1. Contributions of paleoecology to Easter Island’s prehistory: a thorough review
- Author
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Rull, Valentí and Ministerio de Educación y Ciencia (España)
- Subjects
bepress|Physical Sciences and Mathematics ,010506 paleontology ,Archeology ,010504 meteorology & atmospheric sciences ,EarthArXiv|Physical Sciences and Mathematics|Environmental Sciences ,Prehistory ,bepress|Physical Sciences and Mathematics|Earth Sciences ,Climate change ,EarthArXiv|Physical Sciences and Mathematics|Earth Sciences ,bepress|Life Sciences|Ecology and Evolutionary Biology ,EarthArXiv|Life Sciences|Ecology and Evolutionary Biology ,01 natural sciences ,bepress|Life Sciences ,Deforestation ,EarthArXiv|Life Sciences ,Ethnography ,Paleoclimatology ,bepress|Physical Sciences and Mathematics|Environmental Sciences ,bepress|Physical Sciences and Mathematics|Environmental Sciences|Sustainability ,Empirical evidence ,Ecology, Evolution, Behavior and Systematics ,0105 earth and related environmental sciences ,Global and Planetary Change ,Interdisciplinary studies ,EarthArXiv|Physical Sciences and Mathematics|Environmental Sciences|Sustainability ,Early settlement ,Geology ,Archaeology ,EarthArXiv|Physical Sciences and Mathematics ,Climatic change ,Droughts ,Megalith ,EarthArXiv|Life Sciences|Plant Sciences ,Geography ,Paleoecology ,Rapa nui ,bepress|Life Sciences|Plant Sciences ,Last millennium ,Cultural shift - Abstract
Easter Island (Rapa Nui) is well known for the enigmas surrounding its unique megalithic statues, the moai, and the prehistoric (i.e., pre-European contact) Rapanui society that built them. These enigmas include, among others, the time of the island's settlement, the geographical origin of the first settlers, the technology associated with moai transportation and emplacement, the occurrence (or not) of an ecological and cultural collapse linked to the island¿s deforestation, and the potential influence of climatic shifts on ecological and cultural changes. Until recently, most explanations for prehistoric developments invoked anthropogenic causes, but the progressive development of paleoecological studies has incorporated a new perspective in which climate change and climate-human synergies have gained momentum. This paper reviews all paleoecological studies published to date and their contribution to a better understanding of Easter Island's prehistory, with a focus on four main aspects: (i) the discovery and settlement of the island, (ii) the eventual occurrence of climatic changes and its potential influence on landscape changes, (iii) spatiotemporal deforestation patterns, and (iv) the relationship between environmental, ecological and cultural shifts. Paleoecological research on Easter Island has proceeded through three main phases: a pioneer phase (1977 1992), a transitional phase (1993 2004) and a revival phase (2005 2020). During the pioneer and transitional phases, the paradigm of a self-induced prehistoric socioecological collapse known as the "ecocidal" hypothesis dominated the scene. However, new empirical evidence obtained during the revival phase highlighted the potential importance of climate change in prehistoric ecological and cultural developments. In addition, paleoecological records have provided novel insights into the initial discovery and occupation of Easter Island before Polynesian settlement. Paleoecological evidence has suggested or supported that (i) the island would have been discovered and sporadically/intermittently settled, possibly by Amerindian cultures, long before Polynesian colonization; (ii) climatic changes, especially centennial-scale droughts that occurred during the Medieval Climate Anomaly (MCA) and the Little Ice Age (LIA), would have influenced ecological trends and cultural developments; (iii) deforestation was not a synchronous island-wide process but occurred at different times and at different rates according to the catchment considered; and (iv) both climatic and anthropogenic drivers, along with feedbacks between them, would have been responsible for the prehistoric socioecological developments on Easter Island. A general conclusion is that Easter Island's prehistory is complex and cannot be resolved using simplistic and deterministic approaches from isolated disciplines. Rather, uncovering this prehistory requires an integrated framework with contributions from complementary research fields such as anthropology, archaeology, ethnography, history and paleoecology, among others. This paper explains the potential contributions of paleoecology, in the hope that researchers in other disciplines will be able to incorporate the available paleoecological knowledge into their own studies. From a paleoecological point of view, further coring is needed and the use of novel biomarkers is highly recommended. General recommendations are to increase the amount of raw data available in public repositories, to develop a multidisciplinary database for Easter Island and to adopt a problem-solving attitude focused on the main topics of interest., The author’s research on Easter Island was funded by the Ministry of Education and Science (Spain), project GEOBILA (CGL2007-60932/BTE)., Keywords 1. Introduction 2. The island and its paleoecological archives 2.1. Geographical setting, climate and hydrology 2.2. Flora and vegetation 2.3. Archaeological heritage 2.4. Sedimentary archives 2.5. Other paleoecological archives 3. Prehistoric chronology and cultural developments 3.1. Settlement 3.2. The moai cult 3.3. The Birdman cult 3.4. Resilience 3.5. The genocide 4. Historical development of paleoecological studies 4.1. The pioneer phase 4.2. The transitional phase 4.3. The revival 5. Coring intensification and reanalysis 6. Publication resurgence 7. Discussion 8. Concluding remarks Declaration of competing interest Acknowledgments Appendix A. Supplementary data References
- Published
- 2020