Isotope Ratio Analysis of Lead in Blood and Environmental Samples by Multi-collector Inductively Coupled Plasma Mass Spectrometry
スポンサーリンク
概要
著者
-
Seyama Haruhiko
National Institute for Environmental Studies
-
TANAKA Atsushi
National Institute for Environmental Studies
-
Yoshinaga Jun
Department Of Environmental Studies The University Of Tokyo
-
TAKAGI Mai
Department of Environmental Studies, The University of Tokyo
-
Takagi Mai
Department Of Environmental Studies The University Of Tokyo
関連論文
- Production of Biogenic Manganese Oxides by Repeated-Batch Cultures of Laboratory Microcosms(ENVIRONMENTAL BIOTECHNOLOGY)
- Exposure assessment of phthalate esters in Japanese pregnant women by using urinary metabolite analysis
- Element Concentrations in NIES Candidate Marine Sediment Certified Reference Material. Reference Values for Major and Trace Elements
- BONDING STATE OF SILICON IN NATURAL FERRIHYDRITES BY X-RAY PHOTOELECTRON SPECTROSCOPY
- Long-chain anteiso compound series found in acidified freshwater lake sediments in Japan: Lake Tazawa-ko
- Environmental Variation Recorded in the Lake Kussharo-ko Sediment
- 2.8 million years of phytoplankton histry in Lake Baikal recorded by the residual photosynthetic pigments in its sediment core
- NMR of Hectorite Ion-exchanged by Trimethyltin and Dimethyltin Cations
- BONDING STATES OF SODIUM IN TETRASILICIC SODIUM FLUOR MICA
- Isotope Ratio Analysis of Lead in Blood and Environmental Samples by Multi-collector Inductively Coupled Plasma Mass Spectrometry
- High Uranium Isotope Ratios Found in the Environmental Samples Collected in and around JCO
- Lead in Playground Soil : Exposure Estimation of Children via Ingestion and Contamination Source
- Blood lead levels of contemporary Japanese children
- Association of variants in genes involved in environmental chemical metabolism and risk of cryptorchidism and hypospadias
- Nutritional Assessment of a Group of Japanese Elementary School Children in Tokyo: With Special Emphasis on Growth, Anemia, and Obesity.
- Removal of heavy metal cations by biogenic magnetite nanoparticles produced in Fe(III)-reducing microbial enrichment cultures(ENVIRONMENTAL BIOTECHNOLOGY)