The continuous sediment record from Lake
El’gygytgyn in the northeastern Eurasian Arctic spans the last 3.6 Ma and for much of this time permafrost dynamics and lake level changes have likely played a crucial role for sediment delivery to the lake. Changes in the ground-ice hydrochemical
composition (18O, D, pH, electrical conductivity,
Na+, Mg2+, Ca2+, K+, HCO−3 , Cl−, SO−4 ) of a 141m
long permafrost record from the western crater plain are examined to reconstruct repeated periods of freeze and thaw at the lake edge. Stable water isotope and major ion records of ground ice in the permafrost reflect both a synsedimentary palaeo-precipitation signal preserved in the near-surface
permafrost (0.0–9.1m core depth) and a post-epositional record of thawing and refreezing in deeper layers of the core (9.1–141.0 m core depth). These lake marginal permafrost dynamics were controlled by lake level changes that episodically
flooded the surfaces and induced thaw in the underlying frozen ground. During times of lake leve