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Literature DB >> 28308957

Respiratory energy losses in the protozoan predator Didinium nasutum Müller (Ciliophora).

Abstract

Respiration in Didinium nasutum, an active protozoan predator, was investigated in relation to cell weight at 10, 15, and 20° C by means of cartesian diver microrespirometry. Oxygen uptake increased progressively over the 10-20° C temperature range; a table of Q 10 related to weight is presented. Regression coefficients of log weight versus log oxygen uptake (b) were 0.96 at 10° C, 0.98 at 15° C and 1.00 at 20° C. D. nasutum was shown to expend very much higher levels of respiratory energy than a mainly sedentary carnivorous ciliate of comparable weight.

Entities: Chemical Species

Year: 1977 PMID： 28308957 DOI： 10.1007/BF00345563

Source DB: PubMed Journal: Oecologia ISSN： 0029-8549 Impact factor: 3.225

4 in total

Respiratory energy losses in the protozoan predator Didinium nasutum Müller (Ciliophora).

1. Oxygen uptake as related to body size in organisms.

2. Respiratory energy losses inStentor coeruleus Ehrenberg (Ciliophora).

3. Respiratory energy losses related to cell weight and temperature in ciliated protozoa.

4. Respiration of an interstitial ciliate and benthic energy relationships.

1. Further studies on respiratory rates of freshwater amoebae (Rhizopoda, Gymnamoebia).

2. Respiration rates in heterotrophic, free-living protozoa.

3. Survival of ciliate protozoa under starvation conditions and at low bacterial levels.

Review 4. How Metabolic Rate Relates to Cell Size.