ISSN:
1573-5117
Keywords:
freshwater oligochaete
;
anaerobiosis
;
metabolism
;
dissolved organic material
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Abstract The freshwater oligochaete Tubifex shows several mechanisms of metabolic adaptations, enabling the worms to occupy saprobial habitats of extremely variable oxygen content. Under normoxic conditions the metabolism of the worms is mainly aerobic with a respiratory ratio of 0.7. Under hypoxic conditions, metabolism of energy sources via aerobic and anaerobic pathways is observed. During complete anoxia acetate and propionate are the main products of glycogen degradation and they are excreted in constant rates into the water. A retransfer of the worms to aerobic conditions enables them to regain aerobic metabolic state within about 60 min. In two Tubifex habitats, which we have characterized, concentrations of dissolved organic material (DOM) were low in the surface water, but high in the interstitial water from sediments. The short-chain fatty acids acetate and propionate reached concentrations up to 1 mmole/liter. Employing radioisotope techniques, we demonstrated that Tubifex can achieve an integumentary uptake of acetate and propionate from artificial tap water at naturally occurring concentrations of 5 to 1000 μM. Levels of uptake (600 to 800 nmoles/g wwt.hr) and transport characteristics are very similar to those of marine invertebrates associated with detritus rich sediments. The uptake is susceptible to inhibition by structurally analogous compounds and to metabolic inhibition. Furthermore, DOM uptake in Tubifex is susceptible to inhibition by oxygen depletion, ouabain and Na+-depletion. The results may suggest that a carrier system for DOM transport exists in the integument of the worms. The uptake system is highly specific for aliphatic C2 and C3 carboxylic acids. The absorbed volatile fatty acids are rapidly metabolized. Only 15 min after absorption, a considerable amount of radioactivity is present in the glycogen storage of the animals. Depending on the substrate concentration assumed to be available for uptake, up to 40 per cent of the oxidative requirement of the worms may be attained by using dissolved organic material from the interstitial water of their habitat. Supported by the Deutsche Forschungsgemeinschaft (Ho 631/9-9).
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00025642
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