pollen record for the Kalahari Desert of Botswana from a U-series dated speleothem

Author

George A. Brook, James B. Cowart, and David A. Burney

Subjects

Palynology, 010506 paleontology, Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, Combretaceae, 010504 meteorology & atmospheric sciences, Ecology, biology, Paleontology, Speleothem, Vegetation, biology.organism_classification, medicine.disease_cause, 01 natural sciences, Cave, Pollen, medicine, Uranium-thorium dating, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

A 61 cm core through a speleothem column in Drotsky's Cave, Botswana, has yielded a U-series dated pollen record of Holocene vegetation changes in the Kalahari Desert. Between c.10000-7000BP, the site was surrounded by an arid grassland with dry-adapted trees and shrubs such as Acacia and Commiphora. An increase in pollen of Combretaceae and Cyperaceae, and the appearance of pollen of such mesic savanna plants as Grewia between c. 7000—6000 BP, may indicate the onset of slightly wetter conditions. Combretaceae and other mesic pollen types increase between c. 6000-3000 BP, but the late Holocene record appears variable, with the period c. 5000-4000 BP being somewhat dryer than the millennia before and after. It would appear that Kalahari vegetation has changed less during the Holocene than many other African environments previously investigated. Despite the limitations imposed by pollen analysis of cave sites, the record from Drotsky's Cave shows good agreement with regional trends derived from other studies. The use of U-series dated pollen spectra derived from speleothems holds potential for expanding the geographic scope of palynological studies to areas lacking suitable lakes and bogs, and for extending the dated pollen record back an order of magnitude beyond the14C timescale.

Published

1994

11. Holocene Charcoal Stratigraphy from Laguna Tortuguero, Puerto Rico, and the Timing of Human Arrival on the Island

Author

David A. Burney, Lida Pigott Burney, and Ross D. E. MacPhee

Subjects

Archeology, Fire frequency, Disturbance (ecology), Stratigraphy, visual_art, visual_art.visual_art_medium, Physical geography, Sedimentation, Charcoal, Sediment core, Fire history, Geology, Holocene

Abstract

An 8 m sediment core from Laguna Tortuguero, Puerto Rico, provides a 7000 calendar year history of fire occurrence and sedimentation on the island's north coast. After c. 5300 cal-BP, microscopic charcoal particle concentration and influx increase abruptly, and values remain high for the next two millennia. Subsequent to c. 3200 cal-BP, fire occurrence gradually declines to more moderate levels. It seems likely that the mid-Holocene acceleration in fire frequency documented here may signal the onset of human disturbance of the landscape. Indirect detection of human arrival on oceanic islands from a sudden increase in stratigraphic charcoal may be a useful technique in other island contexts, although it is important to consider that wildfires can occur without a human ignition source.

Published

1994

12. Late Holocene Environmental Changes in Arid Southwestern Madagascar

Author

David A. Burney

Subjects

010506 paleontology, Arboreal locomotion, 010504 meteorology & atmospheric sciences, Ecology, Woodland, medicine.disease_cause, 01 natural sciences, Arid, Arts and Humanities (miscellaneous), Pollen, visual_art, Megafauna, medicine, visual_art.visual_art_medium, General Earth and Planetary Sciences, Charcoal, Quaternary, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

A 5000-yr stratigraphic record containing fossil pollen, charcoal, and bones of the extinct Quaternary megafauna from Andolonomby, a hypersaline pond in arid southwestern Madagascar, shows evidence for climatic desiccation beginning about 3000 yr B.P. Pollen spectra shift at this time from primarily arboreal taxa characteristic of forests and woodlands of more mesic western Madagascar, to wooded savanna typical of somewhat drier localities. Between 3000 and 2000 yr B.P., the site became increasingly arid. Charcoal and pollen evidence indicates that increased fire and disturbance occurred at the site beginning ca. 1900 yr B.P., probably signaling the beginning of human settlement in the area. The fossil record suggests that various human and natural factors on the island may have interacted in the subsequent millennium to culminate in the extinction of the entire endemic megafauna.

Published

1993

13. Dating of modified femora of extinct dwarf Hippopotamus from Southern Madagascar: Implications for constraining human colonization and vertebrate extinction events

Author

David A. Burney and Ross D. E. MacPhee

Subjects

Extinction event, Archeology, Extinction, Subfossil, Pleistocene, biology, Ecology, Fauna, biology.organism_classification, Paleontology, Hippopotamus, Quaternary, Holocene, Geology

Abstract

Two significant events in the late Holocene history of Madagascar were (a) the arrival of people, and (b) the loss of nearly two dozen species of land vertebrates in the socalled “subfossil extinctions”. The consensus is that the faunal losses occurred shortly subsequent to human arrival, but the timing of these events is poorly constrained. The minimum age for initial human presence on the island may now be set at approximately 2000 bp, on the basis of AMS 14C dates for human-modified femora of extinct dwarf hippos from SW Madagascar. Assuming that this date also marks the beginning of deleterious human interactions with the subfossil fauna, and assuming that this fauna became completely extinct by 900 bp, the width of the anthropogenic “extinction window” may have been as long as c. 1000 a. This estimate, nearly twice the length of previous ones, is close to the unadjusted minimum for the duration of the terminal Pleistocene extinction event in the Americas. Whether or not this length of time comports with theoretical expectations of a “blitzkrieg” pattern of losses is uncertain, but greater refinement in dating the end of the subfossil extinctions is unlikely to produce radically shorter estimates of duration.

