Biodilution is the decrease
in concentration of an element or pollutant
with an increase in trophic level.This effect is primarily caused by the
observed trend that an increase in algal biomass will reduce the overall
concentration of a pollutant per cell, which ultimately contributes to a lower
dietary input to grazers
(and higher-level aquatic organisms).
The primary elements and
pollutants of concern are heavy metals such as mercury, cadmium, and lead. These toxins have
been shown to bioaccumulate up a food web. In some cases, metals,
such as mercury, can biomagnify.This is a major concern since methylmercury,
the most toxic mercury species, can be found in high concentrations in human-consumed
fish and other aquatic organisms. Persistent organic pollutants, such
as carcinogenic polycyclic aromatic hydrocarbons
and alkylphenols,
have also shown to biodilute in the marine environment.
Numerous studies have linked lower
mercury concentrations in zooplankton found in eutrophic(nutrient-rich
and highly productive) as compared to oligotrophic
(low nutrient) aquatic environments. Nutrient enrichment (mainly phosphorus and
nitrogen) reduce the input of mercury, and other heavy metals, into aquatic
food webs through this biodilution effect. Primary producers, such as
phytoplankton, uptake these heavy metals and accumulate them into their cells.
The higher the population of phytoplankton, the less concentrated these
pollutants will be in their cells. Once consumed by primaryn, these
phytoplankton-bound pollutants are incorporated into the consumer’s cells.
Higher phytoplankton biomass means a lower concentration of pollutants
accumulated by the zooplankton, and so on up the food web. This effect causes
an overall dilution of the original concentration up the food web. That is, the
concentration of a pollutant will be lower in the zooplankton than the
phytoplankton in a high bloom condition.
Although most biodilution studies
have been on freshwater environments, biodilution has been shown to occur in
the marine environment as well. The Northwater Polynya, located in Baffin Bay,
was found to have a negative correlation of cadmium, lead, and nickel with an
increase in trophic level Cadmium and lead are both non-essential
metals that will compete for calcium within an organism, which is detrimental
for organism growth.
Most studies measure
bioaccumulation and biodilution using the δ15N isotope of nitrogen. The δ15N
isotopic signature is enriched up the food web. A predator will have a higher
δ15N as compared to its prey. This trend allows the tropic position of an
organism to be derived. Coupled to the concentration of a specific pollutant,
such as mercury, the concentration verses trophic position can be accessed.
While most heavy metals
bioaccumulate, under certain conditions, heavy metals and organic pollutants
have the potential to biodilute, making a higher organism less exposed to the
toxin.
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