Details

Autor(en) / Beteiligte

• Otiniano, Gerard A.
• Porter, Trevor J.
• Phillips, Michael A.
• Juutinen, Sari
• Weckström, Jan B.
• Heikkilä, Maija P.

Titel

Reconstructing warm-season temperatures using brGDGTs and assessing biases in Holocene temperature records in northern Fennoscandia

Ist Teil von

• Quaternary science reviews, 2024-04, Vol.329, Article 108555

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2024

Link zum Volltext

Quelle

Elsevier ScienceDirect Journals Complete

Beschreibungen/Notizen

• Understanding Holocene climate variability is crucial for predicting future climate change, which will disproportionally affect high-latitude regions. Summer temperature (Tsummer) reconstructions in regions such as northern Finland are mainly derived from microfossil data. We reconstructed Tsummer spanning the interval 10-1 cal ka BP using branched glycerol dialkyl glycerol tetraethers (brGDGTs) from lake-sediment record from Lake Annan Juomusjärvi (AJU) in northern Finland. The reconstruction shows cool early Holocene conditions, ∼2 °C below the long-term mean (defined by the last 8.5 kyr), followed by persistent warming to a thermal maximum around ∼7.0 cal ka BP, a relatively stable climate (∼0.5 °C above the long-term mean) from 7.0 to 3.5 cal ka BP, and then a long-term cooling trend (−0.1 °C·kyr−1) since 3.5 cal ka BP. This temperature history is remarkably well replicated by the nearby pollen-TJuly reconstruction from Lake Loitsana. However, Lake Loitsana chironomid and macrofossil data argue for a much earlier thermal maximum at ∼10 cal ka BP. Comparison of chironomid versus pollen records from across northern Fennoscandia confirms this inter-proxy discrepancy on the timing of Holocene peak warmth is a regional-scale phenomenon. Previous studies had raised the possibility that non-climatic noise in certain pollen records, due to local-scale overrepresentation of certain pollen types in the early and mid Holocene, may be contributing to an artificial lag in the thermal maximum. However, brGDGTs are unaffected by terrestrial flora and corroborate a mid-Holocene thermal maximum, which challenges the notion that pollen records are generally prone to misrepresenting the early to mid-Holocene climate history. Alternatively, proxy-specific environmental or mean seasonality biases may explain inter-proxy discrepancies in the timing of peak warmth. Continued diversification of the proxy network will help to better understand inter-proxy differences and refine knowledge of Holocene climate in northern Fennoscandia. •A 10-kyr lacustrine brGDGT record was developed in northern Finland.•A high-latitude brGDGT-temperature transfer function was developed.•This transfer function was used to reconstruct Holocene summer temperatures.•The reconstruction shows a mid-Holocene thermal maximum and late Holocene cooling.•This pattern is replicated regionally in pollen-based temperature reconstructions.