Recent divergences in stratospheric water vapor measurements by frost point hygrometers and the Aura Microwave Limb Sounder

Balloon-borne frost point hygrometers (FPs) and the Aura Microwave Limb Sounder (MLS) provide high-quality vertical profile measurements of water vapor in the upper troposphere and lower stratosphere (UTLS). A previous comparison of stratospheric water vapor measurements by FPs and MLS over three sites - Boulder, Colorado (40.0°N); Hilo, Hawaii (19.7°N); and Lauder, New Zealand (45.0°S) - from August 2004 through December 2012 not only demonstrated agreement better than 1ĝ between 68 and 26ĝhPa but also exposed statistically significant biases of 2 to 10ĝ at 83 and 100ĝhPa (Hurst et al., 2014). A simple linear regression analysis of the FP-MLS differences revealed no significant long-term drifts between the two instruments. Here we extend the drift comparison to mid-2015 and add two FP sites - Lindenberg, Germany (52.2°N), and San José, Costa Rica (10.0°N) - that employ FPs of different manufacture and calibration for their water vapor soundings. The extended comparison period reveals that stratospheric FP and MLS measurements over four of the five sites have diverged at rates of 0.03 to 0.07ĝppmvĝ€yearĝ'1 (0.6 to 1.5ĝ€%ĝ€yearĝ'1) from ĝ1/4 ĝ€2010 to mid-2015. These rates are similar in magnitude to the 30-year (1980-2010) average growth rate of stratospheric water vapor ( ĝ1/4 ĝ€1ĝ€%ĝ€yearĝ'1) measured by FPs over Boulder (Hurst et al., 2011). By mid-2015, the FP-MLS differences at some sites were large enough to exceed the combined accuracy estimates of the FP and MLS measurements.