Environmental chemistry, Nitrous oxide, Denitrification, Oceanography and Nitrogen are his primary areas of study. His study in Environmental chemistry is interdisciplinary in nature, drawing from both Atmosphere, Mixing ratio, Mineralogy, Methane and Carbon. Within one scientific family, Naohiro Yoshida focuses on topics pertaining to Isotopomers under Nitrous oxide, and may sometimes address concerns connected to Analytical chemistry, Troposphere, Stratosphere, Inorganic chemistry and Saturation.
The Denitrification study combines topics in areas such as Soil water, Heterotroph and Nitrification. His work on Seawater, Salinity and Sea surface temperature as part of general Oceanography study is frequently linked to Flux, bridging the gap between disciplines. His Nitrogen research is multidisciplinary, relying on both Nitrite and Anoxic waters.
Naohiro Yoshida focuses on Environmental chemistry, Analytical chemistry, Internal medicine, Nitrous oxide and Denitrification. His Environmental chemistry course of study focuses on Atmosphere and Atmospheric sciences. His Analytical chemistry research includes elements of Intramolecular force and Absorption.
His Internal medicine study incorporates themes from Gastroenterology, Endocrinology and Cardiology. His Nitrous oxide study typically links adjacent topics like Isotopomers. His Denitrification research is multidisciplinary, incorporating perspectives in Oceanography and Nitrification.
The scientist’s investigation covers issues in Environmental chemistry, Nitrate, Internal medicine, Sulfate and Atmospheric sciences. His research integrates issues of Carbonyl sulfide, Sulfur, Isotope analysis, Oxygen and Denitrification in his study of Environmental chemistry. Naohiro Yoshida has researched Denitrification in several fields, including Nitrous oxide and Nitrification.
The various areas that Naohiro Yoshida examines in his Nitrate study include Snow, Isotopes of nitrogen, Oceanography and Nitrogen cycle. The concepts of his Sulfate study are interwoven with issues in Geochemistry and Ice core. In his study, Seasonality is strongly linked to Atmosphere, which falls under the umbrella field of Atmospheric sciences.
His primary scientific interests are in Environmental chemistry, Nitrous oxide, Nitrate, Denitrification and Internal medicine. Biogeochemical cycle is the focus of his Environmental chemistry research. His Nitrous oxide research includes themes of Food science, Compost, Nitrogen, Bacteria and Oxygen.
His Nitrate research integrates issues from Isotopomers, Spatial variability, δ15N, Nitrogen cycle and NOx. His Denitrification research is multidisciplinary, incorporating perspectives in Nitrifying bacteria, Nitrification, Oceanography and Organic matter. His study looks at the relationship between Methane and fields such as Analytical chemistry, as well as how they intersect with chemical problems.
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Evidence from fluid inclusions for microbial methanogenesis in the early Archaean era
Yuichiro Ueno;Keita Yamada;Naohiro Yoshida;Shigenori Maruyama.
Constraining the atmospheric N 2 O budget from intramolecular site preference in N 2 O isotopomers
Naohiro Yoshida;Sakae Toyoda.
Determination of Nitrogen Isotopomers of Nitrous Oxide on a Modified Isotope Ratio Mass Spectrometer
Sakae Toyoda;Naohiro Yoshida.
Analytical Chemistry (1999)
Homogeneous climate variability across East Antarctica over the past three glacial cycles
O. Watanabe;J. Jouzel;Sigfus Johann Johnsen;Sigfus Johann Johnsen;F. Parrenin.
15N-depleted N2O as a product of nitrification
Naohiro Yoshida;Naohiro Yoshida.
Tracking the Fukushima Radionuclides
Naohiro Yoshida;Jota Kanda.
Fractionation of N2O isotopomers during production by denitrifier
Sakae Toyoda;Hidenori Mutobe;Hiroaki Yamagishi;Naohiro Yoshida.
Soil Biology & Biochemistry (2005)
Evidence of deuterium excess in water vapor as an indicator of ocean surface conditions
Ryu Uemura;Ryu Uemura;Yohei Matsui;Yohei Matsui;Kei Yoshimura;Hideaki Motoyama.
Journal of Geophysical Research (2008)
Obesity accelerates T cell senescence in murine visceral adipose tissue
Kohsuke Shirakawa;Xiaoxiang Yan;Ken Shinmura;Jin Endo.
Journal of Clinical Investigation (2016)
Hadal biosphere: Insight into the microbial ecosystem in the deepest ocean on Earth
Takuro Nunoura;Yoshihiro Takaki;Miho Hirai;Shigeru Shimamura.
Proceedings of the National Academy of Sciences of the United States of America (2015)
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