Drought-Induced Civil Conflict Among the Ancient Maya

Kennett, Douglas J.; Masson, Marilyn A.; Lope, Carlos Peraza; Serafin, Stanley; George, Richard J.; Spencer, Tom C; Hoggarth, Julie A.; Culleton, Brendan J.; Harper, Thomas K.; Prufer, Keith M.; Milbrath, Susan; Russell, Bradley W.; González, Eunice Uc; McCool, Weston C.; Aquino, Valorie V.; Paris, Elizabeth H.; Curtis, Jason H.; Marwan, Norbert; Zhang, Minghua; Asmerom, Yemane; Polyak, Victor J.; Carolin, Stacy; James, Daniel H; Mason, Andrew J.; Henderson, Gideon M.; Brenner, Mark; Baldini, James U.L.; Breitenbach, Sebastian F. M.; Hodell, David A

doi:10.1038/s41467-022-31522-x

Cited by 26 publications

(12 citation statements)

References 72 publications

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“…Strategies for settlement occupation and drivers of settlement abandonment (or the changing settlement pattern) vary in different geographic locations and societies throughout time and are hence controlled by environmental and societal factors (Butzer, 2005(Butzer, , 2012Boyer et al, 2006;McLeman, 2011). Environmental triggers encompass various types of natural hazards such as RCC events, (flash) floods, earthquakes, landslides, volcanic eruptions, and the ensuing geomorphodynamics (soil erosion and mass movements) (Black et al, 2011;Dusar et al, 2011;Palmisano et al, 2021;Zhang et al, 2021;Kennett et al, 2022). This last factor might be important in the Tekkedere catchment.…”

Section: Mid-to Late Holocene Geomorphodynamicsmentioning

confidence: 99%

Mid- to Late Holocene geomorphodynamics in a long-term settled mountain catchment in the Pergamon micro-region, western Turkey

et al. 2023

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From 300 BC to AD 300, the city of Pergamon underwent a profound transformation that impacted the rural settlement patterns and the concomitant geomorphodynamics. We present a geoarchaeological study in a long-term settled catchment in the Pergamon micro-region to disentangle the Holocene geomorphodynamics and triggering factors, for example, climate change and human activity. The analyses of eight radiocarbon-dated sediment profiles from the Tekkedere alluvial fan and its catchment indicate four principal sedimentation phases. Phase 1 (ca. 6.2 to 5–4 ka) is dominated by the floodplain aggradation of the receiving Bakırçay River, which is followed by the formation of floodplain soils (phase 2). Substantial geomorphodynamic changes occurred around 4 ka (phase 3), when the edge of the floodplain was buried by fan sediments of the tributary Tekkedere creek. This is attributed to supraregional aridization and rapid climate change events, superimposed by the onset of local human activities. Repeated cycles of coarse- and fine-textured fan sediments with age inversions after ca. 3.8 ka and valley infills younger than 1300 yr BP indicate the strong erosion and redeposition of sediments in phase 4. These increased geomorphodynamics may coincide with the changing settlement pattern and thus reflect human–environment interactions.

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Section: Mid-to Late Holocene Geomorphodynamicsmentioning

confidence: 99%

Mid- to Late Holocene geomorphodynamics in a long-term settled mountain catchment in the Pergamon micro-region, western Turkey

et al. 2023

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“…For example, spatial reconstruction of the hydroclimate variability over the Northern Hemisphere showed that a larger percentage of land area was under relatively wetter conditions in the warm period, and under drier conditions in the cold period. However, some studies found that during the Medieval Climate Anomaly (MCA, AD 950–1250), hydrological anomalies resulted in drier conditions over most parts of the globe (Diaz et al, 2011); in particular, prolonged droughts (roughly AD 750–1050) occurred over the western United States and northern Mexico and drought‐induced civil war conflict that triggered the collapse of the Mayan civilization (Aimers & Hodell, 2011; Kennett et al, 2022). In addition, Wilhelm et al (2022) found a warming of 0.5–1.2°C led to a 25%–50% decrease in the frequency of large floods in the European Alps.…”

Section: Introductionmentioning

confidence: 99%

Hydroclimate variations in the past 1000 years over Eastern China

Hao,

Zheng,

Liu

et al. 2023

Intl Journal of Climatology

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Hydroclimate variations over eastern China are affected by the Asian monsoon, exhibiting great variability and frequent extreme events occurrence. However, the driving mechanisms of their spatial and temporal variabilities are not fully understood due to the short period of available climate observation data. Here we used interpolated dry/wet grades dataset derived from Chinese historical documents and method of regional division to reconstruct a new annual hydroclimatic variation dataset dating back 1000 years, including nine regions of eastern China. This dataset reveals the spatial coverage and trend of long‐lasting extreme drought and flood events, and discloses the spatial patterns and similarities of interannual (2–7‐year) and interdecadal (15–35‐year) hydroclimate variations under the different temperature backgrounds of the Medieval Climate Anomaly (MCA), Little Ice Age (LIA) and Current Warm Period. Although no obvious drying or wetting trends were detected in the past 1000 years, the frequencies of extreme flood and drought events during the two warm periods of 960–1300 and 1901–2000 were higher than those during the cold period of 1301–1900. There are 17 long‐lasting and even severe than 1637–1641 large spatial scale extreme drought events during the past 1000 years. The observed spatial dipole pattern of flooding in the south and drought in the north, or the opposite pattern, was rare during the historical period. However, it was the second leading mode explaining the low variances in the principal component analysis for 2–7‐year hydroclimatic variations, which were not related to temperature change. Moreover, the stability of the teleconnection between the hydroclimate over eastern China and the climatic modes of Pacific Decadal Oscillation and Atlantic Multidecadal Oscillation was further discussed.

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“… Integration of elements indicating: (i) examples of approaches to determine ancient environmental change and societal complexity; (ii) a regional/local ancient collapse described by an example from Mayapan, the largest Postclassic Mayan city [ 20 ]; and (iii) the modern potential global collapses described by Kemp et al. [ 1 ].…”

mentioning

confidence: 99%

“…It also highlights the relevance of ancient technologies and management strategies to mitigate the consequences of the complexity of climate change (e.g. Refs [ 20–25 ]).…”

mentioning

confidence: 99%

“…The study of collapses of previous human societies, in many cases associated with changes in climate and resource scarcity such as those that currently characterize anthropogenic global change on our planet, sheds light on worst-case scenarios for the coming years and decades of climate change, but also on how to overcome them, on possible resistance and resilience [ 18 , 19 ]. For example, bioarcheological data from Mayapan (Yucatán, Mexico) indicate that Mayan political and economic structures in the shape of a network of small Mayan states persisted until the Spanish colonization, indicating some amount of regional resistance and resilience [ 20 ] (Fig. 1 ).…”

mentioning

confidence: 99%

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