Flume experiments reveal how beaver dam characteristics influence pond depth regulation

Abstract

Beavers act as ‘ecosystem engineers’ by altering watercourses through dam construction. These structures are often associated with potential hydrological benefits, including flood attenuation and drought mitigation. Previous research has largely focused on the general hydrological response of beaver dam systems, often treating the dam as a ‘black box’ without sufficiently considering how specific dam characteristics may influence different hydrological outcomes. This study presents the results from a systematic series of controlled laboratory testing using a hydraulic flume and model beaver dams to investigate the effects of dam type, breach area, and discharge on steady-state pond depth. The model dams were designed to encompass the range of dam types and breach areas commonly observed in natural beaver dams, as reported in previous field studies. The results revealed a diverse range of pond depth responses across the four dam types examined. In general, dam type exerted a greater influence on pond depth under conditions of low discharge and high breach area, while its impact was minimal under conditions of high discharge and low breach area. The findings demonstrate that beaver dams have the capacity to mitigate against flooding; however, this effect is variable and strongly dependent on dam type These findings underscore the importance of considering dam type, breach area, and discharge as critical variables in assessing the hydrological effects of beaver damming, particularly in relation to mitigation of hydrological extremes.