Interacting impacts of hydrological changes and air temperature warming on lake temperatures highlight the potential for adaptive management

Citation

Olsson F, Mackay EB, Spears BM, Barker P & Jones ID (2024) Interacting impacts of hydrological changes and air temperature warming on lake temperatures highlight the potential for adaptive management. Ambio. https://doi.org/10.1007/s13280-024-02015-6

Abstract
Globally, climate warming is increasing air temperatures and changing river flows, but few studies have explicitly considered the consequences for lake temperatures of these dual effects, or the potential to manage lake inflows to mitigate climate warming impacts. Using a one-dimensional model, we tested the sensitivity of lake temperatures to the separate and interacting effects of changes in air temperature and inflow on a small, short-residence time (annual average ≈ 20 days), temperate lake. Reducing inflow by 70% increased summer lake surface temperatures 1.0–1.2 °C and water column stability by 11–19%, equivalent to the effect of 1.2 °C air temperature warming. Conversely, similar increases in inflow could result in lake summer cooling, sufficient to mitigate 0.75 °C air temperature rise, increasing to more than 1.1 °C if inflow temperature does not rise. We discuss how altering lake inflow volume and temperature could be added to the suite of adaptation measures for lakes.

Keywords
Climate change; Climate mitigation; GOTM; Lake hydrodynamic modelling; Lake temperatures; River flow

Journal
Ambio

People

Dr Ian Jones

Lecturer in Environmental Sensing, Biological and Environmental Sciences