Solar UV-B (280–315 nm) induces the synthesis of phycoerythrin (PE) in a Nostoc species isolated from the Andean high altitude lake Yanaqocha. The outdoor experiments were carried out in a small lake in Erlangen, Germany, using natural conditions. After 2- and 4-h exposure to solar radiation, the immunodetection signal using monoclonal antibodies anti-PE was lower in control cells (exposed to PAR + UV-A) than in cells exposed to total solar radiation (PAR + UV-A + UV-B). Cells exposed at depths in which no UV-B penetrated showed no differences from control cells regarding PE content. When exposed to monochromatic radiation of 280, 300 or 360 nm, purified PE was photodegraded in a wavelength dependent manner resulting in different polypeptide fragments carrying chromophore groups. Immunodetection revealed active synthesis of PE in parallel to photodamage by solar UV-B indicating that PE is important for photoadaptation to shorter wavelengths in the cyanobacterium Nostoc sp.