Increasing maximum lake surface temperature under climate change

Annual maximum lake surface temperature influences ecosystem structure and function and, in particular, the rates of metabolic activities, species survival and biogeography. Here, we evaluated 50 years of observational data, from 1966 to 2015, for ten European lakes to quantify changes in the annual maximum surface temperature and the duration above a potentially critical temperature of 20 degrees C. Our results show that annual maximum lake surface temperature has increased at an average rate of +0.58 degrees C decade(-1) (95% confidence interval 0.18), which is similar to the observed increase in annual maximum air temperature of +0.42 degrees C decade(-1) (95% confidence interval 0.28) over the same period. Increments in lake maximum temperature among the ten lakes range from +0.1 in the west to +1.9 degrees C decade(-1) in the east. Absolute maximum lake surface water temperatures were reached in Worthersee, 27.5 degrees C, and Neusiedler See, 31.7 degrees C. Periods exceeding a critical temperature of 20 degrees C each year became two to six times longer than the respective average (6 to 93). The depth at which water temperature exceeded 20 degrees C increased from less than 1 to more than 6 m in Mondsee, Austria, over the 50 years studied. As a consequence, the habitable environment became increasingly restricted for many organisms that are adapted to historic conditions.

Automated summary

The study found that the maximum lake surface temperature of European lakes has been increasing over the past 50 years, leading to longer durations of temperatures exceeding the critical threshold of 20 degrees Celsius. This trend has resulted in a more restricted habitat for organisms adapted to historic conditions.