<p>Two &gt;&thinsp;5-m-long sediment cores from Cascade Lake (68.38&deg;&thinsp;N, 154.60&deg;&thinsp;W), Arctic Alaska, were analyzed to quantify their paleomagnetic properties over the past 21,000 years. Alternating-field demagnetization of the natural remanent magnetization, anhysteretic remanent magnetization, isothermal remanent magnetization, and hysteresis experiments reveal a strong, well-defined characteristic remanent magnetization carried by a low coercivity magnetic component that increases up core. Maximum angular deviation values average &lt;&thinsp;2&deg;, and average inclination values are within 4&deg; of the geocentric axial dipole prediction. Radiometric ages based on ²¹⁰Pb and ¹⁴C were used to correlate the major inclination features of the resulting paleomagnetic secular variation (PSV) record with those of other regional PSV records, including two geomagnetic field models and the longer series from Burial Lake, located 200&thinsp;km to the west. Following around 6&thinsp;ka (cal BP), the ages of PSV fluctuations in Cascade Lake begin to diverge from those of the regional records, reaching a maximum offset of about 2000 years at around 4&thinsp;ka. Several correlated cryptotephra ages from this section (reported in a companion paper by Davies et al., this volume) support the regional PSV-based chronology and indicate that some of the ¹⁴C ages at Cascade Lake are variably too old.</p>