Ursula Friberg-Jensen scite author profile

Recent findings showed that inhibition of the digestive enzyme trypsin by cyanobacterial metabolites can result in the death of the microcrustacean Daphnia. Compounds that are active against daphnid trypsin can therefore be considered as potentially toxic to Daphnia. Here we reported on the frequency of such compounds in the widely distributed cyanobacterial genus Planktothrix. Of the 89 Planktothrix strains analysed, about 70% produced inhibitors of daphnid trypsin. The strains tested positive represented three common Planktothrix species and were isolated from diverse localities and geographical regions. Our findings suggest therefore that inhibitors of daphnid trypsin are common in Planktothrix and maybe other cyanobacterial genera. These compounds should therefore be considered in future studies on the chemical ecology of cyanobacteria.

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Effects of the pyrethroid insecticide cypermethrin on a freshwater community studied under field conditions. II. Direct and indirect effects on the species composition

Wendt-Rasch

Friberg-Jensen

Woin

et al. 2003

Aquatic Toxicology

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Soil respiration profiles and protozoan enumeration agree as microbial growth indicators

Christensen

Rønn

Ekelund

et al. 1996

Soil Biology and Biochemistry

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Early signs of lethal effects in Daphnia magna (Branchiopoda, Cladocera) exposed to the insecticide cypermethrin and the fungicide azoxystrobin

Friberg-Jensen

Nachman

Christoffersen

2010

Enviro Toxic and Chemistry

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This study presents the effects of sublethal concentrations of pesticides cypermethrin and azoxystrobin on the activity of several physiological parameters of egg-carrying Daphnia magna studied using a video-image technique. Single tethered daphnids were continuously recorded for 24 h of pesticide exposure, and the activity of the heart, the filtering limbs, the mandibles, and the focal spine were subsequently analyzed. Acute toxicity tests based on the criteria of immobilization were performed on egg-carrying D. magna, and sublethal concentrations of 0.1, 1.0, and 10 µg/L cypermethrin and 0.5, 1.0, and 2.0 mg/L azoxystrobin were established. At a concentration as low as 0.1 µg/L cypermethrin, the 5% effective concentration after 24 h of exposure (EC5,24h), the activity of the focal spine increased and the filtering limb activity decreased. The activity of the mandibles was reduced by exposure to 1.0 (EC18,24 h) and 10 µg/L (EC41,24 h) cypermethrin, whereas heart activity increased at a concentration of 10 µg/L (EC41,24 h). With regard to azoxystrobin, the activity of all response parameters except the focal spine decreased by exposure to 0.5 mg/L (EC4,24h) azoxystrobin. The focal spine was not affected by azoxystrobin. The results show that physiological mechanisms important for ingestion of food in D. magna may be impaired by low concentrations of commonly used pesticides.

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