4.5 Article

Seasonal climate signals preserved in biochemical varves: insights from novel high-resolution sediment scanning techniques

Journal

CLIMATE OF THE PAST
Volume 17, Issue 5, Pages 2055-2071

Publisher

COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/cp-17-2055-2021

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Varved lake sediments are important archives for paleoclimatic information, but quantitative reconstructions based on biogeochemical composition are rare due to complexity. Recent advancements in high-resolution imaging and elemental mapping allow for better understanding of varve formation processes and climate-proxy relationships. This study presents a geochemical dataset from Lake Zabinskie, Poland, analyzing how seasonal meteorological conditions influence sediment composition and varve types, with the use of generalized additive models for climate inference.
Varved lake sediments are exceptional archives of paleoclimatic information due to their precise chronological control and annual resolution. However, quantitative paleoclimate reconstructions based on the biogeochemical composition of biochemical varves are extremely rare, mainly because the climate-proxy relationships are complex and obtaining biogeochemical proxy data at very high (annual) resolution is difficult. Recent developments in high-resolution hyperspectral imaging (HSI) of sedimentary pigment biomarkers combined with micro X-ray fluorescence (mu XRF) elemental mapping make it possible to measure the structure and composition of varves at unprecedented resolution. This provides opportunities to explore seasonal climate signals preserved in biochemical varves and, thus, assess the potential for annual-resolution climate reconstruction from biochemical varves. Here, we present a geochemical dataset including HSI-inferred sedimentary pigments and mu XRF-inferred elements at very high spatial resolution (60 mu m, i.e. >100 data points per varve year) in varved sediments of Lake Zabinskie, Poland, over the period 1966-2019 CE. We compare these data with local meteorological observations to explore and quantify how changing seasonal meteorological conditions influenced sediment composition and varve formation processes. Based on the dissimilarity of within-varve multivariate geochemical time series, we classified varves into four types. Multivariate analysis of variance shows that these four varve types were formed in years with significantly different seasonal meteorological conditions. Generalized additive models (GAMs) were used to infer seasonal climate conditions based on sedimentary variables. Spring and summer (MAMJJA) temperatures were predicted using Ti and total C (Radj2=0.55; cross-validated root mean square error (CV-RMSE) = 0.7 degrees C, 14.4 %). Windy days from March to December (mean daily wind speed >7 m s-1) were predicted using mass accumulation rate (MAR) and Si (Radj2=0.48; CV-RMSE = 19.0 %). This study demonstrates that high-resolution scanning techniques are promising tools to improve our understanding of varve formation processes and climate-proxy relationships in biochemical varves. This knowledge is the basis for quantitative high-resolution paleoclimate reconstructions, and here we provide examples of calibration and validation of annual-resolution seasonal weather inference from varve biogeochemical data.

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