Nanomaterial can be released from various sources, entering the environment and thus getting in contact with humans, plants and environmental organisms. It is estimated that less than 0.1 per thousand of these are engineered nanomaterials, the majority of nanoparticles originate from natural sources such as dust or pollen. In terms of quantity, this corresponds to less than a "pea" in an Olympic size swimming pool.

The estimated amount of engineered nanomaterials released into the environment each year is estimated at approximately 300.000 tonnes. These are mainly metals and metal oxides (e.g. titanium dioxide or iron). Once released, nanomaterials can be transported and distributed on different ways in the air, water or soil based on their origins. Depending on the environmental compartment, the dwelling time, mobility and reactivity of the nanomaterials varies. The nanomaterials can dissolve, be transformed into other compounds or form larger particles / agglomerates.



Chimney with exhaust gases © spuno / fotolia.comOnce released into the air, nanomaterials remain in the atmosphere for hours to a few weeks due to their low weight and can be spread widely by the wind. The released nanomaterials’ behaviour in the air resembles that of natural particles, e.g. pollen or Sahara dust. Nanomaterials can be inhaled by humans and animals from the air and are thus incorporated into the body (see also How can nanomaterials enter the body or the environment?). They agglomerate with other particles thus forming larger particles. The airborne nanomaterials are removed either via washing out by rain or via deposition on the ground or surfaces of plants, respectively. Following the removal from the air, the majority of the nanomaterials is transported via rivers ultimately ending up in the oceans. Only a smaller proportion remains in the soil.



water drops © guy / fotolia.comIn general, engineered nanomaterials are being transported over long distances in inland waters and oceans via the existing water current. Their behaviour in water varies depending on the material and particle size. Nanomaterials can dissolve in the aqueous environment, remain in the water or agglomerate with other particles resulting in the settling of the particle agglomerates at the bottom of the water.

The majority of nanomaterials enriched in waste water is removed from the water during the different processes within a wastewater treatment plant. However, some remaining non-separable nanomaterials can still enter inland waters via the treated waste water.



Cross-section of different soil layers ©eyetronic / fotolia.comMost engineered nanomaterials are less mobile in soil with only little transport of nanomaterials occurring into deeper soil regions. Therefore insoluble nanomaterials can accumulate in the soil, agglomerate with other substances or dissolve. The ions released are more mobile and can be washed out with rainwater. This also applies to nanomaterials in the sediment of lakes or rivers, which have a low mobility and remain at the site of deposition.




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