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Chironomid Chironomus

Chironomid, Chironomus riparius Mandible and mentum deformities were 54... [Pg.291]

Chironomid, Chironomus tentans larvae 2.7 mg/L for 48 h Aquatic insects, 5 species LC50 31... [Pg.292]

Mayfly, Callibaetis sp. 10 Chironomid, Chironomus decorus, LC90 (168 h), nymphs 7... [Pg.999]

Chironomids (Chironomus riparius) held for 72 h on sediments with 47-4040 pg BaP/kg contained a maximum of 6030 pg BaP/kg DW chironomids were fed to bluegills for 96 h... [Pg.1378]

Chironomid, Chironomus tentansr, larvae LC50 (10 days) 50... [Pg.558]

Since persistence in sediments is longer than that in the water column, the relevant toxicity studies are those that consider longer term, chronic exposures. A number of standard tests have been developed for assessing sediment toxicity and the bioassay of field collected sediments (e.g., [16-24]). The most commonly tested freshwater species are arthropods, including the amphipod shrimp // azteca and chironomid midge larvae, both Chironomus dilutus (formerly C. tentans) and C. riparius. Water-only studies have demonstrated that II. azteca are particularly sensitive to SPs (see Sect. 3) and in the published literature, this is the most commonly tested species for assessing the sediment toxicity of SPs. [Pg.144]

Figure 2. PCR amplification of the internal transcribed spacer regions of five Chironomid species. Using primers specific to the 18S and 28S regions of rDNA, five different Chironomid species yield amplification products of characteristic lengths. Lane A - Glyptotendipes lobiferous, Lane B -Cardiocladiiis obscurus, Lane C - Chironomus riparius, Lane D - Dicrotendipes fumidus, Lane E - Cricotopus bicinctus, and Lane SM -100 bp size marker. Figure 2. PCR amplification of the internal transcribed spacer regions of five Chironomid species. Using primers specific to the 18S and 28S regions of rDNA, five different Chironomid species yield amplification products of characteristic lengths. Lane A - Glyptotendipes lobiferous, Lane B -Cardiocladiiis obscurus, Lane C - Chironomus riparius, Lane D - Dicrotendipes fumidus, Lane E - Cricotopus bicinctus, and Lane SM -100 bp size marker.
Figure 5. Alignment of sequence data of rDNA from chironomid species. Sequence data is aligned showing similarities and differences. (5A) Alignment of C. tentans (Chironomus tentans), D. fumidus (Dicrotendipes fumidus,), and C, bicinctus (Cricotopus hicinctus) from the 18S subunit of rDNA. (5B) Alignment ofpartial /8S, ITS-], 5.8S, ITS-2, and 2 8S subunits of rDNA from 14 chironomid species C. tentans (Chironomus tentans) Genbank accession X992I2, D.fumidus (Dicrotendipes fumidus,) Genbank accession, ... Figure 5. Alignment of sequence data of rDNA from chironomid species. Sequence data is aligned showing similarities and differences. (5A) Alignment of C. tentans (Chironomus tentans), D. fumidus (Dicrotendipes fumidus,), and C, bicinctus (Cricotopus hicinctus) from the 18S subunit of rDNA. (5B) Alignment ofpartial /8S, ITS-], 5.8S, ITS-2, and 2 8S subunits of rDNA from 14 chironomid species C. tentans (Chironomus tentans) Genbank accession X992I2, D.fumidus (Dicrotendipes fumidus,) Genbank accession, ...
See other pages where Chironomid Chironomus is mentioned: [Pg.558]    [Pg.862]    [Pg.185]    [Pg.291]    [Pg.292]    [Pg.862]    [Pg.999]    [Pg.1564]    [Pg.558]    [Pg.862]    [Pg.185]    [Pg.291]    [Pg.292]    [Pg.862]    [Pg.999]    [Pg.1564]    [Pg.993]    [Pg.349]    [Pg.363]    [Pg.993]    [Pg.216]    [Pg.361]    [Pg.146]    [Pg.250]    [Pg.367]    [Pg.113]   
See also in sourсe #XX -- [ Pg.153 , Pg.778 , Pg.993 , Pg.1468 ]

See also in sourсe #XX -- [ Pg.153 , Pg.778 , Pg.993 , Pg.1468 ]



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