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SM Marr G Gouws S Avlijas D Khosa ND Impson M van der Westhuizen 《African Journal of Aquatic Science》2018,43(2):187-193
Oreochromis aureus was imported from Israel into South Africa in 1959 but data on its current status in South Africa are lacking. Genomic DNA was extracted and the COI gene amplified at the South African Institute for Aquatic Biodiversity. The identity of the sequences and specimens was determined using the Barcode of Life Data Systems and GenBank. Morphological and genetic assessment demonstrated that 11 specimens collected from two farm dams in the Eerste River System, Western Cape province, were Oreochromis aureus. A MaxEnt model compiled using global distribution, rainfall and temperature data predicted that large areas of southern Africa were climatically suitable for this species, indicating considerable invasion debt in southern Africa. As a result, surveys to assess for the extent of the invasion in South Africa and eradication of existing populations, if feasible, are recommended management actions. 相似文献
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Afiya Jahan Tanjia Taher Nipa SM Majharul Islam Md. Helal Uddin Md. Sadiqul Islam Md. Shahjahan 《Zeitschrift fur angewandte Ichthyologie》2019,35(4):994-1003
Salinity intrusion in the coastal freshwater rivers due to climate change and construction of the dam in the upstream rivers are alarming in aquaculture. Hence, an experiment was conducted to know the effects of salinity on growth performance, hemato‐biochemical parameters and erythrocytes structure in a commercially cultivable catfish species, striped catfish (Pangasianodon hypophthalmus). Firstly, median lethal concentration (LC50) of salinity for striped catfish was determined and then the fish were exposed to three salinity conditions (4, 8 and 12‰) and a control (0‰). Fish were sacrificed at day 7, 14, 28 and 56 after the start of salinity exposure. The 96 hr LC50 value was found to be 14.87‰. Salinity levels from freshwater to 8‰ showed optimal conditions with high survival rate and good growth performances of fish in terms of weight gain and specific growth rate (SGR). Interestingly, the lowest food conversion ratio (FCR) was found in 4‰ group. The hemoglobin (Hb) level and number of red blood cells (RBCs) were found to be decreased significantly in 8 and 12‰ compared to 0 and 4‰ at the initial days of exposure, while number of white blood cells (WBCs) and glucose level showed opposite scenario. Frequencies of ENA (erythrocytic nuclear abnormalities) and ECA (erythrocytic cellular abnormalities) were significantly increased with increasing salinities in the initial days of exposure. Overall, findings of the present study revealed that striped catfish might be suitable fish species for culture in the brackish water containing salinity up to 10‰. 相似文献
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The F-spondin genes are a family of extracellular matrix molecules united
by two conserved domains, FS1 and FS2, at the amino terminus plus a
variable number of thrombospondin repeats at the carboxy terminus.
Currently, characterized members include a single gene in Drosophila and
multiple genes in vertebrates. The vertebrate genes are expressed in the
midline of the developing embryo, primarily in the floor plate of the
neural tube. To investigate the evolution of chordate F-spondin genes, I
have used the basal position in chordate phylogeny of the acraniate
amphioxus. A single F-spondin-related gene, named AmphiF-spondin, was
isolated from amphioxus. Based on molecular phylogenetics, AmphiF-spondin
is closely related to a particular subgroup of vertebrate F-spondin genes
that encode six thrombospondin repeats. However, unlike these genes,
expression of AmphiF-spondin is not confined to the midline but is found
through most of the central nervous system. Additionally, AmphiF-spondin
has lost three thrombospondin repeats and gained two fibronectin type III
repeats, one of which has strong identity to a fibronectin type III repeat
from Deleted in Colorectal Cancer (DCC). Taken together, these results
suggest a complex evolutionary history for chordate F-spondin genes that
includes (1) domain loss, (2) domain gain by tandem duplication and
divergence of existing domains, and (3) gain of heterologous domains by
exon shuffling.
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