A. Borsato, I. Fairchild, S. Frisia, Peter M. Wynn, J. Fohlmeister
{"title":"The Ernesto Cave, northern Italy, as a candidate auxiliary reference section for the definition of the Anthropocene series","authors":"A. Borsato, I. Fairchild, S. Frisia, Peter M. Wynn, J. Fohlmeister","doi":"10.1177/20530196221144094","DOIUrl":null,"url":null,"abstract":"Annually laminated stalagmites ER77 and ER78 from Grotta di Ernesto provide an accurate annual record of environmental and anthropogenic signals for the last ~200 years. Two major transitions are recorded in the stalagmites. The first coincides with the year 1840 CE, when a change from porous and impurity-rich-laminae to clean, translucent laminae occurs. This is accompanied by a steady increase in the growth rate, a decrease in fluorescence and a sharp increase in δ13C values. These changes concur with the end of the Little Ice Age. The second transition takes place around the year 1960 CE and corresponds with an increase in both annual growth rate and sulfur concentration in stalagmite ER78 at 4.2 mm from the top, and with the deflection point in the 14C activity curve in stalagmite ER77 at 4.8 mm from the top. This latter is the stratigraphic signal proposed as the primary guide for the definition of the Anthropocene series. The following shift toward depleted δ34S–SO4 in stalagmite ER78 suggests that industrial pollution is a major source of sulfur. The interpretation of atmospheric signals (S, δ34S, 14C) in the stalagmites is affected by attenuation and time lags and the environmental signals are influenced by soil and ecosystem processes, while other anthropogenic signals (δ15N, 239Pu) are not recorded. For these reasons, the stalagmite record is here proposed as an auxiliary (reference) section rather than a global standard. In summary, Grotta di Ernesto contains one of the best stalagmite records documenting the Anthropocene, and one of only two stalagmite records where the S peak has been measured at high resolution.","PeriodicalId":74943,"journal":{"name":"The anthropocene review","volume":"10 1","pages":"269 - 287"},"PeriodicalIF":0.0000,"publicationDate":"2023-01-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"The anthropocene review","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1177/20530196221144094","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 3
Abstract
Annually laminated stalagmites ER77 and ER78 from Grotta di Ernesto provide an accurate annual record of environmental and anthropogenic signals for the last ~200 years. Two major transitions are recorded in the stalagmites. The first coincides with the year 1840 CE, when a change from porous and impurity-rich-laminae to clean, translucent laminae occurs. This is accompanied by a steady increase in the growth rate, a decrease in fluorescence and a sharp increase in δ13C values. These changes concur with the end of the Little Ice Age. The second transition takes place around the year 1960 CE and corresponds with an increase in both annual growth rate and sulfur concentration in stalagmite ER78 at 4.2 mm from the top, and with the deflection point in the 14C activity curve in stalagmite ER77 at 4.8 mm from the top. This latter is the stratigraphic signal proposed as the primary guide for the definition of the Anthropocene series. The following shift toward depleted δ34S–SO4 in stalagmite ER78 suggests that industrial pollution is a major source of sulfur. The interpretation of atmospheric signals (S, δ34S, 14C) in the stalagmites is affected by attenuation and time lags and the environmental signals are influenced by soil and ecosystem processes, while other anthropogenic signals (δ15N, 239Pu) are not recorded. For these reasons, the stalagmite record is here proposed as an auxiliary (reference) section rather than a global standard. In summary, Grotta di Ernesto contains one of the best stalagmite records documenting the Anthropocene, and one of only two stalagmite records where the S peak has been measured at high resolution.
Grotta di Ernesto的年层状石笋ER77和ER78提供了近200年来环境和人为信号的准确年度记录。石笋中记录了两个主要的转变。第一次是在公元1840年,从多孔的、富含杂质的薄片转变为干净的、半透明的薄片。这伴随着生长速率的稳定增加,荧光的下降和δ13C值的急剧增加。这些变化与小冰期的结束一致。第二次转变发生在1960 CE前后,与石笋ER78的年生长率和硫浓度的增加相对应的是石笋ER78的年生长率和硫浓度的增加,与石笋ER77的14C活度曲线的偏转点相对应的是石笋ER77的14C活度曲线的偏转点在距离顶部4.8 mm处。后者是作为人类世系列定义的主要指南而提出的地层信号。石笋ER78向贫δ34S-SO4的转变表明工业污染是硫的主要来源。石笋中大气信号(S、δ34S、14C)的解释受衰减和时间滞后的影响,环境信号受土壤和生态系统过程的影响,而其他人为信号(δ15N、239Pu)没有记录。由于这些原因,这里建议将石笋记录作为辅助(参考)部分,而不是全球标准。总而言之,Grotta di Ernesto包含了记录人类世的最好的石笋记录之一,也是仅有的两个以高分辨率测量S峰的石笋记录之一。