Media type: E-Article Title: Glowworms: a review of Arachnocampa spp. and kin Contributor: Meyer‐Rochow, V. B. imprint: Wiley, 2007 Published in: Luminescence, 22 (2007) 3, Seite 251-265 Language: English DOI: 10.1002/bio.955 ISSN: 1522-7235; 1522-7243 Origination: Footnote: Description: <jats:title>Abstract</jats:title><jats:p>The term ‘glowworm’ is used in connection with the flightless females of lampyrid fireflies and to describe the luminescent larvae of certain fungus gnats that belong to the subfamilies Arachnocampinae, Keroplatinae and Macrocerinae of the dipteran family Keroplatidae. This review focuses on the luminescent larval fungus gnats. The weakly luminescent species of the Holarctic feed mainly on fungal spores, but some, such as <jats:italic>Orfelia fultoni</jats:italic>, have turned to a carnivorous diet. Larval Australian and New Zealand <jats:italic>Arachnocampa</jats:italic> spp. produce brighter <jats:italic>in vivo</jats:italic> (but not necessarily <jats:italic>in vitro</jats:italic>) lights, live in cool, damp and dark places and are exclusively predatory. They lure their prey (usually small flying insects) with the help of their blue‐green light emissions towards snares consisting of vertical silk threads coated with sticky mucus droplets. Fungus gnats with similar ‘fishing lines’ are found in the Neotropics, but they are not luminescent. The larval stage is longest in the life cycle of <jats:italic>Arachnocampa</jats:italic>, lasting up to a year, depending on climatic conditions such as temperature and humidity as well as food supply. In <jats:italic>A. luminosa</jats:italic>, but not the Australian <jats:italic>A. flava</jats:italic>, female pupae and even female imagines are luminescent. However, it remains to be demonstrated whether it is the light of the female, a pheromone or both that attract the males. Light organs and the chemical reactions to produce light differ between the holarctic and the Australian/New Zealand species. Prey is attracted only by the glowworm's light; odours of the fishing lines or the glowworms themselves are not involved. Recognition of the prey by the glowworm involves mechano‐ and chemoreception. The eyes of both larval and adult glowworms are large and functional over a spectral range covering UV to green wavelengths. Adults are poor fliers, live only for a few days, have degenerate mouth parts and do not feed. Maintenance of glowworms in captivity is possible and the impact of tourism on glowworms in natural settings can be minimized through appropriate precautions. Copyright © 2007 John Wiley & Sons, Ltd.</jats:p>