A novel model of early development in the brine shrimp,Artemia franciscana,and its use in assessing the effects of environmental variables on development,emergence, and hatching |
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| Authors: | Courtney H. Neumeyer Jamie L. Gerlach Kristin M. Ruggiero Joseph A. Covi |
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| Affiliation: | 1. Department of Biology, University of Wisconsin‐Stevens Point, Stevens Point, Wisconsin;2. Department of Biology and Marine Biology, University of North Carolina at Wilmington, Wilmington, North Carolina |
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| Abstract: | The brine shrimp, Artemia (Crustacea, Anostraca), is a zooplankton that is commonly used in both basic and applied research. Unfortunately, Artemia embryos are often cultured under conditions that alter early development, and reports based on these cultures oversimplify or fail to describe morphological phenotypes. This is due in part to the lack of a comprehensive developmental model that is applicable to observations of live specimens. The objective of this study was to build and test a descriptive model of post‐diapause development in Artemia franciscana using observations made with a standard dissecting microscope. The working model presented is the first to comprehensively place all known “abnormal” embryonic and naupliar phenotypes within the context of a classic hatching profile. Contrary to previous reports, embryos and nauplii with aberrant phenotypes often recover and develop normally. Oval prenauplii may emerge as normal prenauplii (E2 stage). A delay of this transition leads to incomplete hatching or direct hatching of first instar larvae with a curved thoracoabdomen. When hatching is incomplete, retained cuticular remnants are shed during the next molt, and a “normal” second instar larva is produced. By differentiating between molting events and gross embryonic patterning in live embryos, this new model facilitates fine time‐scale analyses of chemical and environmental impacts on early development. A small increase in salinity within what is commonly believed to be a permissive range (20‰–35‰) produced aberrant morphology by delaying emergence without slowing development. A similar effect was observed by decreasing culture density within a range commonly applied in toxicological studies. These findings clearly demonstrate that morphological data from end‐point studies are highly dependent on the time points chosen. An alternate assessment method is proposed, and the potential impact of heavy metals, hexachlorobenzene, Mirex, and cis‐nonachlor detected in commercial embryos is discussed. J. Morphol. 276:342–360, 2015. © 2014 Wiley Periodicals, Inc. |
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| Keywords: | post‐diapause anthropogenic pollutants toxicology |
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