Published 2005 | Version v1

Evolution of cadmium resistance in Daphnia magna

Description

(Uploaded by Plazi for the Bat Literature Project) A diverse laboratory population of Daphnia magna Straus was established by combining individuals from eight sources. Artificial selection for increased resistance to the acute toxic effects of cadmium was performed, and after eight generations, the average median effective concentration increased from 61 to 180 ␮g/L. No differences in life span, offspring production, time to first brood, number of offspring in the first brood, or intrinsic rate of population increase (r) were observed between the cadmiumadapted population and the controls under ideal conditions or under conditions of temperature or feeding ration stress, but cadmiumadapted daphnids were smaller. Control and cadmium-adapted populations were equally sensitive to copper and malathion, but the cadmium-adapted population was less sensitive to lead and more sensitive to phenol. Analysis of amplified fragment-length polymorphisms indicated a significant decrease in genetic diversity in the cadmium-adapted population. Although the evolved cadmium resistance would allow adapted populations to exist in areas where cadmium concentrations would be toxic to unadapted populations, the decreased genetic diversity, smaller size, and increased sensitivity to at least one other toxicant could reduce the probability of long-term survival even in the absence of future cadmium exposure.

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Additional details

Identifiers

URL
hash://md5/ef57ac00e9eee4938a3921da0b3daf55
URN
urn:lsid:zotero.org:groups:5435545:items:6J4FE4HP
DOI
10.1897/04-429R.1

Biodiversity

Kingdom
Animalia
Phylum
Chordata
Class
Mammalia
Order
Chiroptera