A 41Ca chronometer for Pleistocene marine archives

⁴¹Ca (half-life = 99 ka) is a cosmogenic radionuclide that has long been proposed as a promising dating tracer for geological and archaeological samples from Middle and Late Pleistocene. Calcium is abundant and has a residence time of 800 ka in the oceans, much longer than the half-life of ⁴¹Ca. This has led to the expectation of a uniform distribution of ⁴¹Ca/Ca ratios in oceans around the globe. Ocean deposits acquire the global seawater value of ⁴¹Ca/Ca upon the initial formation. Since ocean deposits are shielded from cosmic rays by overlying seawater, no cosmogenic ⁴¹Ca is produced as deposits grow older. These conditions are ideal for ⁴¹Ca dating of marine deposits.

However, the ⁴¹Ca/Ca ratio is typically less than 10^⁻15 in the environment, posing significant challenges for their measurements. Recent advances in Atom Trap Trace Analysis (ATTA) have enabled the detection of ⁴¹Ca in geological samples. The lowest ⁴¹Ca/Ca ratio measured so far is 3 × 10⁻¹⁸, found in a foraminifer sample from the Pacific Ocean.

We measured the ⁴¹Ca/Ca ratios in seawater samples from various depths in oceans around the world and mapped the spatial distribution of ⁴¹Ca. This work identifies the critical initial ⁴¹Ca/Ca value for ⁴¹Ca dating of marine deposits. Building on these findings, we performed ⁴¹Ca dating on foraminifera and coral samples from the Pacific, South China Sea, and Southern Ocean, and compared the results with those obtained from other dating methods. Meanwhile, we are exploring the feasibility of applying ⁴¹Ca dating to other geological and archaeological samples.