Analysis and modelling of a 9.3 kyr palaeoflood record: correlations, clustering, and cycles

Witt, Annette; Malamud, Bruce D.; Mangili, Clara; Brauer, Achim

doi:10.5194/hess-21-5547-2017

Cited by 3 publications

(7 citation statements)

References 105 publications

(125 reference statements)

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“…3). Similarly, other high-resolution palaeo-hydrological records (e.g., Witt et al, 2017) and modern observations (e.g., Metzger et al, 2020) have demonstrated non-uniform and non-Poissonian flood frequencies. In addition, the clusters observed during lakelevel fall are characterized by flood frequencies similar to those appearing in the background episodes during lakelevel rise (Figs.…”

Section: Clusters and Regime Transitionsmentioning

confidence: 66%

“…Furthermore, the impacts of climate change on short-term phenomena such as individual storms and floods, which have substantial influence on the in situ water cycle in the Mediterranean Sea, are harder to determine from the available short historical records because the extent of available data does not adequately capture the full diversity of possible hydroclimatic states (e.g., Greenbaum et al, 2010;Tarolli et al, 2012;Metzger et al, 2020). Because palaeohydrologic archives often record centennial and millennial intervals at various resolutions (e.g., Allen et al, 2020;Baker, 2008;Brauer et al, 2008;Redmond et al, 2002;Witt et al, 2017), they have the potential to improve our understating of how climate change is manifested locally as short-term hydroclimatic variability (e.g., Ahlborn et al, 2018;Swierczynski et al, 2012). Nevertheless, this requires continuous high-resolution archives, which are rare, especially in subtropical terrestrial environments (e.g., Zolitschka et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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Hydroclimatic variability of opposing Late Pleistocene climates in the Levant revealed by deep Dead Sea sediments

et al. 2021

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Abstract. Annual and decadal-scale hydroclimatic variability describes key characteristics that are embedded into climate in situ and is of prime importance in subtropical regions. The study of hydroclimatic variability is therefore crucial to understand its manifestation and implications for climate derivatives such as hydrological phenomena and water availability. However, the study of this variability from modern records is limited due to their relatively short span, whereas model simulations relying on modern dynamics could misrepresent some of its aspects. Here we study annual to decadal hydroclimatic variability in the Levant using two sedimentary sections covering ∼ 700 years each, from the depocenter of the Dead Sea, which has been continuously recording environmental conditions since the Pleistocene. We focus on two series of annually deposited laminated intervals (i.e., varves) that represent two episodes of opposing mean climates, deposited during MIS2 lake-level rise and fall at ∼ 27 and 18 ka, respectively. These two series comprise alternations of authigenic aragonite that precipitated during summer and flood-borne detrital laminae deposited by winter floods. Within this record, aragonite laminae form a proxy of annual inflow and the extent of epilimnion dilution, whereas detrital laminae are comprised of sub-laminae deposited by individual flooding events. The two series depict distinct characteristics with increased mean and variance of annual inflow and flood frequency during “wetter”, with respect to the relatively “dryer”, conditions, reflected by opposite lake-level changes. In addition, decades of intense flood frequency (clusters) are identified, reflecting the in situ impact of shifting centennial-scale climate regimes, which are particularly pronounced during wetter conditions. The combined application of multiple time series analyses suggests that the studied episodes are characterized by weak and non-significant cyclical components of sub-decadal frequencies. The interpretation of these observations using modern synoptic-scale hydroclimatology suggests that Pleistocene climate changes resulted in shifts in the dominance of the key synoptic systems that govern rainfall, annual inflow and flood frequency in the eastern Mediterranean Sea over centennial timescales.

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Section: Clusters and Regime Transitionsmentioning

confidence: 66%

Section: Introductionmentioning

confidence: 99%

Hydroclimatic variability of opposing Late Pleistocene climates in the Levant revealed by deep Dead Sea sediments

et al. 2021

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“…Dulski et al, 2015; Kämpf et al, 2019; Lapointe et al, 2012; Schlolaut et al, 2014; Støren et al, 2010). When these layers are constrained within laminated lacustrine sediments that provide a detailed chronology, it becomes possible to construct time series of events that reveal their frequency and clustering, and sometimes even relative magnitudes (Czymzik et al, 2010; Witt et al, 2017).…”

