The review of the Holocene hydroclimate in the arid West Asia

  • 吴 兰军
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  • 1. State Key Laboratory of Tropical Oceanography, South China Sea Institute of Oceanology, Chinese Academy of Sciences, Guangzhou 510301, China;

    2. University of Chinese Academy of Sciences, Beijing 100049, China

Received date: 2025-03-05

  Revised date: 2025-05-15

  Accepted date: 2025-05-30

  Online published: 2025-05-30

Supported by

National Natural Science Foundation of China (42176079, 41976062); Independent deployment project of South China Sea Institute of Oceanology, Chinese Academy of Sciences (SCSIO2023QY05).

Abstract

The arid West Asia, as a key component of the mid-latitude arid belt in Eurasia, is characterized by perennial aridity, low precipitation, intense evaporation, and fragile ecosystems, making it highly sensitive to precipitation-temperature coupling variations. Clarifying the climatic evolution patterns in West Asia is crucial for predicting future climate trends and ensuring regional economic development and social stability. However, the long-term trend analyses of precipitation in West Asia are still challenged due to the sparsity of paleoclimate records, which are rich in contradictions. This study synthesizes hydroclimatic records during the past three decades to summarize the Holocene patterns in West Asia and discuss the drivers. Existing pollen records suggest a long-term increase in effective moisture during the Holocene. In contrast, speleothem and lacustrine carbonate δ18O records demonstrate the progressive aridification during the Holocene. After reviewing exiting hydroclimatic records in West Asia, we infer δ18O variations in secondary carbonates in West Asia are dominated by seawater δ18O dynamics in eastern Mediterranean, rather than directly recording local precipitation amount. Based on multi-proxy hydroclimatic records and reliability assessments of paleoclimate indicators in West Asia, this study infers that the millennial-scale climatic patterns of the arid regions during the Holocene were closely linked to the intensity and latitudinal shifts of the Westerlies, which were primarily modulated by summer insolation. During the early Holocene, increased summer insolation led to higher surface temperatures, driving a northward shift of the westerly circulation. This reduced moisture transport by the Westerlies to West Asia, resulting in drier conditions. However, increased precipitation in the East African monsoon region enhanced freshwater discharge from the Nile and other rivers into the Mediterranean Sea, resulting in a negative δ18O excursion in Mediterranean seawater. Consequently, this modified moisture source signature led to depleted δ18O values in precipitation records across West Asia. The late Holocene exhibited inverse characteristics.

Cite this article

吴 兰军 . The review of the Holocene hydroclimate in the arid West Asia[J]. Journal of Tropical Oceanography, 0 : 1 . DOI: 10.11978/2025035

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