Climate dependent diatom production is preserved in biogenic Si isotope signatures

X Sun,P Andersson,C.-M Mörth,C Humborg,P Crill,D J Conley,B Gustafsson

doi:10.5194/bg-8-3491-2011

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https://doi.org/10.5194/bg-8-3491-2011

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Abstract

Abstract. The aim of this study was to reconstruct diatom production in the subarctic northern tip of the Baltic Sea, Bothnian Bay, based on down-core analysis of Si isotopes in biogenic silica (BSi). Dating of the sediment showed that the samples covered the period 1820 to 2000. The sediment core record can be divided into two periods, an unperturbed period from 1820 to 1950 and a second period affected by human activities (from 1950 to 2000). This has been observed elsewhere in the Baltic Sea. The shift in the sediment core record after 1950 is likely caused by large scale damming of rivers. Diatom production was inferred from the Si isotope composition which ranged between δ30Si −0.18‰ and +0.58‰ in BSi, and assuming fractionation patterns due to the Raleigh distillation, the production was shown to be correlated with air and water temperature, which in turn were correlated with the mixed layer (ML) depth. The sedimentary record showed that the deeper ML depth observed in colder years resulted in less production of diatoms. Pelagic investigations in the 1990's have clearly shown that diatom production in the Baltic Sea is controlled by the ML depth. Especially after cold winters and deep water mixing, diatom production was limited and dissolved silicate (DSi) concentrations were not depleted in the water column after the spring bloom. Our method corroborates these findings and offers a new method to estimate diatom production over much longer periods of time in diatom dominated aquatic systems, i.e. a large part of the world's ocean and coastal seas.

Highlights

Dissolved silicate (DSi) is an essential nutrient for diatoms, which play an important role in regulating the uptake and fate of C and N in the world oceans (Smetacek, 1998)
In this study we report an application of Si isotope analyses of diatoms to reconstruct diatom production variability from 1820 to 2000 in the subarctic Bothnian Bay
Three conclusions can be drawn from this study in the subarctic area of the Baltic Sea, Bothnian Bay as follows: 1. stable Si isotope signature in sedimentary biogenic silica (BSi) can be used to study variations in time of diatom production; 2. air and water temperatures can be used as a proxy for the mixed layer depth and as shown correlates well with diatom production; 3. large scale anthropogenic activities such as changing the hydrological regimes in rivers by damming are likely to be imprinted on the sedimentary Si isotopic record

Summary

Introduction

Dissolved silicate (DSi) is an essential nutrient for diatoms, which play an important role in regulating the uptake and fate of C and N in the world oceans (Smetacek, 1998). After diatom death and cell lysis, the siliceous cell walls of diatoms can be well preserved in sediments. This allows for the reconstruction of diatom production by analysis of the preservation of biogenic silica (BSi) over time (Conley and Schelske, 2002). BSi has been used previously to track climate-related changes in aquatic production over millennial time scales (Blass et al, 2007; Rosen et al, 2000). The lacustrine BSi flux was used to reconstruct air temperature with decadal resolution back to 1580 CE in the Swiss Alps (Blass et al, 2007) and to quantitatively infer summer temperature for the past 2 kyr in South-Central Alaska (McKay et al, 2002)

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