Within the framework of our studies of the stellar populations in nearby galaxies (Azzopardi 1984, 1993, and references therein), we have shown for some time that slitless spectroscopy, through either transmission gratings (grisms/grens) or prisms in combination with suitable intermediate band-pass interference filters, allows the detection of a number of objects with outstanding spectral characteristics, even in very crowded fields. We are now carrying out very deep slitless spectroscopy surveys in selected areas of nearby galaxies using both the ESO Faint Object Spectrograph and Camera (EFOSC) devices attached at the Cassegrain foci of either the ESO 3.6 m or the Max Plank Gesellschaft/ESO 2.2 m telescopes, as well as the ESO Multi-Mode Instrument (EMMI) at the Nasmyth focus of the ESO New Technology Telescope (NTT). The spectra of interest are searched for on the CCD frames by means of a semi-automatic procedure developed in the Munich Image Data Analysis System (MIDAS) environment (Muratorio & Azzopardi 1992). Each 2D-spectrum, whose position is automatically determined by means of the direct imaging frame, is background corrected, normalized and compared with some reference spectra of objects whose nature has been firmly established. All the objects, that have been identified through impersonal selection criteria, are then visually scrutinized in order to reject any possibly spurious objects. As typical examples of our field spectroscopy surveys, we present some preliminary results concerning the detection of Hα emission-line stars in the Large Magellanic Cloud (LMC) as well as the identification of very faint Wolf-Rayet (WR) stars in the Sculptor group galaxy NGC 300.