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= Determination of the &delta;<sup>15</sup>N and &delta;<sup>18</sup>O of nitrate in water; RSIL lab code 2900 =
{
The purpose of the Reston Stable Isotope Laboratory (RSIL) lab code 2900 is to determine the δ<sup>15</sup>N and δ<sup>18</sup>O of nitrate (NO<sub>3</sub><sup>-</sup>) in water. The δ<sup>15</sup>N and δ<sup>18</sup>O of the dissolved NO<sub>3</sub><sup>-</sup> are analyzed by converting the NO<sub>3</sub><sup>-</sup> to nitrous oxide (N<sub>2</sub>O), which serves as the analyte for mass spectrometry. A culture of denitrifying bacteria is used in the enzymatic conversion of the NO<sub>3</sub><sup>-</sup> to N<sub>2</sub>O, which follows the pathway shown in equation 1:
  "USGS Publications Warehouse": {
 
    "schema": {
NO<sub>3</sub><sup>-</sup> → NO<sub>2</sub><sup>-</sup> → NO 1/2 N<sub>2</sub>O (1)
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Because the bacteria ''Pseudomonas aureofaciens'' lack N<sub>2</sub>O reductive activity, the reaction stops at N<sub>2</sub>O, unlike the typical denitrification reaction that goes to N<sub>2</sub>. After several hours, the conversion is complete, and the N<sub>2</sub>O is extracted from the vial, separated from volatile organic vapor and water vapor by an automated -65 °C isopropanol-slush trap, a Nafion drier, a CO<sub>2</sub> and water removal unit (Costech #021020 carbon dioxide absorbent with Mg(ClO<sub>4</sub>)<sub>2</sub>), and trapped in a small-volume trap immersed in liquid nitrogen with a modified Finnigan MAT (now Thermo Scientific) GasBench 2 introduction system. After the N<sub>2</sub>O is released, it is further purified by gas chromatography before introduction to the isotope-ratio mass spectrometer (IRMS). The IRMS is a Thermo Scientific Delta V Plus continuous flow IRMS (CF-IRMS). It has a universal triple collector, consisting of two wide cups with a narrow cup in the middle; it is capable of simultaneously measuring mass/charge (''m/z'') of the N<sub>2</sub>O molecule 44, 45, and 46. The ion beams from these ''m/z'' values are as follows: ''m/z'' = 44 = N<sub>2</sub>O = <sup>14</sup>N<sup>14</sup>N<sup>16</sup>O; ''m/z'' = 45 = N<sub>2</sub>O = <sup>14</sup>N<sup>15</sup>N<sup>16</sup>O or <sup>14</sup>N<sup>14</sup>N<sup>17</sup>O; ''m/z'' = 46 = N<sub>2</sub>O = <sup>14</sup>N<sup>14</sup>N<sup>18</sup>O. The <sup>17</sup>O contributions to the ''m/z'' 44 and ''m/z'' 45 ion beams are accounted for before δ<sup>15</sup>N values are reported.
      "additionalType": "USGS Numbered Series",
      "name": "Determination of the \u03b415N and \u03b418O of nitrate in water; RSIL lab code 2900",
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      "datePublished": "2007",
      "dateModified": "2012-09-18",
      "abstract": "The purpose of the Reston Stable Isotope Laboratory (RSIL) lab code 2900 is to determine the \u03b415N and \u03b418O of nitrate (NO3-) in water. The \u03b415N and \u03b418O of the dissolved NO3- are analyzed by converting the NO3- to nitrous oxide (N2O), which serves as the analyte for mass spectrometry. A culture of denitrifying bacteria is used in the enzymatic conversion of the NO3- to N2O, which follows the pathway shown in equation 1: NO3- \u2192 NO2- \u2192 NO \u2192 1/2 N2O    (1) Because the bacteria Pseudomonas aureofaciens lack N2O reductive activity, the reaction stops at N2O, unlike the typical denitrification reaction that goes to N2. After several hours, the conversion is complete, and the N2O is extracted from the vial, separated from volatile organic vapor and water vapor by an automated -65 \u00b0C isopropanol-slush trap, a Nafion drier, a CO2 and water removal unit (Costech #021020 carbon dioxide absorbent with Mg(ClO4)2), and trapped in a small-volume trap immersed in liquid nitrogen with a modified Finnigan MAT (now Thermo Scientific) GasBench 2 introduction system. After the N2O is released, it is further purified by gas chromatography before introduction to the isotope-ratio mass spectrometer (IRMS). The IRMS is a Thermo Scientific Delta V Plus continuous flow IRMS (CF-IRMS). It has a universal triple collector, consisting of two wide cups with a narrow cup in the middle; it is capable of simultaneously measuring mass/charge (m/z) of the N2O molecule 44, 45, and 46. The ion beams from these m/z values are as follows: m/z = 44 = N2O = 14N14N16O; m/z = 45 = N2O = 14N15N16O or 14N14N17O; m/z = 46 = N2O = 14N14N18O. The 17O contributions to the m/z 44 and m/z 45 ion beams are accounted for before \u03b415N values are reported.",
      "description": "viii, 35 p.",
      "publisher": {
        "@type": "Organization",
        "name": "U.S. Geological Survey"
      },
      "author": [
        {
          "@type": "Person",
          "name": "Qi, Haiping haipingq@usgs.gov",
          "givenName": "Haiping",
          "familyName": "Qi",
          "email": "haipingq@usgs.gov",
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              "name": "National Research Program - Eastern Branch",
              "url": "https://www.usgs.gov/centers/arizona-water-science-center"
            }
          ]
        },
        {
          "@type": "Person",
          "name": "Coplen, Tyler B. tbcoplen@usgs.gov",
          "givenName": "Tyler B.",
          "familyName": "Coplen",
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              "name": "WMA - Earth System Processes Division",
              "url": "https://www.usgs.gov/mission-areas/water-resources"
            },
            {
              "@type": "Organization",
              "name": "National Water Quality Program",
              "url": "https://www.usgs.gov/programs/national-water-quality-program"
            },
            {
              "@type": "Organization",
              "name": "WMA - Laboratory & Analytical Services Division",
              "url": "https://www.usgs.gov/mission-areas/water-resources"
            },
            {
              "@type": "Organization",
              "name": "National Research Program - Eastern Branch",
              "url": "https://www.usgs.gov/centers/arizona-water-science-center"
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        },
        {
          "@type": "Person",
          "name": "Hannon, Janet E. jehannon@usgs.gov",
          "givenName": "Janet E.",
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          "email": "jehannon@usgs.gov"
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          "@type": "Person",
          "name": "Revesz, Kinga",
          "givenName": "Kinga",
          "familyName": "Revesz"
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          "@type": "Person",
          "name": "Casciotti, Karen",
          "givenName": "Karen",
          "familyName": "Casciotti"
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      "funder": [
        {
          "@type": "Organization",
          "name": "Reston Stable Isotope Laboratory",
          "url": "https://www.usgs.gov/labs/reston-stable-isotope-laboratory"
        }
      ]
    }
  }
}

