Effects of cell-bound microcystins on survival and feeding of Daphnia spp

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Effects of cell-bound microcystins on survival and feeding of Daphnia spp. / Rohrlack, T; Dittmann, E; Börner, T; Christoffersen, K.

In: Applied and Environmental Microbiology, Vol. 67, No. 8, 01.08.2001, p. 3523-9.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Rohrlack, T, Dittmann, E, Börner, T & Christoffersen, K 2001, 'Effects of cell-bound microcystins on survival and feeding of Daphnia spp', Applied and Environmental Microbiology, vol. 67, no. 8, pp. 3523-9. https://doi.org/10.1128/AEM.67.8.3523-3529.2001

APA

Rohrlack, T., Dittmann, E., Börner, T., & Christoffersen, K. (2001). Effects of cell-bound microcystins on survival and feeding of Daphnia spp. Applied and Environmental Microbiology, 67(8), 3523-9. https://doi.org/10.1128/AEM.67.8.3523-3529.2001

Vancouver

Rohrlack T, Dittmann E, Börner T, Christoffersen K. Effects of cell-bound microcystins on survival and feeding of Daphnia spp. Applied and Environmental Microbiology. 2001 Aug 1;67(8):3523-9. https://doi.org/10.1128/AEM.67.8.3523-3529.2001

Author

Rohrlack, T ; Dittmann, E ; Börner, T ; Christoffersen, K. / Effects of cell-bound microcystins on survival and feeding of Daphnia spp. In: Applied and Environmental Microbiology. 2001 ; Vol. 67, No. 8. pp. 3523-9.

Bibtex

@article{2a66759dc6fe463ea3528f9c37e16937,
title = "Effects of cell-bound microcystins on survival and feeding of Daphnia spp",
abstract = "The influence of cell-bound microcystins on the survival time and feeding rates of six Daphnia clones belonging to five common species was studied. To do this, the effects of the microcystin-producing Microcystis strain PCC7806 and its mutant, which has been genetically engineered to knock out microcystin synthesis, were compared. Additionally, the relationship between microcystin ingestion rate by the Daphnia clones and Daphnia survival time was analyzed. Microcystins ingested with Microcystis cells were poisonous to all Daphnia clones tested. The median survival time of the animals was closely correlated to their microcystin ingestion rate. It was therefore suggested that differences in survival among Daphnia clones were due to variations in microcystin intake rather than due to differences in susceptibility to the toxins. The correlation between median survival time and microcystin ingestion rate could be described by a reciprocal power function. Feeding experiments showed that, independent of the occurrence of microcystins, cells of wild-type PCC7806 and its mutant are able to inhibit the feeding activity of Daphnia. Both variants of PCC7806 were thus ingested at low rates. In summary, our findings strongly suggest that (i) sensitivity to the toxic effect of cell-bound microcystins is typical for Daphnia spp., (ii) Daphnia spp. and clones may have a comparable sensitivity to microcystins ingested with food particles, (iii) Daphnia spp. may be unable to distinguish between microcystin-producing and -lacking cells, and (iv) the strength of the toxic effect can be predicted from the microcystin ingestion rate of the animals.",
keywords = "Animals, Cyanobacteria, Daphnia, Feeding Behavior, Microcystins, Mutation, Peptides, Cyclic",
author = "T Rohrlack and E Dittmann and T B{\"o}rner and K Christoffersen",
year = "2001",
month = aug,
day = "1",
doi = "10.1128/AEM.67.8.3523-3529.2001",
language = "English",
volume = "67",
pages = "3523--9",
journal = "Applied and Environmental Microbiology",
issn = "0099-2240",
publisher = "American Society for Microbiology",
number = "8",

}

RIS

TY - JOUR

T1 - Effects of cell-bound microcystins on survival and feeding of Daphnia spp

AU - Rohrlack, T

AU - Dittmann, E

AU - Börner, T

AU - Christoffersen, K

PY - 2001/8/1

Y1 - 2001/8/1

N2 - The influence of cell-bound microcystins on the survival time and feeding rates of six Daphnia clones belonging to five common species was studied. To do this, the effects of the microcystin-producing Microcystis strain PCC7806 and its mutant, which has been genetically engineered to knock out microcystin synthesis, were compared. Additionally, the relationship between microcystin ingestion rate by the Daphnia clones and Daphnia survival time was analyzed. Microcystins ingested with Microcystis cells were poisonous to all Daphnia clones tested. The median survival time of the animals was closely correlated to their microcystin ingestion rate. It was therefore suggested that differences in survival among Daphnia clones were due to variations in microcystin intake rather than due to differences in susceptibility to the toxins. The correlation between median survival time and microcystin ingestion rate could be described by a reciprocal power function. Feeding experiments showed that, independent of the occurrence of microcystins, cells of wild-type PCC7806 and its mutant are able to inhibit the feeding activity of Daphnia. Both variants of PCC7806 were thus ingested at low rates. In summary, our findings strongly suggest that (i) sensitivity to the toxic effect of cell-bound microcystins is typical for Daphnia spp., (ii) Daphnia spp. and clones may have a comparable sensitivity to microcystins ingested with food particles, (iii) Daphnia spp. may be unable to distinguish between microcystin-producing and -lacking cells, and (iv) the strength of the toxic effect can be predicted from the microcystin ingestion rate of the animals.

AB - The influence of cell-bound microcystins on the survival time and feeding rates of six Daphnia clones belonging to five common species was studied. To do this, the effects of the microcystin-producing Microcystis strain PCC7806 and its mutant, which has been genetically engineered to knock out microcystin synthesis, were compared. Additionally, the relationship between microcystin ingestion rate by the Daphnia clones and Daphnia survival time was analyzed. Microcystins ingested with Microcystis cells were poisonous to all Daphnia clones tested. The median survival time of the animals was closely correlated to their microcystin ingestion rate. It was therefore suggested that differences in survival among Daphnia clones were due to variations in microcystin intake rather than due to differences in susceptibility to the toxins. The correlation between median survival time and microcystin ingestion rate could be described by a reciprocal power function. Feeding experiments showed that, independent of the occurrence of microcystins, cells of wild-type PCC7806 and its mutant are able to inhibit the feeding activity of Daphnia. Both variants of PCC7806 were thus ingested at low rates. In summary, our findings strongly suggest that (i) sensitivity to the toxic effect of cell-bound microcystins is typical for Daphnia spp., (ii) Daphnia spp. and clones may have a comparable sensitivity to microcystins ingested with food particles, (iii) Daphnia spp. may be unable to distinguish between microcystin-producing and -lacking cells, and (iv) the strength of the toxic effect can be predicted from the microcystin ingestion rate of the animals.

KW - Animals

KW - Cyanobacteria

KW - Daphnia

KW - Feeding Behavior

KW - Microcystins

KW - Mutation

KW - Peptides, Cyclic

U2 - 10.1128/AEM.67.8.3523-3529.2001

DO - 10.1128/AEM.67.8.3523-3529.2001

M3 - Journal article

C2 - 11472928

VL - 67

SP - 3523

EP - 3529

JO - Applied and Environmental Microbiology

JF - Applied and Environmental Microbiology

SN - 0099-2240

IS - 8

ER -

ID: 32907155