Tropical Sand Cays as Natural Paleocyclone Archives

Chen, Tianran; Roff, George; Feng, Yuexing; Zhao, Jian‐xin

doi:10.1029/2019gl084274

Cited by 9 publications

(5 citation statements)

References 37 publications

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“…The presence of older, reworked material is common in carbonate environments, but is generally apparent as a wide distribution of inorganic carbonate dates at many depths, with no obvious trend in mean age with depth (e.g. Chen et al 64 ). In contrast, our inorganic carbonate dates lie close to a line of nearly constant slope, which would be improbable if they were reworked material.…”

Section: Core Descriptionsmentioning

confidence: 99%

Increased typhoon activity in the Pacific deep tropics driven by Little Ice Age circulation changes

et al. 2020

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The instrumental record reveals that tropical cyclone activity is sensitive to oceanic and atmospheric variability on inter-annual and decadal scales. However, our understanding of climate's influence on tropical cyclone behavior is restricted by the short historical record and the sparseness of prehistorical reconstructions, particularly in the western North Pacific where coastal communities suffer loss of life and livelihood from typhoons annually. Here, to explore past regional typhoon dynamics, we reconstruct three millennia of deep tropical North Pacific cyclogenesis. Combined with existing records, our reconstruction demonstrates that low baseline typhoon activity prior to 1350 C.E. was followed by an interval of frequent storms during the Little Ice Age. This pattern, concurrent with hydroclimate proxy variability, suggests a centennial-scale link between Pacific hydroclimate and tropical cyclone climatology. An ensemble of global climate models demonstrates a migration of the Pacific Walker circulation and variability in two Pacific climate modes during the Little Ice Age that likely contributed to enhanced tropical cyclone activity in the tropical western North Pacific. Looking

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Section: Core Descriptionsmentioning

confidence: 99%

Increased typhoon activity in the Pacific deep tropics driven by Little Ice Age circulation changes

et al. 2020

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“…The presence of older, reworked material is common in carbonate environments, but is generally apparent as a wide distribution of inorganic carbonate dates at many depths, with no obvious trend in mean age with depth (e.g. Chen et al, 2019). In contrast, our inorganic carbonate dates lie close to a line of nearly constant slope, which would be improbable if they were reworked material.…”

Section: Reconstructing Tropical Cyclone Activity 531 Core Descriptmentioning

confidence: 69%

Wave-driven geomorphology of Pacific carbonate coastlines: from landscape to wavelength scale

Bramante¹

2020

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The shallow marine ecosystems of coral atolls and the human communities they support are among the most vulnerable to anthropogenic climate change. Sea-level rise threatens to inundate low-lying reef islands, tropical cyclone intensification threatens islands with flooding and erosion, and ocean warming and acidification threaten the health of coral reefs. Unfortunately, the sediment dynamics that shape the morphol-

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“…In 2017, three cores (DM-1, collected from Dongmen Atoll; MJ-1 and MJ-2, collected from Meiji Atoll) were collected on the seaward margins (top of the front reef-slopes) of the two atolls (Figure 3), where the reef surfaces are always submerged, even during low tides, except for several large Porites blocks. Reef margins are ideal sites for coring because (1) fossil assemblages in cores can reflect the composition of the original coral assemblage of reef slopes (the main coral growing sites of an atoll) to the greatest extent; (2) reef flats and cays, in contrast, are largely composed of reworked and transported coral materials (e.g., Chen et al, 2019).…”

Section: Reef Core Collection and Taxonomic Analysesmentioning

confidence: 99%

“…The northern South China Sea is among the most active areas of tropical cyclone activity globally (Chen et al, 2019). Although to a lesser extent than the reefs in the northern South China Sea, the southern Nansha atolls are still sporadically exposed to tropical cyclones (Figure 7A) that can transport coarse calcareous sand, coral rubble, and even large coral blocks from windward reef slopes to leeward reef flats and lagoons (Yu et al, 2009).…”

Section: Excluding Cyclone Depositsmentioning

confidence: 99%

Coral reef resilience persisted for a millennium but has declined rapidly in recent decades

Zhang

Chen²,

Liu³

et al. 2023

Front. Mar. Sci.

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The lack of long-term records of coral community composition restricts our understanding of the contemporary ecological states of tropical reefs. Here we integrated paleo-ecological reconstruction, historical mortality evidence, and ecological survey data to determine the temporal variability in reef resilience of the Nansha atolls in the tropical western Pacific. Subfossil coral assemblages extracted from the reef cores exhibited no evidence of community shifts attributable to centennial-scale changes in El Niño variability during the last millennium, suggesting long-term stability in community structure and persistence of reef resilience. By contrast, ecological surveys revealed a major collapse in the reef ecosystem, and high-precision U-series dating of dead Acropora fragments indicated that this collapse occurred in recent decades and was especially relevant to several strong/extreme El Niño episodes. Frequent and intensive El Niño−Southern Oscillation and marine heatwaves have overwhelmed the reefs’ resistive and recovery capacity, thereby impairing reef resilience.

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Tropical Sand Cays as Natural Paleocyclone Archives

Cited by 9 publications

References 37 publications

Increased typhoon activity in the Pacific deep tropics driven by Little Ice Age circulation changes

Increased typhoon activity in the Pacific deep tropics driven by Little Ice Age circulation changes

Wave-driven geomorphology of Pacific carbonate coastlines: from landscape to wavelength scale

Coral reef resilience persisted for a millennium but has declined rapidly in recent decades

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