The global sustainable development goals of the United Nations (United Nations, 2015) and the associated necessary transformations, such as energy decarbonization (Sachs et al., 2019), have resulted in increased hydropower development around the world (Zarfl et al., 2015). Advocates of hydropower point to the important contributions of this form of energy to the reduction of CO 2 emissions, its low cost, and its use as a stable source of energy, justifying it as a 'green' energy that makes an important contribution to electricity supply compared with other forms of regenerative energy. For the year 2018, the International Energy Agency (IEA) lists a global energy supply from hydropower of 4,325,111 GWh, compared with 1,273,409 GWh for wind energy and 554,382 GWh for solar/photovoltaic energy (IEA, 2020). In contrast to wind or solar power, hydropower production is available at any time of day and is less dependent on current weather conditions.According to the Collins Dictionary (www.collinsdictionary.com, accessed 14 February 2021), 'green energy' is defined as 'power that comes from sources that do not harm the environment …'. The debate about how 'green' the green energies really are is controversial (Gibson, Wilman & Laurance, 2017). Opponents of hydropower production often refer to it as a 'red' energy because of the mortalities and injuries that fish face when passing turbines Mueller et al., 2020b), as well as other ecological harm to free-flowing rivers associated with habitat fragmentation and alteration.