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Dating with Isotopes

Dating with Isotopes. Mark Williams, CU-Boulder. AGE-DATING BASICS. The term "age" sometimes creates the impression that the number represents a simple piston flow transit time of a small water parcel. Despite the prevalent use of this term, isotope

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Dating with Isotopes

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  1. Dating with Isotopes Mark Williams, CU-Boulder

  2. AGE-DATING BASICS The term "age" sometimes creates the impression that the number represents a simple piston flow transit time of a small water parcel. Despite the prevalent use of this term, isotope hydrologists understand that the water sample measured represents the integrated travel time through that aquifer or other water body "age" and "mean residence time" are used interchangeably.

  3. Radioactive Isotopes Radioactive isotopes are nuclides (isotope-specific atoms) that have unstable nuclei that decay, emitting alpha, beta, and sometimes gamma rays. Such isotopes eventually reach stability in the form of nonradioactive isotopes of other chemical elements, their "radiogenic daughters." Decay of a radionuclide to a stable radiogenic daughter is a function of time measured in units of half-lives.

  4. Tritium Helium-3 Carbon-14 Sulphur-35 Lead Isotopes I’ll emphasize today http://www.sahra.arizona.edu/programs/isotopes/

  5. 35S http://www.sahra.arizona.edu/programs/isotopes/

  6. http://www.sahra.arizona.edu/programs/isotopes/

  7. How can I date recent groundwaters (<100 years)? Sulphur-35 (35S) Tritium Helium-3 Lead (Pb)

  8. 35S: APPLICATIONS FOR WATERSHED HYDROLOGY 1. ESTIMATE AGE OF WATER Very effective for time scale less than one year Few other environmental tracers can do this 2. DISCRIMINATE “NEW” vs. “OLD” WATER SOURCES Particularly good for identifying new snow/rain in groundwater 3. DATE AGE OF SULFATE Date age of atmospheric –deposited sulfate less than one year old 4. DISCRIMINATE ATMOSHPERIC FROM GEOCHEMICAL SOURCES OF SULFATE

  9. Sulfur-35 (35S) IN THE ENVIRONMENT Radioactive isotope of sulfate Half-life of about 87 days Produced by spallation of argon atoms in the atmosphere by cosmic rays 18Ar N=22 35 S N=16 Cosmic Rays O2 SO2 35SO42- 35SO42- SO42-

  10. 35S: UNITS AND VALUES UNITS: Generally reported as millebecquerels per Liter (mBq/L) millebecquerels per mgSO4 (mBq/ mgSO4) CONCENTRATIONS: Snowfall  60 mBq/L Snowmelt  20 mBq/L because of decay of snowpack Rain(Summer)  100 mBq/L FACTORS- extent of atmospheric mixing of stratospheric air into troposphere; greatest in summer

  11. 35S: Collection and Analysis Sample Collection Need 1-20 Liters of sample (depending on amount of SO42-) pass sample through ion exchange resin in the field elute SO42- from resin with barium chloride final volume  100 ml Sample Analysis Liquid scintillation counting (same as tritium) Count twice, about 4 months apart as part of QA/QC Potential problem: other radioactive sources

  12. 35S: Cost About $400/sample Ain’t cheap! Dr. Robert Michel Chief of the Tritium Lab USGS Menlo Park, California Ph 650/329-4547, (rlmichel@usgs.gov) University of Waterloo Environmental Isotope Laboratory http://www.science.uwaterloo.ca/research/eilab/ Tracing sources of streamwater sulfate during snowmelt using S and O isotope ratios of sulfate and S-35 activity, Shanley JB, Mayer B, Mitchell MJ, et al. BIOGEOCHEMISTRY V76 N1 Pp: 161-18, 2005 Use of cosmogenic S-35 for comparing ages of water from three alpine-subalpine basins in the Colorado Front Range, Sueker JK, Turk JT, Michel RL, GEOMORPHOLOGY V27 N1-2 pp61-74, 1999

