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Stable isotope ratio variation in natural systems reflects the dynamics of Earth systems processes and imparts isotope labels to Earth materials. Carbon isotope ratios of atmospheric CO2 record exchange of carbon between the biosphere and the atmosphere; the incredible journeys of migrating monarchs is documented by hydrogen isotopes in their wings; and water carries an isotopic record of its source and history as it traverses the atmosphere and land surface. Through these and many other examples, improved understanding of spatio-temporal isotopic variation in Earth systems is leading to innovative new approaches to scientific problem-solving. This volume provides a comprehensive overview of the theory, methods, and applications that are enabling new disciplinary and cross-disciplinary advances through the study of "isoscapes": isotopic landscapes. "This impressive new volume shows scientists deciphering and using the natural isotope landscapes that subtly adorn our spaceship Earth." Brian Fry, Coastal Ecology Institute, Louisiana State University, USA "An excellent timely must read and must-have reference book for anybody interested or engaged in applying stable isotope signatures to questions in e.g. Anthropology, Biogeochemistry, Ecology, or Forensic Science regarding chronological and spatial movement, changes, or distribution relating to animals, humans, plants, or water." Wolfram Meier-Augenstein, Centre for Anatomy & Human Identification, University of Dundee, UK "Natural resources are being affected by global change, but exactly where, how, and at what pace? Isoscapes provide new and remarkably precise answers." John Hayes, Woods Hole Oceanographic Institution, USA "This exciting volume is shaping a new landscape in environmental sciences that is utilizing the remarkable advances in isotope research to enhance and extend the capabilities of the field." Dan Yakir, Weizmann Institute of Science, Israel.

Carbon -- Isotopes -- Spectra. --- Isotopes. --- Radiolabeling. --- Stable isotopes. --- Isotopes --- Stable isotopes --- Radiolabeling --- Carbon --- Chemistry --- Geology --- Physical & Theoretical Chemistry --- Geology - General --- Earth & Environmental Sciences --- Physical Sciences & Mathematics --- Spectra --- Spectra. --- Isotope labeling --- Radioactive isotope labeling --- Radioactive tracer labeling --- Radionuclide labeling --- Radiotracer labeling --- Environment. --- Earth sciences. --- Ecology. --- Geoecology. --- Environmental geology. --- Anthropology. --- Geoecology/Natural Processes. --- Environment, general. --- Earth Sciences, general. --- Radiochemistry --- Nuclides --- Environmental sciences. --- Geography. --- Human beings --- Cosmography --- Earth sciences --- World history --- Environmental science --- Science --- Balance of nature --- Biology --- Bionomics --- Ecological processes --- Ecological science --- Ecological sciences --- Environment --- Environmental biology --- Oecology --- Environmental sciences --- Population biology --- Ecology --- Ecology . --- Geosciences --- Physical sciences --- Geoecology --- Environmental protection --- Physical geology --- Primitive societies --- Social sciences

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Biomarkers of environmental toxicants are measures of exposures, some of which can serve to assess disease risk and inter-individual susceptibilities. Metabolites, protein and DNA adducts also serve to elucidate the mechanisms of the bioactivation and detoxication of reactive toxicant intermediates. Some environmental chemicals act as modulators of gene and protein activity, and induce the dysbiosis of the microbiome, which impacts the metabolome and overall health. In this Special Issue on “Biomarkers of Environmental Toxicants”, review articles and original research studies are featured, covering the latest bioanalytical, biochemical and mass spectrometry-based technologies, to monitor exposures through targeted and non-targeted methods, and mechanistic studies that examine the biological effects of environmental toxicants in cells and humans. Diverse topics, such as exposome, microbiome, DNA/protein adducts and t-RNA modifications, as well as important environment toxicants, including heavy metals, benzene, phthalates, aldehydes, glycidol, tobacco smoke and aristolochic acids, are covered. Novel analytical methods, such as protein adductomics, DNA adduct analysis in formalin-fixed paraffin-embedded tissues, site-specific mutagenesis assay and accelerator mass spectrometry, are also included. This collection provides a valuable update of the most recent biochemical and analytical tools that employ biomarkers in toxicology research, biomarker discovery, and exposure and risk assessment in population-based studies.

manganese --- lead --- cadmium --- arsenic --- hair --- children --- environment --- carcinogen --- DNA adducts --- biomonitoring --- formalin-fixed paraffin-embedded tissues --- biomarker --- mass spectrometry --- human biomonitoring --- urine --- non-occupational exposure --- S-phenyl-mercapturic acid --- HPLC-MS/MS --- glycidol --- Hb adduct --- N-(2.3-dihydroxypropyl)valine --- in vivo --- cancer risk --- UPLC/MS/MS --- aristolochic acids --- food contamination --- environmental pollution --- root uptake --- aristolochic acid nephropathy --- Balkan endemic nephropathy --- chronic kidney disease --- tobacco smoke --- human carcinogen --- biomarkers --- epitranscriptomics --- tRNA modifications --- stress response mechanisms --- codon-biased translation --- phthalate --- DEHP --- human exposure --- toxicity --- reproductive --- accelerator mass spectrometry --- cavity ring down spectrophotometry --- radiocarbon --- naphthalene --- benzo[a]pyrene --- cell turnover --- triclocarban --- metastasis --- haemoglobin --- albumin --- protein adducts --- aldehydes --- genotoxicity --- cancer --- diseases --- oxidative stress --- exposure biomarkers --- high-resolution mass spectrometry --- data-dependent profiling --- derivatization --- biological fluids --- isotope labeling --- DNA lesion --- DNA damage --- shuttle vector technique --- replication block --- mutagenicity --- mutational spectrum --- mutational signature --- DNA repair --- DNA adduct bypass --- site-specific mutagenesis --- chemical exposome --- environmental monitoring --- disease --- bioinformatics --- gut microbiome --- chemical toxicity --- n/a