Mexican institute studies dried artemia biomass as feed for postlarval shrimp
Dried artemia biomass and other crustacean meals could be cost-efficient alternatives for shrimp hatcheries as the only feed used to rear shrimp postlarvae.
Specific pathogen-free status depends on the presence or absence of specific pathogens. This status depends on the level of biosecurity for the shrimp.
Dried artemia biomass and other crustacean meals could be cost-efficient alternatives for shrimp hatcheries as the only feed used to rear shrimp postlarvae.
Zero tolerance for chloramphenicol residue in food by the European Community indicates that chloramphenicol risks are regarded as real by European regulators.
U.S. news media, doctors and even dietitians are warning patients that methylmercury in fish can harm them, their children and their unborn children.
Many production aspects in shrimp culture are related to the molt stage, such as mating in closed-thelycum species, market value and eyestalk ablation.
Studies show that dietary arachidonic acid improves fish survival and growth if offered together with suitable levels of the other essential fatty acids.
Dietary gossypol from cotton seeds, if present in large amounts in a diet, causes unfavorable physiological effects in monogastric animals including fish.
Wild and cultured fish around the world are commonly affected by piscine mycobacteriosis, infections of which often manifest as acute or chronic diseases.
Since the first pioneer shrimp farm was established in the area in 1997, desert shrimp farming in Arizona, USA, has expanded rapidly.
Without hydrogen peroxide treatments, pathogens like fungi and bacteria can overtake the egg mass and significantly reduce channel catfish embryo survival.
The development of land-based, hyperintensive farming systems for fish and shellfish production could quickly expand in industrialized countries.
A replacement diet formulated specifically for northern pike larvae was not available in Europe, with the brine shrimp artemia most often used as live food.
Sea birds can spread viral, bacterial, fungal and protozoan diseases to shrimp farms, so future farm designs should take their presence into account.
Columnaris disease in channel catfish is caused by Flavobacterium columnare, a gram-negative, long rod-shaped bacteria ubiquitous in freshwater environments.
At a United Nations Food and Agriculture Organization (FAO) workshop 14 shrimp-producing countries discussed strategies for controlling shrimp diseases.
Necrotizing hepatopancreatitis has become one of the most important bacterial diseases affecting shrimp farming in the Americas.