Tree-ring anomalies as time markers for ice-core chronologies, with special reference to 5281 BCE as the possible date of the Kikai volcanic event

IF 2.7 3区农林科学 Q1 FORESTRY

Dendrochronologia Pub Date : 2024-10-04 DOI:10.1016/j.dendro.2024.126271

{"title":"Tree-ring anomalies as time markers for ice-core chronologies, with special reference to 5281 BCE as the possible date of the Kikai volcanic event","authors":"","doi":"10.1016/j.dendro.2024.126271","DOIUrl":null,"url":null,"abstract":"<div><div>The synchronization of Greenland and Antarctica ice core data with tree-ring data, other proxies, and direct observations of natural processes and events is important to understand past climatic variation and environmental change. One of the methods that is used to correct the dating of ice layers is to match volcanic eruption footprints in ice cores with tree rings, manifested as sulphate spikes and anomalous rings, respectively. In this study, we inventoried the occurrence of tree-ring anatomical anomalies and extremes in ring width during three 200-year periods. These periods included three of the eight largest Holocene volcanic eruptions, each with a Volcanic Explosivity Index (VEI) of 7. The initial period spanned from 6560 to 6360 BCE and included the eruption of Ilyinsky Volcano in Kamchatka. The second period was from 5780 to 5580 BCE, during which Mount Mazama Volcano in North America erupted. The third period was from 5380 to 5180 BCE when the Kikai Volcano in the Japanese Islands erupted. Throughout the first two periods, no substantial tree-ring anomalies were observed suggesting the absence of any significant climate consequences of a major volcanic eruption. However, in the 5380–5180 BCE period, a clear sharp decline in tree growth and an exceptionally high frequency of tree-ring anomalies were identified in 5281 BCE and the subsequent 5 years. We propose that the exceptionally narrow light rings in these 6 years are indicative of the climatic impact resulting from the Kikai volcanic eruption. We suggest utilising the year 5281 BCE as the reference year for synchronising the Greenland and Antarctica ice core chronologies. In the case that our assumption is correct, this would imply the necessity to adjust the time of the event to an earlier date compared to the dates indicated by the existing ice core chronologies of the GICC05 (Greenland Ice Core Chronology 2005), adjusted according to Kobashi (2017), and WD2014 used for creating HolVol 1.0 (Holocene ice-core volcanic eruption catalogue from 9500 BCE - 1900 CE) by 67 and 54 years, respectively, for the period around 5300 BCE. A verification of our assumption could be conducted by examining the nearby Miyake event, a spike in cosmogenic radiocarbon, of 5258 BCE. Ice core layers displaying potential signs of this event should be approximately 25 years later than the markers of the Kikai volcanic eruption.</div></div>","PeriodicalId":50595,"journal":{"name":"Dendrochronologia","volume":null,"pages":null},"PeriodicalIF":2.7000,"publicationDate":"2024-10-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Dendrochronologia","FirstCategoryId":"97","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S1125786524001085","RegionNum":3,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"FORESTRY","Score":null,"Total":0}

