Inge Kronberg scite author profile

Giant chromosomes and distribution of a Baltic Telmatogeton species (Diptera: Chironomidae: Telmatogetoninae) The chironomid midge Telmatogeton remanei Remmert, 1963, was recorded first 20 years ago, from Kiel Bay. Now the species appears to have expanded its range to Helgoland and the surroundings of several Baltic ports, namely Kiel, Rostock, Saßnitz/Rügen, Gdynia and Uddevalla at Gullmarfjord. The synonymy of T. remanei with the Pacific T. japonicus Tokunaga, 1933, indicated on morphological grounds, is here confirmed by analysis of the giant chromosomes. Zusammenfassung Die vor 20 Jahren erstmals in der Kieler Förde beobachtete Chironomide Telmatogeton remanei Remmert, 1963, hat ihr Areal inzwischen auf das Umfeld mehrerer Ostseehäbfen (Kiel, Rostock, Saßnitz auf Rügen, Gdynia, Uddevalla am Gullmarfjord) sowie auf Helgoland ausgedehnt. Die morphologische ähnlichkeit mit der pazifischen Telmatogeton japonicus Tokunaga, 1933, wird durch eine Analyse der Riesenchromosomenbanden so deutlich bestätigt, daß eine Synonymisierung der beiden Arten angebracht erscheint.

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Heat production inLittorina saxatilis Olivi andLittorina neritoides L. (gastropoda: Prosobranchia) during an experimental exposure to air

Kronberg

1990

Helgolander Meeresunters

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The adaptation of littorinid molluscs to prolonged aerial exposure was investigated by the determination of heat production. I_ittorina saxatilis, inhabiting the upper euhttoral, reached a maximum metabolic activity during submersion (heat production: 3.26x 10-3J S-l(gadw) -1. On the first three days of desiccation, the heat production was continuously reduced to 40% of the submersed value. A prolonged aerial exposure was lethal for this species. In the supralittoral L.neritoides, three stages of energy metabohsm could be observed: an intermediate heat production during submersion {1.97 x I0-3j s-l{gaaw)-1), an increased metabohsm during the first hour of aerial exposure (heat production 204 % of submersed value), and a minimal metabolism (39% of the submersed value and 19 % of maximum value) during the following days and weeks of desiccation.Recovery depended on water salinity; L. saxatilis proved to be less euryhaline than L. neritoides.Thus, the metabolic adaptations correlate with the level of littoral habitat; inactivity combined with a drastically reduced energy consumption is a metabolically economic way to survive in periodically dry environments.

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Artbildung durch Chromosomeninversion

Kronberg¹

2020

Biologie in unserer Zeit

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Inversionen in den Riesenchromosomen von Drosophila kennt man schon seit 100 Jahren, denn sie zeigen Auffälligkeiten bei der Homologenpaarung, die lichtmikroskopisch sichtbar sind. Inzwischen lassen sich Inversionen durch moderne Sequenzierungsmethoden bei vielen weiteren Arten nachweisen und erlauben ein besseres Verständnis von Populationsgenetik und Artbildung. Inversionen haben einen adaptiven Wert, weil sie vorteilhafte Gene als „Supergene“ vereinen können. Sie können die Aufspaltung von Arten einleiten oder aber als Polymorphismus in der Population erhalten bleiben.

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Offshore‐Windräder als Mückeninseln

Kronberg¹

2015

Biologie in unserer Zeit

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Inge Kronberg

Accuracy of species and abundance minimal areas determined by similarity area curves

Riesenchromosomen and Artareal einer baltischen Telmatogeton-Art (Diptera: Chironomidae: Telmatogetoninae)

Heat production inLittorina saxatilis Olivi andLittorina neritoides L. (gastropoda: Prosobranchia) during an experimental exposure to air

Artbildung durch Chromosomeninversion

Offshore‐Windräder als Mückeninseln

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