ABSORPTION OF ATMOSPHERIC NO_2 BY PLANTS AND SOILS : III. Change in the Concentration of Inorganic Nitrogen in the Soil Fumigated with NO_2 : The Effect of Water Conditions
スポンサーリンク
概要
- 論文の詳細を見る
A volcanic ash soil in Ibaraki Prefecture (pH 5.7) with various water conditions was fumigated with 1 ppm NO_2^1 continuously, and the changes in the concentrations^1 of ammonia, nitrite and nitrate in different soil layers were traced in comparison with the changes in the non-fumigated soils. In the fumigated soils, nitrite accumulated only in the upper soil layer (0-2 cm). NO_2 sorbed by the soil seemed to be converted into nitrite and nitrate, and some of the nitrite may be further oxidized to nitrate; the latter reaction was more active in the continuously wetted soil. Ammonia concentration was also increased by NO_2 fumigation. The nitrite and nitrate which accumulated in the upper layer were transferred, following the movement of water, and in the lower layers, the nitrite disappeared at the faster speed than in the upper layer. These results suggest that atmospheric NO_2 is sorbed at the upper soil layer in the forms of nitrate and nitrite, and it is easily moved downwards into the soil by watering. There is a probability that NO_2-nitrogen sorbed by soils is taken up by the plants.
- 社団法人日本土壌肥料学会の論文
著者
-
Yazaki Jinya
Department of Agricultural Chemistry, Nihon University
-
HASHIMOTO AKIRA
Department of Internal Medicine Saiseikai Matsusaka General Hospital
-
Yazaki Jinya
Department Of Agricultural Chemistry Nihon University
-
Totsuka Tsumugu
Division Of Environmental Biology National Institute For Environmental Studies
-
Yoneyama Tadakatsu
Division Of Environmental Biology National Institute For Environmental Studies
-
Hashimoto Akira
Department Of Agricultural Chemistry Nihon University
関連論文
- Variation in Natural Abundance of ^N among Plant Parts and in ^N/^N Fractionation during N_2 Fixation in the Legume-Rhizobia Symbiotic System
- Treatment of Traumatic Pancreatic Duct Disruption with an Endoscopic Stent
- Transformation of atmospheric NO_2 absorbed in spinach leaves
- Validity and reliability of a revised Japanese version of the Arthritis Impact Measurement Scales version 2 (AIMS2)
- Variations of Natural ^N Abundances in Leguminous Plants and Nodule Fractions
- ABSORPTION OF ATMOSPHERIC NO_2 BY PLANTS AND SOILS : (II) Nitrite Accumulation, Nitrite Reductase Activity and Diurnal Change of NO_2 Absorption in Leaves
- Localization of TRH- and MA-Containing Nerve Endings and Their Morphological Interrelationship : Immunocytochemical and Autoradiographic Observations on the Same Sections
- Variations of Natural ^C Abundances in Leguminous Plants
- ABSORPTION OF ATMOSPHERIC NO_2 BY PLANTS AND SOILS : IV. Two Routes of Nitrogen Uptake by Plants from Atmospheric NO_2 : Direct Incorporation into Aerial Plant Parts and Uptake by Roots after Absorption into the Soil
- PRELIMINARY EFFICACY TRIAL OF CYMELARSAN IN MICE ARTIFICIALLY INFECTED WITH TRYPANOSOMA BRUCEI BRUCEI ISOLATED FROM A DOG IN ZAMBIA
- Transfer of nitrogen and carbon from a mature sunflower leaf-^NO_2 and ^CO_2 feeding studies
- Necrobiotic xanthogranuloma of the nose without paraproteinemia
- Fractionation of Nitrogen Isotopes during the Uptake and Assimilation of Ammonia I by Plants
- ABSORPTION OF ATMOSPHERIC NO_2 BY PLANTS AND SOILS : III. Change in the Concentration of Inorganic Nitrogen in the Soil Fumigated with NO_2 : The Effect of Water Conditions
- ABSORPTION OF ATMOSPHERIC NITROGEN DIOXIDE BY RICE, WHEAT, AND BARLEY PLANTS: ESTIMATION BY THE ^N-DILUTION METHOD
- ABSORPTION OF ATMOSPHERIC NO_2 BY PLANTS AND SOILS : (I) Quantitative Estimation of Absorbed NO_2 in Plants by ^N Method
- ^N Studies on the In Vivo Assay of Nitrate Reductase in Leaves : Occurrence of Underestimation of the Activity Due to Dark Assimilation of Nitrate and Nitrite
- EFFECTS OF NO_2 AND O_3 EXPOSURE ALONE OR IN COMBINATION ON KIDNEY BEAN PLANTS : AMINO ACID CONTENT AND COMPOSITION
- DETERMINATION OF ^C IN PLANT MATERIALS BY INFRARED ABSORPTION SPECTROMETRY USING A SIMPLE CALIBRATION METHOD
- MICROBIAL DEGRADATION OF ^N-LABELED RICE RESIDUES IN SOIL DURING TWO YEARS' INCUBATION UNDER FLOODED AND UPLAND CONDITIONS : I.Decay of Residue and Soil Microflora
- MICROBIAL DEGRADATION OF ^N-LABELED RICE RESIDUES IN SOIL DURING TWO YEARS' INCUBATION UNDER FLOODED AND UPLAND CONDITIONS : II.Transformation of Residue Nitrogen
- ON THE PATHOLOGICAL FEATURES OF OSMOSE POISONING IN A COW : NEUROPATHOLOGICAL OBSERVATIONS
- ATMOSPHERIC DINITROGEN FIXATION IN THE FLOODED RICE RHIZOSPHERE AS DETERMINED BY THE N-15 ISOTOPE TECHNIQUE
- Motion order system for the end effector of an instrument used in endoscopic surgery
- NITROGEN MINERALIZATION OF SEWAGE SLUDGES IN SOIL
- NITRITE UTILIZATION IN THE ROOTS OF HIGHER PLANTS
- ^N STUDY ON THE PARTITIONING OF THE NITROGEN TAKEN BY SOYBEANS FROM ATMOSPHERIC DINITROGEN, MEDIUM NITRATE OR AMMONIUM
- DETECTION OF N-NITROSODIMETHYLAMINE IN SOILS AMENDED WITH SLUDGES
- Sarcomatous Hepatocellular Carcinoma with Remittent Fever
- DISTRIBUTION OF NITROGEN ABSORBED DURING DIFFERENT TIMES OF GROWTH IN THE PLANT PARTS OF WHEAT AND CONTRIBUTION TO THE GRAIN AMINO ACIDS