ILPLA   05424
INSTITUTO DE LIMNOLOGIA "DR. RAUL A. RINGUELET"
Unidad Ejecutora - UE
artículos
Título:
Life Cycle of Goeldichironomus holoprasinus Goeldi (Diptera, Chironomidae) in Laboratory.
Autor/es:
ZILLI, F.L.; MARCHESE, M.; PAGGI, A. C.
Revista:
NEOTROPICAL ENTOMOLOGY
Editorial:
ENTOMOLOGICAL SOC BRASIL
Referencias:
Lugar: USDA; Año: 2009 vol. 38 p. 472 - 472
ISSN:
1519-566X
Resumen:
ABSTRACT - The larvae of Chironomidae are very important due to their density and role in aquatic food webs. Goeldichironomus holoprasinus Goeldi is one of the most abundant species of Chironomidae in man-made and natural systems, being widely used in water quality assessments. Because of its tolerance to stressing environmental factors, many studies have investigated the effects of stressors on G. holoprasinus anatomy and bionomic attributes. The main aim of this work was to describe G. in man-made and natural systems, being widely used in water quality assessments. Because of its tolerance to stressing environmental factors, many studies have investigated the effects of stressors on G. holoprasinus anatomy and bionomic attributes. The main aim of this work was to describe G. in man-made and natural systems, being widely used in water quality assessments. Because of its tolerance to stressing environmental factors, many studies have investigated the effects of stressors on G. holoprasinus anatomy and bionomic attributes. The main aim of this work was to describe G. in man-made and natural systems, being widely used in water quality assessments. Because of its tolerance to stressing environmental factors, many studies have investigated the effects of stressors on G. holoprasinus anatomy and bionomic attributes. The main aim of this work was to describe G. Goeldichironomus holoprasinus Goeldi is one of the most abundant species of Chironomidae in man-made and natural systems, being widely used in water quality assessments. Because of its tolerance to stressing environmental factors, many studies have investigated the effects of stressors on G. holoprasinus anatomy and bionomic attributes. The main aim of this work was to describe G.G. holoprasinus anatomy and bionomic attributes. The main aim of this work was to describe G. holoprasinus life cycle attributes in laboratory conditions. The cephalic capsule growth among instars was 1.64 in average (Dyar proportion), whereas the total size growth was continuous. The average room temperature registered was 26ºC (18-33°C). In this conditions the D value (time from oviposition to was 1.64 in average (Dyar proportion), whereas the total size growth was continuous. The average room temperature registered was 26ºC (18-33°C). In this conditions the D value (time from oviposition to was 1.64 in average (Dyar proportion), whereas the total size growth was continuous. The average room temperature registered was 26ºC (18-33°C). In this conditions the D value (time from oviposition to was 1.64 in average (Dyar proportion), whereas the total size growth was continuous. The average room temperature registered was 26ºC (18-33°C). In this conditions the D value (time from oviposition to life cycle attributes in laboratory conditions. The cephalic capsule growth among instars was 1.64 in average (Dyar proportion), whereas the total size growth was continuous. The average room temperature registered was 26ºC (18-33°C). In this conditions the D value (time from oviposition toºC (18-33°C). In this conditions the D value (time from oviposition to first imago emergence) was 13 days, whereas the minimum Gvalue (interval from the oviposition to therst imago emergence) was 13 days, whereas the minimum Gvalue (interval from the oviposition to the first progeny of the next generation) was 16 days. The emergence lasted four days, which determined that average G of 18 days. Thus, at registered temperatures G. holoprasinus has a short life cycle. that average G of 18 days. Thus, at registered temperatures G. holoprasinus has a short life cycle. that average G of 18 days. Thus, at registered temperatures G. holoprasinus has a short life cycle. that average G of 18 days. Thus, at registered temperatures G. holoprasinus has a short life cycle. rst progeny of the next generation) was 16 days. The emergence lasted four days, which determined that average G of 18 days. Thus, at registered temperatures G. holoprasinus has a short life cycle.G. holoprasinus has a short life cycle.