The effects of antifouling paint go beyond the organisms that it is intended to kill. By poisoning barnacles, algae, and other organisms at the bottom of the food chain, the bioaccumulation of TBT increases over time affecting more and more of the bottom feeders of the aquatic food web environment, which are mainly invertebrates and are affected by TBT. There is a slight biomagnification of TBT that has been demonstrated in the lower part of the marine food chain (i.e., planktonic organisms, invertebrates, and fishes). However, the biomagnification of TBT into larger marine animals such as marine mammals is debatable. Toxic effects in some species occur at 1 nanogram per liter of water. Air pollution from TBT has not been noticed or considered significant enough to effect the environment. In the water,
photodegradation and microorganisms can break down TBT and leach into the soil sediments. The bioaccumulation increases over time, leading to a biomagnification in organisms higher up the food chain, although the biomagnification is not that considerable in size. As TBT can remain in the environment for up to 30 years due to often bonding to suspended material and sediments, it can remain in an ecosystem for a very long time. This means that bioaccumulation readily occurs in marine environments, which can lead to very high amounts of TBT being accumulated, especially in smaller organisms at the bottom of the food chain, which in turn has various health effects.
Invertebrates Exposure to organotin compounds causes the development of male accessory sex organs in female prosobranch gastropods. This phenomenon has been termed imposex. TBT has been shown to affect
invertebrate development. Marine snails, such as the
dog whelk (
Nucella lapillus), have often been used as an
indicator species. In gastropods, the normal process of accessory sex organ development is
retinoid dependent, as has been proven by the effect 9cisRA has on male penises. TBTs mimic the endogenous ligand of Retinoid X Receptor (9cisRA), and thus activates the signalling cascades that are retinoid acid dependent, promoting female penis growth. There have been many theories as to why molluscs are affected by TBT. For example, previous literature has stated that TBT would cause the inhibition of
aromatase that would lead to an increase in testosterone and therefore, causing imposex. It was theorized that TBT disrupts endocrine system by inhibiting cytochrome P450 molecule. Among its myriad functions, P450 converts androgen, which has male-hormone properties, into oestrogen, which has female hormone properties. It was theorized that the high concentration of androgen lead to the masculinization of females. Another indicator species is
Chironomus riparius, a species of non-biting
midge, which has been used to test the effects of TBT on development and reproduction at sublethal concentrations found in marine environments. Higher concentrations of TBT were found to increase the female population and the results are interesting because unlike the
masculinization of the stengoglassan gastropods, feminization was present. Studies have shown that TBT is detrimental to the immune system. Research shows that TBT reduces resistance to infection in fish that live on the seabed and are exposed to high levels of TBT. These areas tend to have silty sediment such as harbours and estuaries. Otters dying of infectious causes tended to have higher levels of tissue butyltins than those dying of trauma or other causes. It was also reported by scientists that sea otters typically stay near boats and closed off marinas, which may have led to these organisms experiencing higher levels of butyltins. TBT has been shown to lead to immunosuppression in sea-otters and dolphins. TBT has also been linked to hearing loss in mammalian top predators, such as
toothed whales. In rats, the hypothalamus-pituitary-adrenal (HPA) axis can be affected by TBT. In the pituitary and adrenal glands, there have been findings of morphophysiological changes within rats affected by TBT. TBT can also affect humans as well. Humans can be exposed to these compounds and potentially experience headaches, fatigue, respiratory issues, and more. Long-term exposure can also lead to damage of some internal organs, such as the kidneys and liver. == Regulation ==