Metal speciation in natural waters with emphasis on reduced sulfur groups as strong metal binding sites
DS Smith, RA Bell, JR Kramer - … and Physiology Part C: Toxicology & …, 2002 - Elsevier
The proper application of biotic ligand models to predict metal toxicity depends on accurate
prediction of metal binding to sites on natural organic matter (NOM) which compete with the …
prediction of metal binding to sites on natural organic matter (NOM) which compete with the …
Metal speciation in natural waters with emphasis on reduced sulfur groups as strong metal binding sites
DS Smith, RA Bell, JR Kramer - … & pharmacology: CBP, 2002 - pubmed.ncbi.nlm.nih.gov
The proper application of biotic ligand models to predict metal toxicity depends on accurate
prediction of metal binding to sites on natural organic matter (NOM) which compete with …
prediction of metal binding to sites on natural organic matter (NOM) which compete with …
Metal speciation in natural waters with emphasis on reduced sulfur groups as strong metal binding sites
DS Smith, RA Bell, JR Kramer - Comparative Biochemistry and …, 2002 - hero.epa.gov
The proper application of biotic ligand models to predict metal toxicity depends on accurate
prediction of metal binding to sites on natural organic matter (NOM) which compete with …
prediction of metal binding to sites on natural organic matter (NOM) which compete with …
[PDF][PDF] Metal speciation in natural waters with emphasis on reduced sulfur groups as strong metal binding sites
DS Smith, RA Bell, JR Kramer - Comparative Biochemistry and …, 2002 - academia.edu
The proper application of biotic ligand models to predict metal toxicity depends on accurate
prediction of metal binding to sites on natural organic matter (NOM) which compete with the …
prediction of metal binding to sites on natural organic matter (NOM) which compete with the …
[PDF][PDF] Metal speciation in natural waters with emphasis on reduced sulfur groups as strong metal binding sites
DS Smith, RA Bell, JR Kramer - Comparative Biochemistry and Physiology …, 2002 - Citeseer
The proper application of biotic ligand models to predict metal toxicity depends on accurate
prediction of metal binding to sites on natural organic matter (NOM) which compete with the …
prediction of metal binding to sites on natural organic matter (NOM) which compete with the …
Metal speciation in natural waters with emphasis on reduced sulfur groups as strong metal binding sites.
DS Smith, RA Bell, JR Kramer - Comparative Biochemistry and …, 2002 - europepmc.org
The proper application of biotic ligand models to predict metal toxicity depends on accurate
prediction of metal binding to sites on natural organic matter (NOM) which compete with …
prediction of metal binding to sites on natural organic matter (NOM) which compete with …
Metal speciation in natural waters with emphasis on reduced sulfur groups as strong metal binding sites
DS Smith, RA Bell, JR Kramer - Comparative Biochemistry and Physiology …, 2002 - infona.pl
The proper application of biotic ligand models to predict metal toxicity depends on accurate
prediction of metal binding to sites on natural organic matter (NOM) which compete with …
prediction of metal binding to sites on natural organic matter (NOM) which compete with …