引用次数: 0

Abstract

The synchronization of Greenland and Antarctica ice core data with tree-ring data, other proxies, and direct observations of natural processes and events is important to understand past climatic variation and environmental change. One of the methods that is used to correct the dating of ice layers is to match volcanic eruption footprints in ice cores with tree rings, manifested as sulphate spikes and anomalous rings, respectively. In this study, we inventoried the occurrence of tree-ring anatomical anomalies and extremes in ring width during three 200-year periods. These periods included three of the eight largest Holocene volcanic eruptions, each with a Volcanic Explosivity Index (VEI) of 7. The initial period spanned from 6560 to 6360 BCE and included the eruption of Ilyinsky Volcano in Kamchatka. The second period was from 5780 to 5580 BCE, during which Mount Mazama Volcano in North America erupted. The third period was from 5380 to 5180 BCE when the Kikai Volcano in the Japanese Islands erupted. Throughout the first two periods, no substantial tree-ring anomalies were observed suggesting the absence of any significant climate consequences of a major volcanic eruption. However, in the 5380–5180 BCE period, a clear sharp decline in tree growth and an exceptionally high frequency of tree-ring anomalies were identified in 5281 BCE and the subsequent 5 years. We propose that the exceptionally narrow light rings in these 6 years are indicative of the climatic impact resulting from the Kikai volcanic eruption. We suggest utilising the year 5281 BCE as the reference year for synchronising the Greenland and Antarctica ice core chronologies. In the case that our assumption is correct, this would imply the necessity to adjust the time of the event to an earlier date compared to the dates indicated by the existing ice core chronologies of the GICC05 (Greenland Ice Core Chronology 2005), adjusted according to Kobashi (2017), and WD2014 used for creating HolVol 1.0 (Holocene ice-core volcanic eruption catalogue from 9500 BCE - 1900 CE) by 67 and 54 years, respectively, for the period around 5300 BCE. A verification of our assumption could be conducted by examining the nearby Miyake event, a spike in cosmogenic radiocarbon, of 5258 BCE. Ice core layers displaying potential signs of this event should be approximately 25 years later than the markers of the Kikai volcanic eruption.

查看原文本刊更多论文

作为冰核年代学时间标记的树环异常，特别是公元前 5281 年作为基开火山事件的可能日期

将格陵兰岛和南极洲的冰芯数据与树年轮数据、其他代用指标以及对自然过程和事件的直接观测结果同步，对于了解过去的气候变异和环境变化非常重要。用于校正冰层年代的方法之一是将冰芯中的火山喷发足迹与树年轮（分别表现为硫酸盐峰和异常年轮）相匹配。在这项研究中，我们清查了三个 200 年期间出现的树环解剖异常和极端环宽。这三个时期包括全新世八次最大火山爆发中的三次，每次火山爆发指数（VEI）均为 7。第一个时期为公元前 6560 年至公元前 6360 年，包括堪察加半岛伊林斯基火山的爆发。第二个时期为公元前 5780 年至公元前 5580 年，期间北美的马扎玛火山喷发。第三个时期是公元前 5380 年至 5180 年，日本列岛的纪海火山在此期间爆发。在前两个时期，没有观察到明显的树环异常，这表明火山大爆发没有对气候造成任何重大影响。然而，在公元前 5380-5180 年期间，树木生长明显急剧下降，并且在公元前 5281 年及其后的 5 年中发现了频率极高的树环异常。我们认为，这 6 年中异常狭窄的光环表明了基开火山爆发造成的气候影响。我们建议将公元前 5281 年作为同步格陵兰和南极洲冰芯年代学的参考年份。如果我们的假设是正确的，这将意味着有必要将事件发生的时间调整到一个更早的日期，与根据 Kobashi（2017 年）调整的 GICC05（格陵兰冰芯年表 2005）和用于创建 HolVol 1.0（公元前 9500 年至公元前 1900 年全新世冰芯火山喷发目录）的 WD2014 现有冰芯年表所显示的日期相比，公元前 5300 年左右的时期分别提前了 67 年和 54 年。可以通过研究附近的三宅事件（公元前 5258 年的宇宙放射性碳峰值）来验证我们的假设。显示出这一事件潜在迹象的冰芯层应该比 Kikai 火山喷发的标记晚约 25 年。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Dendrochronologia FORESTRY-GEOGRAPHY, PHYSICAL

CiteScore

5.50

自引率

13.30%

发文量

审稿时长

22.8 weeks

期刊介绍： Dendrochronologia is a peer-reviewed international scholarly journal that presents high-quality research related to growth rings of woody plants, i.e., trees and shrubs, and the application of tree-ring studies. The areas covered by the journal include, but are not limited to: Archaeology Botany Climatology Ecology Forestry Geology Hydrology Original research articles, reviews, communications, technical notes and personal notes are considered for publication.