Potential for a New Multimillennial Tree-Ring Chronology from Subfossil Balkan River Oaks

A total of 272 oak (Quercussp.) samples have been collected from large subfossil trees dredged from sediment deposited by the Sava and various tributary rivers in the Zagreb region of northwestern Croatia, and in northern Bosnia and Herzegovina. Measurement series of tree-ring widths from these samples produced 12 groups, totaling 3456 years of floating tree-ring chronologies spread through the last ca. 8000 years. This work represents the first step in creating a new, high-resolution resource for dating and paleoenvironmental reconstruction in the Balkan region and potentially a means to bridge between the floating tree-ring chronologies of the wider Mediterranean region and the continuous long chronologies from central Europe.

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The 12,460-Year Hohenheim Oak and Pine Tree-Ring Chronology from Central Europe—A Unique Annual Record for Radiocarbon Calibration and Paleoenvironment Reconstructions

Radiocarbon ◽

10.1017/s003382220003304x ◽

2004 ◽

Vol 46 (3) ◽

pp. 1111-1122 ◽

Cited By ~ 187

Author(s):

Michael Friedrich ◽

Sabine Remmele ◽

Bernd Kromer ◽

Jutta Hofmann ◽

Marco Spurk ◽

...

Keyword(s):

Central Europe ◽

Tree Ring ◽

Ring Width ◽

Younger Dryas ◽

Published Data ◽

Tree Ring Chronology ◽

The Holocene ◽

Pine Tree ◽

German Part ◽

Radiocarbon Calibration

The combined oak and pine tree-ring chronologies of Hohenheim University are the backbone of the Holocene radiocarbon calibration for central Europe. Here, we present the revised Holocene oak chronology (HOC) and the Preboreal pine chronology (PPC) with respect to revisions, critical links, and extensions. Since 1998, the HOC has been strengthened by new trees starting at 10,429 BP (8480 BC). Oaks affected by cockchafer have been identified and discarded from the chronology. The formerly floating PPC has been cross-matched dendrochronologically to the absolutely dated oak chronology, which revealed a difference of only 8 yr to the published 14C wiggle-match position used for IntCal98. The 2 parts of the PPC, which were linked tentatively at 11,250 BP, have been revised and strengthened by new trees, which enabled us to link both parts of the PPC dendrochronologically. Including the 8-yr shift of the oak-pine link, the older part of the PPC (pre-11,250 BP) needs to be shifted 70 yr to older ages with respect to the published data (Spurk 1998). The southern German part of the PPC now covers 2103 yr from 11,993–9891 BP (10,044–7942 BC). In addition, the PPC was extended significantly by new pine chronologies from other regions. A pine chronology from Avenches and Zürich, Switzerland, and another from the Younger Dryas forest of Cottbus, eastern Germany, could be crossdated and dendrochronologically matched to the PPC. The absolutely dated tree-ring chronology now extends back to 12,410 cal BP (10,461 BC). Therefore, the tree-ring-based 14C calibration now reaches back into the Central Younger Dryas. With respect to the Younger Dryas-Preboreal transition identified in the ring width of our pines at 11,590 BP, the absolute tree-ring chronology now covers the entire Holocene and 820 yr of the Younger Dryas.

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Radiocarbon and Tree-Ring Dates of the Bes-Shatyr #3 Saka Kurgan in the Semirechiye, Kazakhstan

Radiocarbon ◽

10.1017/s0033822200048207 ◽

2013 ◽

Vol 55 (3) ◽

pp. 1297-1303 ◽

Cited By ~ 3

Author(s):

Irina Panyushkina ◽

Fedor Grigoriev ◽

Todd Lange ◽

Nursan Alimbay

Keyword(s):

High Resolution ◽

Tree Ring ◽

Iron Age ◽

Calibration Curve ◽

Prominent Feature ◽

Tree Ring Chronology ◽

Inner Asia ◽

Ili River Valley ◽

Early Appearance ◽

Wide Range

This study employs tree-ring crossdating and radiocarbon measurements to determine the precise calendar age of the Bes-Shatyr Saka necropolis (43°47′N, 81°21′E) built for wealthy tribe leaders in the Ili River Valley (Semirechiye), southern Kazakhstan. We developed a 218-yr tree-ring chronology and a highly resolved sequence of14C from timbers of Bes-Shatyr kurgan #3. A 4-decadal-point14C wiggle dates the Bes-Shatyr necropolis to 600 cal BC. A 47-yr range of cutting dates adjusted the kurgan date to ∼550 BC. This is the first result of high-resolution14C dating produced for the Saka burials in the Semirechiye. The collective dating of Bes-Shatyr indicates the early appearance of the Saka necropolis in the Semirechiye eastern margins of the Saka dispersal. However, the date is a couple of centuries younger than previously suggested by single14C dates. It is likely that the Shilbiyr sanctuary (location of the Bes-Shatyr) became a strategic and sacral place for the Saka leadership in the Semirechiye long before 550 BC. Another prominent feature of the Semirechiye burial landscape, the Issyk necropolis enclosing the Golden Warrior tomb, appeared a few centuries later according to14C dating reported by other investigators. This study contributes to the Iron Age chronology of Inner Asia, demonstrating successful results of14C calibration within the Hallstatt Plateau of the14C calibration curve. It appears that the wide range of calibrated dates for the Saka occurrences in Kazakhstan (from 800 BC to AD 350) is the result of the calibration curve constraints around the middle of the 1st millennium BC.

