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This 16th-century fish stall shows many traditional fish products. The term fish processing refers to the processes associated with fish and fish products between the time fish are caught or harvested, and the time the final product is delivered to the customer. Although the term refers specifically to fish, in practice it is extended to cover ...
Human chromosomes painted with DNA from mouse chromosome 11 showing hybridization signals on human chromosomes 17, 5, 2, 7, and 22 and some other chromosomes. That is, an ancestral chromosome broke up into multiple fragments that can still be found in many human chromosomes. [32] FISH can be used to study the evolution of chromosomes. Species ...
The first industrial-scale fish cannery, a salmon cannery established in 1864 on a barge in the Sacramento River in California. A salmon cannery is a factory that commercially cans salmon. It is a fish processing industry that pioneered the practice of canning fish in general. It became established on the Pacific coast of North America during ...
hybridization. Chromogenic in situ hybridization (CISH) is a cytogenetic technique that combines the chromogenic signal detection method of immunohistochemistry (IHC) techniques with in situ hybridization. [1][2] It was developed around the year 2000 as an alternative to fluorescence in situ hybridization (FISH) for detection of HER-2/neu ...
Fish preservation is the method of increasing the shelf life of fish and other fish products by applying the principles of different branches of science in order to keep the fish, after it has landed, in a condition wholesome and fit for human consumption. [1][2] Ancient methods of preserving fish included drying, salting, pickling and smoking.
Electrofishing. Scientists carrying out a population and species survey using electrofishing equipment. Electrofishing is a fishing technique that uses direct current electricity flowing between a submerged cathode and anode. This affects the movements of nearby fish so that they swim toward the anode, where they can be caught or stunned.
Sample Ishikawa diagram shows the causes contributing to problem. The defect, or the problem to be solved, [1] is shown as the fish's head, facing to the right, with the causes extending to the left as fishbones; the ribs branch off the backbone for major causes, with sub-branches for root-causes, to as many levels as required.
The final product should have a pH ranging from 4.2 to 4.5. [111] Any low-acidity ingredients with a pH above 4.6, including white daikon and napa cabbage, should not be left under conditions that enable the growth of undesirable microorganisms and require a written illustration of the procedure designed to ensure this is available if requested ...