2007-02-07 15:11:42 · 4 answers · asked by enaid 1 in Environment
To bioaccumulate literally means to accumulate in a biological system. However, it is commonly taken to measure the uptake over time of a substance, called a bioaccumulant, that can accumulate in a biological system.
Bioaccumulation can be divided into bioconcentration and biomagnification. Bioconcentration considers uptake from the non-living environment while biomagnification describes uptake through the food chain. For many fat-soluble and persistent chemicals (POPs), biomagnification is the dominant factor.
Everything in a biological system has a biological halflife, that is, a measure of how long it will stay in that system until it is lost, is excreted, degrades, reacts into something different, or ends its presence in some other way. Most substances have a short half-life, as they are metabolized, or excreted as waste.
However, some compounds may stay in a system for a much longer period of time. For example, calcium in the human body is laid down in bones and teeth, and even when bone cells die, their calcium is used again in the building of bones. This is a sensible and efficient re-use of scarce resources.
The problem arises when toxic substances stay in the body for a long period of time. They are not acutely poisonous, otherwise they would kill straight away, but are associated with chronic poisoning.
If the input of a toxic substance to an organism is greater than the rate at which the substance is lost, the organism is said to be bioaccumulating that substance. Thus, the longer the biological half-life of the substance the greater the risk of chronic poisoning, even if environmental levels of the toxin are very low.
This is one reason why chronic poisoning is a common aspect of environmental health in the workplace. As people spend so much time, for so many years in these environments, very low levels of toxins can be lethal over time.
An example of poisoning in the workplace can be seen from the phrase "as mad as a hatter". The process for stiffening the felt used in making hats involved mercury, which forms organic species such as methylmercury, which is lipid soluble, and tends to accumulate in the brain resulting in mercury poisoning.
Other lipid (fat) soluble poisons include tetra-ethyl lead compounds (the lead in leaded petrol), and DDT. These compounds are stored in the body's fat, and in times of famine, when the fatty tissues are used for energy, the compounds are released and cause acute poisoning.
Strontium 90, part of the fallout from atomic bombs, is mistaken by the human body for calcium, and is laid down in the bone, where its radiation can cause damage for a long time.
Naturally produced toxins can also bioaccumulate. The marine algal blooms known as "red tides" can result in local filter feeding organisms such as mussels and oysters becoming toxic; coral fish can be responsible for the poisoning known as ciguatera when they accumulate a toxin called ciguatoxin from reef algae.
Other compounds that are not normally considered toxic can be accumulated to toxic levels in organisms. The classic example is of Vitamin A, which becomes concentrated in carnivore livers of e.g. polar bears: as a pure carnivore that feeds on other carnivores (seals), they accumulate extremely large amounts of Vitamin A in their livers. It was known by the native peoples of the arctic that the livers should not be eaten, but arctic explorers have suffered Hypervitaminosis A from eating the bear livers (and there has been at least one example of similar poisoning of Antarctic explorers eating husky dog livers).
2007-02-07 17:44:38 · answer #1 · answered by arka_spacerocker 2 · 0⤊ 0⤋
Bio-accumulation is the same thing as biological magnification or biomagnification. It's the idea that some molecules are not metabolized or excreted from the body, but instead these substances are stored in the body.
As organisms harboring those molecules are eaten, the chemicals accumulate in the bodies of the predators. In this way, the concentration of the chemicals in question increases in successive trophic levels.
So the big fish has a higher concentration than the listtle fish that it ate. This is interesting to people because we tend to eat pretty high on the food chain, so we are at risk for getting concentrated amounts of materials like mercury, pesticides, dioxins, ...
2007-02-07 15:18:03 · answer #2 · answered by ecolink 7 · 0⤊ 0⤋
it is the end result of organisms uptaking constituents. For example, certain plants can accumulate toxic levels of metal that never harm the plant. Livestock come along and eat it, and go hoof-up. The process that allowed the plant to uptake the metal was called bio-accumulation.
2007-02-07 15:16:37 · answer #3 · answered by Paul BS 2 · 0⤊ 0⤋
Bioaccumulation happens interior of a trophic point, and is the upward thrust in concentration of a substance specifically tissues of organisms' bodies simply by absorption from nutrition and the atmosphere. Bioconcentration is defined as happening while uptake of a substance from the water is larger than excretion
2016-09-28 14:12:16 · answer #4 · answered by ? 4 · 0⤊ 0⤋