Resolving seasonal rainfall changes in the Middle East during the last interglacial period
Files
Download Full Text
Publication Date
February 2019
Abstract
Paleorainfall proxy records from the Middle East have revealed remarkable patterns of variability since the penultimate glacial period (140 ka), but the seasonality of this signal has been unresolvable. Here, seasonal-resolution oxygen isotope data from Soreq Cave speleothems suggest that summer monsoon rainfall periodically reaches as far north as Israel—well removed from the modern monsoon—at times (∼125, 105 ka) that overlap with evidence for some of the earliest modern human migrations out of Africa. These seasonal proxy data are corroborated by seasonal-resolution model output of the amount and oxygen-isotope ratio of rainfall from an isotope-enabled climate model. In contrast to the modern regional climate where rainfall is delivered predominantly in winter months along westerly storm tracks, the model suggests that during extreme peaks of summer insolation—as occurs during the last interglacial (e.g., 125, 105 ka)—regional rainfall increases due to both wetter winters and the incursion of summer monsoons. This interpretation brings clarity to regional paleoproxy records and provides important environmental context along one potential pathway of early modern human migration.
Keywords
Paleoclimate, Seasonal-Resolution, Oxygen Isotopes, Data-Model Comparison
Document Type
Article
Identifier
SFS0055866_00001
Recommended Citation
Orland, Ian J.; He, Feng; and Bar-Matthews, Miryam, "Resolving seasonal rainfall changes in the Middle East during the last interglacial period" (2019). KIP Articles. 4933.
https://digitalcommons.usf.edu/kip_articles/4933