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Fossile Föhren – präzises Werkzeug der Paläoklimaforschung: Stand der Jahrringforschung an fossilen Bäumen und Vernetzung hochauflösender Archive | Fossil pine trees – accurate tool in paleoclimatic research

Schweizerische Zeitschrift fur Forstwesen ◽

10.3188/szf.2004.0233 ◽

2004 ◽

Vol 155 (6) ◽

pp. 233-237

Author(s):

Klaus Felix Kaiser ◽

Matthias Schaub

Keyword(s):

High Resolution ◽

Tree Ring ◽

Tree Rings ◽

Younger Dryas ◽

Ice Cores ◽

Tree Ring Chronology ◽

Pine Trees ◽

The Absolute

A comparison of different high-resolution archives, such as tree rings, ice cores and marine varves show high degrees of similarity and reveal significant hemispheric climatic events (Older Dryas, Gerzensee Deviation, onset of Younger Dryas). Even the eruption of the Laachersee volcano (Eifel, Germany) 13 070 years ago is recorded synchronously in all of these archives. Trees from the Zurich area extend the absolute tree-ring chronology back to 12 449 years BP. This extension is relevant for quaternary research as well as for calibrating the 14C curve and other archives. The recent findings from the Uetliberg may provide further progress in filling the existing gaps in the Lateglacial tree-ring chronologies.

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Radiocarbon Pretreatment Comparisons of Bald Cypress (Taxodium Distichum) wood samples from a massive buried deposit on the Georgia Coast, USA

Radiocarbon ◽

10.1017/rdc.2019.121 ◽

2019 ◽

Vol 61 (6) ◽

pp. 1755-1763 ◽

Cited By ~ 1

Author(s):

Katharine G Napora ◽

Alexander Cherkinsky ◽

Robert J Speakman ◽

Victor D Thompson ◽

Robert Horan ◽

...

Keyword(s):

High Resolution ◽

Tree Ring ◽

Taxodium Distichum ◽

Individual Growth ◽

Tree Ring Chronology ◽

Growth Rings ◽

Bald Cypress ◽

Georgia Coast ◽

The U.S

ABSTRACTWe sampled individual growth rings from three ancient remnant bald cypress (Taxodium distichum) trees from a massive buried deposit at the mouth of the Altamaha River on the Georgia Coast to determine the best technique for radiocarbon (14C) dating pretreatment. The results of our comparison of traditional ABA pretreatment and holocellulose and α-cellulose fractions show no significant differences among the pretreatments (<1 sigma) thereby suggesting that ABA pretreatment will prove sufficient for the development of a high-resolution 14C tree-ring chronology based on these ancient bald cypresses which will indicate whether the U.S. Southeast is subject to a regional radiocarbon offset.

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The Long-Term Radiocarbon Trend of the Absolute German Oak Tree-Ring Chronology, 2800 to 800 BC

Radiocarbon ◽

10.1017/s0033822200005488 ◽

1983 ◽

Vol 25 (2) ◽

pp. 197-203 ◽

Cited By ~ 10

Author(s):

Bernd Becker

Keyword(s):

Central Europe ◽

Tree Ring ◽

Tree Ring Chronology ◽

The Holocene ◽

Oak Tree ◽

The Absolute ◽

Nearly Continuous ◽

Continuous Source

The Hohenheim Tree-Ring Laboratory has extended the Holocene oak tree-ring chronology back to prehistoric times by analyses of subfossil tree trunks from gravel deposits along the rivers of central Europe. Hundreds of subfossil oaks can be collected each year because of widespread gravel quarrying. Despite this nearly continuous source of samples (at present, 2200 trees are analyzed), even within these deposits some limitations do exist in linking together a Holocene tree-ring sequence.

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Securing timelines in the ancient Mediterranean using multiproxy annual tree-ring data

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1917445117 ◽

2020 ◽

Vol 117 (15) ◽

pp. 8410-8415 ◽

Cited By ~ 6

Author(s):

Charlotte Pearson ◽

Matthew Salzer ◽

Lukas Wacker ◽

Peter Brewer ◽

Adam Sookdeo ◽

...

