Ecological responses to solar forcing during the Homerian Climate Anomaly recorded by varved sediments from Holzmaar, Germany

María Luján García, Stella Birlo, Petra Zahajská, Giulia Wienhues, Martin Grosjean, Bernd Zolitschka
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Abstract

Features like solar cyclicities and trends as well as grand solar minima are used to attribute natural climate variability to solar forcing on decadal to millennial time scales. Here we focus on ecological responses of a Grand Solar Minimum on annually- laminated lake sediments from Holzmaar (Germany) covering the Homeric Climate Anomaly (HCA). Diatom assemblages and pigments of purple sulphur bacteria (Bphe a) analysed at decadal resolution document well-stratified conditions with relatively low lacustrine productivity prior to the HCA (2950–2750 cal. BP). Colder temperatures, a well-mixed water column and higher primary aquatic productivity established during the HCA (2750–2680 cal. BP) as indicated for Holzmaar by dominance of the planktonic diatom Stephanodiscus minutulus, decreasing Bphe a and peaking total chloropigment concentrations. The termination of the HCA after 2680 cal. BP is marked by additional anthropogenic signals related to deforestation that changed the catchment at the contemporaneous Bronze Age/Iron Age transition. Our high-resolution and well-dated multiproxy study based on varved sediments contributes to a better understanding of decadal-scale responses of aquatic ecosystems to solar forcing and compares well with hypotheses suggested by other investigations indicating colder and more windy climatic conditions as the consequences of a Grand Solar Minimum for mid-latitudes of the Northern Hemisphere.
德国霍尔茨马尔变异沉积物记录的荷马气候异常期太阳强迫的生态响应
太阳周期性和趋势以及太阳大极小期等特征被用来将自然气候变异性归因于十年至千年时间尺度上的太阳强迫。在此,我们重点研究了大太阳极小期对德国霍尔茨马尔(Holzmaar)每年层积湖沉积物的生态响应,这些沉积物覆盖了荷马气候异常期(HCA)。硅藻群和紫色硫细菌色素(Bphe a)的十年分辨率分析记录了 HCA(公元前 2950-2750 年)之前湖泊生产力相对较低的分层条件。在 HCA 期间(公元前 2750-2680 年),气温较低,水体混合良好,水生初级生产力较高,霍尔茨马尔地区的浮游硅藻 Stephanodiscus minutulus 占主导地位,Bphe a 下降,总氯色素浓度达到顶峰。HCA 在公元前 2680 年后结束。与此同时,在青铜时代/铁器时代过渡时期,与森林砍伐相关的其他人为信号也改变了集水区。我们基于变异沉积物进行的高分辨率和年代久远的多代理研究有助于更好地理解水生生态系统对太阳强迫的十年尺度反应,并与其他研究提出的假说相比较,这些假说表明北半球中纬度地区大太阳极小期的后果是更冷和更多风的气候条件。
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