Trophic transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia …
The transfer of nanoparticles through the food chain can lead to bioaccumulation and
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
Trophic transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia …
S Pakrashi, S Dalai, N Chandrasekaran… - Aquatic …, 2014 - inis.iaea.org
[en] Highlights:• Trophic transfer of alumina nanoparticles using Chlorella ellipsoides and
Ceriodaphnia dubia.• Subtle alterations in the feeding behaviour of the daphnids.• …
Ceriodaphnia dubia.• Subtle alterations in the feeding behaviour of the daphnids.• …
Trophic transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia …
S Pakrashi, S Dalai, N Chandrasekaran… - Aquatic Toxicology …, 2014 - europepmc.org
The transfer of nanoparticles through the food chain can lead to bioaccumulation and
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
Trophic. transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia …
S Pakrashi, S Dalai, N Chandrasekaran… - Aquatic …, 2014 - hero.epa.gov
The transfer of nanoparticles through the food chain can lead to bioaccumulation and
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
Trophic transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia …
S Pakrashi, S Dalai… - Aquatic toxicology …, 2014 - pubmed.ncbi.nlm.nih.gov
The transfer of nanoparticles through the food chain can lead to bioaccumulation and
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
Trophic transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia …
S Pakrashi, S Dalai, N Chandrasekaran… - Aquatic Toxicology, 2014 - infona.pl
The transfer of nanoparticles through the food chain can lead to bioaccumulation and
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
Trophic transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia …
S Pakrashi, S Dalai, N Chandrasekaran, A Mukherjee - Aquatic Toxicology, 2014 - osti.gov
Highlights:• Trophic transfer of alumina nanoparticles using Chlorella ellipsoides and
Ceriodaphnia dubia.• Subtle alterations in the feeding behaviour of the daphnids.• …
Ceriodaphnia dubia.• Subtle alterations in the feeding behaviour of the daphnids.• …
[引用][C] Trophic transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer …
S PAKRASHI, S DALAI… - Aquatic …, 2014 - pascal-francis.inist.fr
Trophic transfer potential of aluminium oxide nanoparticles using representative primary
producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia dubia) CNRS Inist …
producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia dubia) CNRS Inist …
Trophic transfer potential of aluminium oxide nanoparticles using representative primary producer (Chlorella ellipsoides) and a primary consumer (Ceriodaphnia …
S Pakrashi, S Dalai, N Chandrasekaran… - Aquatic …, 2014 - ui.adsabs.harvard.edu
The transfer of nanoparticles through the food chain can lead to bioaccumulation and
biomagnification resulting in a long term negative impact on the ecosystem functions. The …
biomagnification resulting in a long term negative impact on the ecosystem functions. The …