Latest revision as of 02:33, 15 August 2024

{

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     "name": "Determination of the \u03b415N and \u03b418O of nitrate in water; RSIL lab code 2900",
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     "abstract": "The purpose of the Reston Stable Isotope Laboratory (RSIL) lab code 2900 is to determine the \u03b415N and \u03b418O of nitrate (NO3-) in water. The \u03b415N and \u03b418O of the dissolved NO3- are analyzed by converting the NO3- to nitrous oxide (N2O), which serves as the analyte for mass spectrometry. A culture of denitrifying bacteria is used in the enzymatic conversion of the NO3- to N2O, which follows the pathway shown in equation 1: NO3- \u2192 NO2- \u2192 NO \u2192 1/2 N2O     (1) Because the bacteria Pseudomonas aureofaciens lack N2O reductive activity, the reaction stops at N2O, unlike the typical denitrification reaction that goes to N2. After several hours, the conversion is complete, and the N2O is extracted from the vial, separated from volatile organic vapor and water vapor by an automated -65 \u00b0C isopropanol-slush trap, a Nafion drier, a CO2 and water removal unit (Costech #021020 carbon dioxide absorbent with Mg(ClO4)2), and trapped in a small-volume trap immersed in liquid nitrogen with a modified Finnigan MAT (now Thermo Scientific) GasBench 2 introduction system. After the N2O is released, it is further purified by gas chromatography before introduction to the isotope-ratio mass spectrometer (IRMS). The IRMS is a Thermo Scientific Delta V Plus continuous flow IRMS (CF-IRMS). It has a universal triple collector, consisting of two wide cups with a narrow cup in the middle; it is capable of simultaneously measuring mass/charge (m/z) of the N2O molecule 44, 45, and 46. The ion beams from these m/z values are as follows: m/z = 44 = N2O = 14N14N16O; m/z = 45 = N2O = 14N15N16O or 14N14N17O; m/z = 46 = N2O = 14N14N18O. The 17O contributions to the m/z 44 and m/z 45 ion beams are accounted for before \u03b415N values are reported.",
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