Published

1991

14. Desert paleoenvironmental data from cave speleothems with examples from the Chihuahuan, Somali-Chalbi, and Kalahari deserts

Author

David A. Burney, George A. Brook, and James B. Cowart

Subjects

geography, geography.geographical_feature_category, Paleontology, Speleothem, Oceanography, Arid, Cave, Paleoclimatology, Interglacial, Stadial, Physical geography, Quaternary, Ecology, Evolution, Behavior and Systematics, Holocene, Geology, Earth-Surface Processes

Abstract

Pollen-bearing lake, bog, and spring sediments are relatively scarce in many arid and semiarid regions of the world, and few are dateable beyond the 14C range. We have obtained pollen spectra from speleothems collected from caves in the Somali-Chalbi and Kalahari deserts suggesting that these deposits may be an important future source of desert paleovegetation data. As cave speleothems can be dated by the 230Th/234U method to c. 350,000 yr B.P., and by the TL and ESR methods potentially to 1 m.y. B.P., and can sometimes give paleotemperature and paleohydrologic data, they could provide a first glimpse of desert paleoenvironments during isotope stages 4–9. Ages of speleothems from the Chihuahuan, Kalahari, and Somali-Chalbi deserts suggest that there was more available moisture in the southwestern U.S.A. and in northwestern Bostwana during glacials and interstadials of the last c. 300,000 years, but that wetter conditions in the Horn of Africa corresponded with interglacials and perhaps to a lesser extent with interstadials. Pollen from three northern Somalia speleothems indicate more mesic conditions in the Horn of Africa at 10,000, 11,800, and 176,500 yr B.P., while speleothem pollen spectra from Matupi Cave in northeastern Zaire, presently surrounded by tropical rainforest, suggest a savanna grassland at this cave c. 14,000 yr B.P.

Published

1990

15. Sporormiella and the late Holocene extinctions in Madagascar

Author

Guy Robinson, Lida Pigott Burney, and David A. Burney

Subjects

Biomass (ecology), Multidisciplinary, Extinction, biology, Ecology, Fossils, fungi, Fungi, Biological Sciences, biology.organism_classification, humanities, law.invention, Sporormiella, Geography, law, Megafauna, parasitic diseases, Madagascar, Radiocarbon dating, Coprophilous fungi, Central Highlands, Holocene, geographic locations

Abstract

Fossil spores of the dung fungus Sporormiella spp. in sediment cores from throughout Madagascar provide new information concerning megafaunal extinction and the introduction of livestock. Sporormiella percentages are very high in prehuman southwest Madagascar, but at the site with best stratigraphic resolution the spore declines sharply by ≈1,720 yr B.P. (radiocarbon years ago). Within a few centuries there is a concomitant rise in microscopic charcoal that probably represents human transformation of the local environment. Reduced megaherbivore biomass in wooded savannas may have resulted in increased plant biomass and more severe fires. Some now-extinct taxa persisted locally for a millennium or more after the inferred megafaunal decline. Sites in closed humid forests of northwest Madagascar and a montane ericoid formation of the central highlands show only low to moderate Sporormiella percentages before humans. A subsequent rise in spore concentrations, thought to be evidence for livestock proliferation, occurs earliest at Amparihibe in the northwest at ≈1,130 yr B.P.

Published

2003

16. Late Quaternary Stratigraphic Charcoal Records from Madagascar

Author

David A. Burney

Subjects

Palynology, 010506 paleontology, Extinction, 010504 meteorology & atmospheric sciences, Pleistocene, 01 natural sciences, Natural (archaeology), Paleontology, Arts and Humanities (miscellaneous), Megafauna, visual_art, visual_art.visual_art_medium, General Earth and Planetary Sciences, Quaternary, Charcoal, Holocene, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The classic view regarding the cause of the extinction of at least 17 species of large mammals, birds, and reptiles in Madagascar during the late Holocene implicates human use of fire to modify the environment. However, analysis of the charcoal stratigraphy of three sediment cores from Madagascar shows that late Pleistocene and early- to mid-Holocene sediments deposited prior to human settlement often contain more charcoal than postsettlement and modern sediments. This observation, which is confirmed by independent measurements from direct assay and palynological counting techniques, suggests that widely held but previously untested beliefs concerning the importance of anthropogenic fires in late Holocene environmental changes and megafaunal extinctions of Madagascar may be based on an overly simplified version of actual prehistoric conditions. Moderate to low charcoal values characterized only the late Holocene millennia immediately prior to the presumed time of arrival of the first settlers. Human settlement is probably indicated in the stratigraphy by the sharp rise in charcoal content observed beginning ca. 1500 yr B.P. Fire appears to be a significant natural component of prehuman environments in Madagascar, but some factor, probably climate, has modulated the extent of natural burning.

Published

1987

17. Late Holocene Vegetational Change in Central Madagascar

Author

David A. Burney

Subjects

010506 paleontology, Pollen zone, 010504 meteorology & atmospheric sciences, Ecology, Vegetation, medicine.disease_cause, Graminoid, 01 natural sciences, Arts and Humanities (miscellaneous), Pollen, Megafauna, visual_art, medicine, visual_art.visual_art_medium, General Earth and Planetary Sciences, Fire ecology, Charcoal, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

A sediment core from Lake Kavitaha, central Madagascar, provides a stratigraphic record of changes in pollen spectra and charcoal influx in the late Holocene. The earliest pollen spectra distantly resemble the modern pollen rain of a vegetational mosaic in northern Madagascar, although results of principal component analysis suggest no close modern analog. At about 1300 yr B.P., a marked rise in charcoal is followed by a decline in pollen of woody taxa, culminating in a change to grass-dominated pollen spectra within about 4 centuries. Pollen of woody taxa decline below 15% of total terrestrial pollen and spores beginning about 600 yr B. P. The influx of charcoal from graminoid sources remains high until recent centuries. The late Holocene changes in vegetation and fire ecology at the site were approximately contemporaneous with the latest 14?C dates for the extinct megafauna and the earliest dates for human occupation.

Published

1987