Keyword(s):

Tree Ring ◽

Iron Age ◽

Paleoenvironmental Reconstruction ◽

Growth Responses ◽

Tree Ring Chronology ◽

Potential Marker ◽

Environmental Interactions ◽

Tree Ring Data ◽

Bristlecone Pine ◽

New Applications

Calendar-dated tree-ring sequences offer an unparalleled resource for high-resolution paleoenvironmental reconstruction. Where such records exist for a few limited geographic regions over the last 8,000 to 12,000 years, they have proved invaluable for creating precise and accurate timelines for past human and environmental interactions. To expand such records across new geographic territory or extend data for certain regions further backward in time, new applications must be developed to secure “floating” (not yet absolutely dated) tree-ring sequences, which cannot be assigned single-calendar year dates by standard dendrochronological techniques. This study develops two approaches to this problem for a critical floating tree-ring chronology from the East Mediterranean Bronze–Iron Age. The chronology is more closely fixed in time using annually resolved patterns of 14C, modulated by cosmic radiation, between 1700 and 1480 BC. This placement is then tested using an anticorrelation between calendar-dated tree-ring growth responses to climatically effective volcanism in North American bristlecone pine and the Mediterranean trees. Examination of the newly dated Mediterranean tree-ring sequence between 1630 and 1500 BC using X-ray fluorescence revealed an unusual calcium anomaly around 1560 BC. While requiring further replication and analysis, this anomaly merits exploration as a potential marker for the eruption of Thera.

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Tree Ring Chronology Indexes and Reconstructions of Precipitation in Central Iowa, USA

Carbon Dioxide Information Analysis Center (CDIAC) Datasets ◽

10.3334/cdiac/cli.ndp002 ◽

1984 ◽

Author(s):

T.J. Blasing, ◽

D.N. Duvick,

Keyword(s):

Tree Ring ◽

Tree Ring Chronology

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ABSOLUTE DENDROCHRONOLOGICAL SCALE FOR PINE (PINUS SYLVESTRIS L.) FROM UJŚCIE (NW POLAND), DATED USING RAPID ATMOSPHERIC 14C CHANGES

Radiocarbon ◽

10.1017/rdc.2020.116 ◽

2020 ◽

pp. 1-10

Author(s):

Marek Krąpiec ◽

Andrzej Rakowski ◽

Jacek Pawlyta ◽

Damian Wiktorowski ◽

Monika Bolka

Keyword(s):

High Resolution ◽

Pinus Sylvestris ◽

Middle Ages ◽

Tree Ring ◽

Tree Rings ◽

Matching Method ◽

Early Middle Ages ◽

Rapid Changes ◽

Absolute Age ◽

Nw Poland

ABSTRACT Radiocarbon (14C) analyses are commonly used to determine the absolute age of floating tree-ring chronologies. At best, with the wiggle-matching method, a precision of 10 years could be achieved. For the early Middle Ages, this situation has been markedly improved by the discovery of rapid changes in atmospheric 14C concentrations in tree-rings dated to 774/775 and 993/994 AD. These high-resolution changes can be used to secure other floating tree-ring sequences to within 1-year accuracy. While a number of studies have used the 774 even to secure floating tree-ring sequences, the less abrupt 993 event has not been so well utilized. This study dates a floating pine chronology from Ujście in Wielkopolska (Greater Poland) (NW Poland), which covers the 10th century period and is critical for studies on the beginning of the Polish State to the calendar years 859–1085 AD using the changes in single year radiocarbon around 993/4 AD.

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Quality Dating: A Well-Defined Protocol Implemented at ETH for High-Precision 14C-Dates Tested on Late Glacial Wood

Radiocarbon ◽

10.1017/rdc.2019.132 ◽

2019 ◽

Vol 62 (4) ◽

pp. 891-899 ◽

Cited By ~ 6

Author(s):

Adam Sookdeo ◽

Bernd Kromer ◽

Ulf Büntgen ◽

Michael Friedrich ◽

Ronny Friedrich ◽

...

Keyword(s):

Mass Spectrometry ◽

Tree Ring ◽

High Precision ◽

Accelerator Mass Spectrometry ◽

Late Glacial ◽

Tree Ring Chronology ◽

Continuous Measurements ◽

Calibration Curves

ABSTRACTAdvances in accelerator mass spectrometry have resulted in an unprecedented amount of new high-precision radiocarbon (14C) -dates, some of which will redefine the international 14C calibration curves (IntCal and SHCal). Often these datasets are unaccompanied by detailed quality insurances in place at the laboratory, questioning whether the 14C structure is real, a result of a laboratory variation or measurement-scatter. A handful of intercomparison studies attempt to elucidate laboratory offsets but may fail to identify measurement-scatter and are often financially constrained. Here we introduce a protocol, called Quality Dating, implemented at ETH-Zürich to ensure reproducible and accurate high-precision 14C-dates. The protocol highlights the importance of the continuous measurements and evaluation of blanks, standards, references and replicates. This protocol is tested on an absolutely dated German Late Glacial tree-ring chronology, part of which is intercompared with the Curt Engelhorn-Center for Archaeometry, Mannheim, Germany (CEZA). The combined dataset contains 170 highly resolved, highly precise 14C-dates that supplement three decadal dates spanning 280 cal. years in IntCal, and provides detailed 14C structure for this interval.

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