Section: Advances In Research Methods and Techniquesmentioning

confidence: 99%

“…Such frequency changes and non‐stationarity occurred under different climatic conditions (Brauer et al, 2008; Corella et al, 2016, 2021; Swierczynski et al, 2013), as observed in modern records (Blöschl et al, 2020; Redmond et al, 2002). An increasingly large number of studies indicate that, over centennial time scales, non‐stationarity characterizes both the mean and the variance of flood series, thus forming decadal to centennial clusters of increased flood frequency that stem directly from hydroclimatic variability (Ben Dor et al, 2018; Chiverrell et al, 2019; Czymzik et al, 2010; Witt et al, 2017).…”

Section: Advances In Research Methods and Techniquesmentioning

confidence: 99%

“…Furthermore, the investigation of floods within annually deposited lake sediments reveals their degree of stationarity. Several studies of flood deposits within varve‐bearing lacustrine sections demonstrated that flood frequency is not stationary at the decadal to centennial time scales (Brauer et al, 2008; Corella et al, 2021; Witt et al, 2017). Such frequency changes and non‐stationarity occurred under different climatic conditions (Brauer et al, 2008; Corella et al, 2016, 2021; Swierczynski et al, 2013), as observed in modern records (Blöschl et al, 2020; Redmond et al, 2002).…”

Section: Advances In Research Methods and Techniquesmentioning

confidence: 99%

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Fluvial palaeohydrology in the 21st century and beyond

Baker

Benito

Brown

et al. 2021

Earth Surf Processes Landf

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Professor Kenneth J. Gregory was a major contributor to fluvial palaeohydrological research. Beginning in the early 1980s, under his influence, rapid international growth of the discipline was accompanied by major advances in research methods and techniques. Current research emphases include applications of quantitative modelling and meta-analysis; the correlation of fluvial events to other records, notably palaeolacustine records; and methods for application to diverse issues of river engineering and management. The international expansion and detailed analyses of fluvial palaeohydrology are exemplified by recent studies done in Fennoscandia, the Mediterranean region, India, Israel, Australia, Pacific humid island arcs, and South America. Future developments will involve expanded work with

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Reconstructing Paleoflood Occurrence and Magnitude from Lake Sediments

et al. 2022

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Lake sediments are a valuable archive to document past flood occurrence and magnitude, and their evolution over centuries to millennia. This information has the potential to greatly improve current flood design and risk assessment approaches, which are hampered by the shortness and scarcity of gauge records. For this reason, paleoflood hydrology from lake sediments received fast-growing attention over the last decade. This allowed an extensive development of experience and methodologies and, thereby, the reconstruction of paleoflood series with increasingly higher accuracy. In this review, we provide up-to-date knowledge on flood sedimentary processes and systems, as well as on state-of-the-art methods for reconstructing and interpreting paleoflood records. We also discuss possible perspectives in the field of paleoflood hydrology from lake sediments by highlighting the remaining challenges. This review intends to guide the research interest in documenting past floods from lake sediments. In particular, we offer here guidance supported by the literature in how: to choose the most appropriate lake in a given region, to find the best suited sedimentary environments to take the cores, to identify flood deposits in the sedimentary sequence, to distinguish them from other instantaneous deposits, and finally, to rigorously interpret the flood chronicle thus produced.

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Analysis and modelling of a 9.3 kyr palaeoflood record: correlations, clustering, and cycles

Cited by 3 publications

References 105 publications

Hydroclimatic variability of opposing Late Pleistocene climates in the Levant revealed by deep Dead Sea sediments

Hydroclimatic variability of opposing Late Pleistocene climates in the Levant revealed by deep Dead Sea sediments

Fluvial palaeohydrology in the 21st century and beyond

Reconstructing Paleoflood Occurrence and Magnitude from Lake Sediments

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Analysis and modelling of a 9.3 kyr palaeoflood record: correlations, clustering, and cycles

Cited by 3 publications

References 105 publications

Hydroclimatic variability of opposing Late Pleistocene climates in the Levant revealed by deep Dead Sea sediments

Hydroclimatic variability of opposing Late Pleistocene climates in the Levant revealed by deep Dead Sea sediments

Fluvial palaeohydrology in the 21st century and beyond

Reconstructing Paleoflood Occurrence and Magnitude from Lake Sediments

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Analysis and modelling of a 9.3 kyr palaeoflood record: correlations, clustering, and cycles