The 4.2 ka event, ENSO, and coral reef development

Toth, Lauren T.; Aronson, Richard B.

doi:10.5194/cp-15-105-2019

Cited by 29 publications

(18 citation statements)

References 111 publications

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“…Climatic variability has been a primary driver of centennial-to millennial-scale ecological change on coral reefs in the ETP (Glynn and Colgan 1992, Toth et al 2012, 2015b, Toth and Aronson 2019. Looking forward, increasing climatic variability will be an important component of climatology under anthropogenic climate change (Kim et al 2014, Cai et al 2018.…”

Section: Discussionmentioning

confidence: 99%

“…How the dynamics of living coral assemblages respond to climate change over the next years to decades will determine their prospects for continued construction of reef framework. Indeed, the millennial-scale history of reef development in Pacific Panam a demonstrates that intense climatic variability has the potential to stall reef development for thousands of years (Toth et al 2012, 2015b, Toth and Aronson 2019. Upwelling may confer a degree of localized protection on coral assemblages in the face of climate change.…”

Section: Discussionmentioning

confidence: 99%

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Upwelling buffers climate change impacts on coral reefs of the eastern tropical Pacific

Randall

Toth

Leichter

et al. 2020

Ecology

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Corals of the eastern tropical Pacific live in a marginal and oceanographically dynamic environment. Along the Pacific coast of Panam a, stronger seasonal upwelling in the Gulf of Panam a in the east transitions to weaker upwelling in the Gulf of Chiriqu ı in the west, resulting in complex regional oceanographic conditions that drive differential coral-reef growth. Over millennial timescales, reefs in the Gulf of Chiriqu ı recovered more quickly from climatic disturbances compared with reefs in the Gulf of Panam a. In recent decades, corals in the Gulf of Chiriqu ı have also had higher growth rates than in the Gulf of Panam a. As the ocean continues to warm, however, conditions could shift to favor the growth of corals in the Gulf of Panam a, where upwelling may confer protection from high-temperature anomalies.Here we describe the recent spatial and temporal variability in surface oceanography of nearshore environments in Pacific Panam a and compare those conditions with the dynamics of contemporary coral-reef communities during and after the 2016 coral-bleaching event. Although both gulfs have warmed significantly over the last 150 yr, the annual thermal maximum in the Gulf of Chiriqu ı is increasing faster, and ocean temperatures there are becoming more variable than in the recent past. In contrast to historical trends, we found that coral cover, coral survival, and coral growth rates were all significantly higher in the Gulf of Panam a. Corals bleached extensively in the Gulf of Chiriqu ı following the 2015-2016 El Niño event, whereas upwelling in the Gulf of Panam a moderated the high temperatures caused by El Niño, allowing the corals largely to escape thermal stress. As the climate continues to warm, upwelling zones may offer a temporary and localized refuge from the thermal impacts of climate change, while reef growth in the rest of the eastern tropical Pacific continues to decline.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Upwelling buffers climate change impacts on coral reefs of the eastern tropical Pacific

Randall

Toth

Leichter

et al. 2020

Ecology

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“…a BP have been globally documented and identified as the 4.2 ka BP event (Booth et al, 2005;Staubwasser and Weiss, 2006;Walker et al, 2012). The causes and forcing mechanisms behind the 4.2 ka BP event are still not well understood, but potential explanations include, amongst others, a southward shift of the ITCZ (Mayewski et al, 2004), cooler conditions in the North Atlantic (Bond et al, 1997) and a strengthening of the El Niño Southern Oscillation (Walker et al, 2012;Toth and Aronson, 2019). Recently, Perşoiu et al (2019) hypothesized that the cold and arid conditions, which prevailed on the Eurasian landmass during the 4.2 ka BP event, resulted from a strengthening and expansion of the Siberian High, which hindered the transport of moisture by blocking the Westerlies.…”

Section: Phase III (∼8050 -2600 a Bp)mentioning

confidence: 99%

How to Deal With Multi-Proxy Data for Paleoenvironmental Reconstructions: Applications to a Holocene Lake Sediment Record From the Tian Shan, Central Asia

et al. 2020

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“…This paper does not mention the 4.2 kyr event once, instead referring to a series of climatic changes around 4.0 kyr event, potentially associated with changing tropical sea-surface temperatures. This 4 kyr BP shift in tropical climate is now widely documented in the literature and likely related to changes in the mean state of ENSO (Denniston et al, 2013;Gagan et al, 2004;Giosan et al, 2018;Li et al, 2018;MacDonald, 2011;Toth and Aronson, 2019). No causal relationship between the 4.0 kyr BP tropical climate shift and the 4.2kyr event has been established.…”

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confidence: 96%

Possible expression of the 4.2 kyr event in Madagascar and the south-east African monsoon

Scroxton

Burns

McGee

et al. 2020

Preprint

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Abstract. The 4.2 kyr event is regarded as one of the largest and best documented abrupt climate disturbances of the Holocene. Drying across the Mediterranean and Middle East is well established and is linked to societal transitions in the Akkadian, Egyptian and Harappan civilizations. Yet the impacts of this regional drought are often extended to other regions and sometimes globally. In particular, the nature and spatial extent of the 4.2 kyr event in the tropics have not been established. Here, we present a new stalagmite stable isotope record from Anjohikely, northwest Madagascar. Growing between 5 and 2 kyr BP, stalagmite AK1 shows a hiatus between 4.32 and 3.83 kyr BP, replicating a hiatus in another stalagmite from nearby Anjohibe, and therefore indicating a significant drought around the time of the 4.2 kyr event. This result is the opposite to wet conditions at 8.2 kyr BP, suggesting fundamentally different forcing mechanisms. Elsewhere in the south-east African monsoon domain dry conditions are also recorded in sediment cores in Lake Malawi and Lake Masoko and the Taros Basin on Mauritius. However, at the peripheries of the monsoon domain, drying is not observed. At the northern (equatorial East Africa) and eastern (Rodrigues) peripheries, no notable event is record. At the southern periphery a wet event is recorded in stalagmites at Cold Air Cave and sediment cores at Lake Muzi and Mkhuze Delta. The spatial pattern is largely consistent with the modern rainfall anomaly pattern associated with weak Mozambique Channel Trough and a northerly austral summer Inter Tropical Convergence Zone position. Within age error, the observed peak climate anomalies are consistent with the 4.2 kyr event. However, outside Madagascar, regional hydrological change is consistently earlier than a 4.26 kyr BP event onset. Gradual hydrological change frequently begins at 4.6 kyr BP, raising doubt as to whether any coherent regional hydrological change is merely coincident with the 4.2 kyr event rather than part of a global climatic anomaly.

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The 4.2 ka event, ENSO, and coral reef development

Cited by 29 publications

References 111 publications

Upwelling buffers climate change impacts on coral reefs of the eastern tropical Pacific

Upwelling buffers climate change impacts on coral reefs of the eastern tropical Pacific

How to Deal With Multi-Proxy Data for Paleoenvironmental Reconstructions: Applications to a Holocene Lake Sediment Record From the Tian Shan, Central Asia

Possible expression of the 4.2 kyr event in Madagascar and the south-east African monsoon

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