Resumen:

Planetary nebulae (PNe) and symbiotic stars (SySt) are fascinating objects related to the fate of the great majority of stars in any galaxy. PNe are bubbles of ionized gas, produced from low- and intermediate-mass stars towards their latest life stages. Approximately 3,500 PNe have been identified in the Milky Way, but only 14 in the Galactic halo. Halo PNe are relevant because they provide clues about the final evolution of old, low-mass stars and they are able to convey fundamental information of the early chemical conditions of the Galaxy, including its star formation history. SySt are binary systems formed by evolved stars: a cool giant star and a hot star (usually a white dwarf). Their crucial role in Astrophysics resides on the fact they allow the study of the mechanisms behind supersoft X-ray sources, thermonuclear outbursts, collimation of stellar winds and jets or the shaping of other nebulae, like of PNe. Moreover, being binary systems that contain at least one degenerated star, SySt are also possible progenitors of Type Ia supernovae, key for the cosmological distance scale. Living in an era of gigantic multi-band optical photometric surveys, as VPHAS+, J-PLUS, S-PLUS and the forthcoming J-PAS, our group is member of the last three of these projects, and each of them will map ~8,000$^2$ of either the north (J-PLUS and J-PAS) or the south (S-PLUS) sky. Adding to these surveys, RAMSES II is an international Gemini project to map the Local Group dwarf galaxies using an emission-line that is unique to identify SySt. We take advantage of these projects to comprise a big effort aimed at discovering PNe and SySt based on VPHAS+, J-PLUS, S-PLUS, J-PAS and RAMSES II. This talk will discuss the results so far obtained from this enterprise.