scholarly article | Q13442814 |
P356 | DOI | 10.1017/QUA.2017.42 |
P50 | author | Lucinda Backwell | Q42544684 |
Maria Fernanda Sanchez Goñi | Q50229970 | ||
P2093 | author name string | Dunia H. Urrego | |
Elysandre Puech | |||
Francesco d’Erricoc | |||
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East African megadroughts between 135 and 75 thousand years ago and bearing on early-modern human origins | Q24670524 | ||
Early human use of marine resources and pigment in South Africa during the Middle Pleistocene | Q28253726 | ||
Ages for the Middle Stone Age of southern Africa: implications for human behavior and dispersal | Q28299319 | ||
Climate, Environment and Early Human Innovation: Stable Isotope and Faunal Proxy Evidence from Archaeological Sites (98-59ka) in the Southern Cape, South Africa | Q28596674 | ||
Development of Middle Stone Age innovation linked to rapid climate change | Q28652598 | ||
Orbital-scale climate forcing of grassland burning in southern Africa | Q28709459 | ||
Catalysts for Stone Age innovations: What might have triggered two short-lived bursts of technological and behavioral innovation in southern Africa during the Middle Stone Age? | Q28768000 | ||
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Investigating early hominin dispersal patterns: developing a framework for climate data integration | Q31132520 | ||
Environmental hypotheses of hominin evolution | Q31937655 | ||
Animal exploitation strategies during the South African Middle Stone Age: Howiesons Poort and post-Howiesons Poort fauna from Sibudu Cave | Q33317439 | ||
Phragmites australis management in the United States: 40 years of methods and outcomes | Q33685381 | ||
Towards a theory of modern human origins: geography, demography, and diversity in recent human evolution | Q34068240 | ||
Pinnacle Point Cave 13B (Western Cape Province, South Africa) in context: The Cape Floral kingdom, shellfish, and modern human origins | Q34142643 | ||
The environmental context for the origins of modern human diversity: a synthesis of regional variability in African climate 150,000-30,000 years ago. | Q34237670 | ||
Tectonics, orbital forcing, global climate change, and human evolution in Africa: introduction to the African paleoclimate special volume | Q44957025 | ||
Impact of precession on the climate, vegetation and fire activity in southern Africa during MIS4 | Q56527512 | ||
Extent and Reproductive Mechanisms of Phragmites australis Spread in Brackish Wetlands in Chesapeake Bay, Maryland (USA) | Q56768860 | ||
Pleistocene sea-level fluctuations and human evolution on the southern coastal plain of South Africa | Q56852690 | ||
Global patterns of vegetation response to millennial-scale variability and rapid climate change during the last glacial period | Q56854405 | ||
Millennial-scale climate variability and vegetation changes during the Last Glacial: Concepts and terminology | Q57264376 | ||
European lakes as palaeohydrological and palaeoclimatic indicators | Q57264506 | ||
Extreme events as drivers of early human behaviour in Africa? The case for variability, not catastrophic drought | Q57530641 | ||
Increased aridity in southwestern Africa during the warmest periods of the last interglacial | Q57564623 | ||
Terrestrial fossil-pollen evidence of climate change during the last 26 thousand years in Southern Africa | Q57655950 | ||
Modern climate–vegetation–pollen relations in Africa and adjacent areas | Q57707776 | ||
A high resolution and continuous isotopic speleothem record of paleoclimate and paleoenvironment from 90 to 53 ka from Pinnacle Point on the south coast of South Africa | Q57883476 | ||
The velocity and vorticity structure of the Agulhas Current at 32°S | Q58061648 | ||
The effects of fire on wetland structure and functioning | Q58244823 | ||
The southern dispersal hypothesis and the South Asian archaeological record: Examination of dispersal routes through GIS analysis | Q58277168 | ||
50,000years of vegetation and climate change in the southern Namib Desert, Pella, South Africa | Q58404967 | ||
Southeast African records reveal a coherent shift from high- to low-latitude forcing mechanisms along the east African margin across last glacial–interglacial transition | Q58404991 | ||
Multiproxy record of late Quaternary climate change and Middle Stone Age human occupation at Wonderkrater, South Africa | Q58405006 | ||
Evidence for progressive Holocene aridification in southern Africa recorded in Namibian hyrax middens: Implications for African Monsoon dynamics and the ‘‘African Humid Period’’ | Q58405053 | ||
South African palaeoenvironments during marine oxygen isotope stage 4: a context for the Howiesons Poort and Still Bay industries | Q58405063 | ||
Late Quaternary dynamics of southern Africa's winter rainfall zone | Q58405086 | ||
Drought as a Trigger for Rapid State Shifts in Kettle Ecosystems: Implications for Ecosystem Responses to Climate Change | Q58406242 | ||
Trends, rhythms and events in Plio-Pleistocene African climate | Q58758618 | ||
An evolutionary perspective on coastal adaptations by modern humans during the Middle Stone Age of Africa | Q59118405 | ||
Palaeoenvironments and Cultural Sequence of the Florisbad Middle Stone Age Hominid Site, South Africa | Q59241641 | ||
Thermoluminescence dating of a Stillbay–Howiesons Poort sequence at Diepkloof Rock Shelter (Western Cape, South Africa) | Q99915820 | ||
Pollen analysis of Iron Age cow dung in southern Africa | Q105620299 | ||
The character, origin and palaeoenvironmental significance of the Wonderkrater spring mound, South Africa | Q107012038 | ||
P433 | issue | 02 | |
P921 | main subject | environmental change | Q16934857 |
Wonderkrater | Q107011973 | ||
P304 | page(s) | 313-326 | |
P577 | publication date | 2017-08-14 | |
P1433 | published in | Quaternary Research | Q7269557 |
P1476 | title | Vegetation and environmental changes at the Middle Stone Age site of Wonderkrater, Limpopo, South Africa | |
P478 | volume | 88 |
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