  13. TRITIUM (3H) Radio isotope of hydrogen Tritium decays to a rare, stable isotope of helium (3He) by beta emission. Produced primarily by a) cosmic rays spallation of nitrogen produces about 3.5 kg at steady state (around 11 TU today) b) nuclear weapons testing has resulted in approximately 80 kg of tritium at this time Units: Tritium Units (TU) 1TU = 1 3H per 1018 hydrogen atoms

  14. TRITIUM SPALLATION IN ATMOSPHERE Cosmic Rays 14N N=7 12 C N=6 + 3H 3H20 atmospheric O2

  15. TRITIUM CONCENTRATIONS IN PRECIPITATION

  16. Hydrological Applications Dating water sources Tracer Can separate groundwater (eg aquifer) that has waters of multiple ages

  17. Hydrology Sources directly fed by recent rainwater/snowmelt will contain the same tritium values as that rainwater/snowmelt Trapped aquifers will have no tritium (older than 60 years) Water traveling slowly through aquifers will have reduced tritium (< 10 TU) or elevated tritium from bomb spike in the 1960’s

  18. http://homepages.uni-tuebingen.de/wolfgang.siebel/pdffiles/aeg_5.pdfhttp://homepages.uni-tuebingen.de/wolfgang.siebel/pdffiles/aeg_5.pdf

  19. http://homepages.uni-tuebingen.de/wolfgang.siebel/pdffiles/aeg_5.pdfhttp://homepages.uni-tuebingen.de/wolfgang.siebel/pdffiles/aeg_5.pdf

  20. Age-dating using tritium decay rates Nt = N0e-lt l = ln (2/ T(1/2)) T(1/2) is the half-life N = Number of atoms 0 = initial time t = at some time “t” T(1/2)) = 12.33 years

  21. General Guidelines for Tritium Ages <0.8 TU 0.8-4 TU 5-15 TU 15 - 30 TU >30 TU >50 TU submodern (prior to 1950s) mix of submodern and modern modern (<5 to 10 years) some bomb tritium recharge in the 1960's to 1970's recharge in the 1960's

  22. TRITIUM: SAMPLE COLLECTION Need  1L of water glass or HDPE (glass only if stored) no filtering seal bottles after collection Easy and simple

  23. TRITIUM: ANALYSIS liquid scintillation counting distill sample in Ostlund electrolysis cell to increase concentration of 3H mix with scintillation cocktail count with a Packard CA 2000 scintillation counter detection limit at one sigma  0.3-1.0 TU precision = 3% Lab-dependent! Be aware

  24. TRITIUM: ANALYTICAL COST About $150-190/sample Dr. Robert Michel Chief of the Tritium Lab USGS Menlo Park, California Ph 650/329-4547, rlmichel@usgs.gov): University of Waterloo Environmental Isotope Laboratory http://www.science.uwaterloo.ca/research/eilab/ Be aware of precision, accuracy, turn-around times

  25. 3H and 3He/3H Ages In principle, the measurement of both 3H and its decay product, 3He, allows a "true" mean age (referred to hereafter as the 3He/3H age) to be obtained

  26. 3He/3H age: Precise age determination By measuring 3H together with its daughter 3He, more precise “apparent” ages can be determined Importantly, you do not have to know the initial value of tritium

  27. 3H and 3He/3H Ages, Rising River The measured 3H concentration at the Rising River springs is 4.23±0.5 TU (Rose et al 1995), which implies a mean groundwater age of about 7-9 years. The measured 3He/3H age is 20.5 years (Rose et al 1995), which implies a groundwater age of about 8 years using the exponential model (Manga, 2001).

  28. 3He/3H age: Not all roses There are a number of corrections that need to be made For example, the measured 3He must be corrected for atmospheric 3He that is dissolved at the time of recharge. There are standard methods of dealing with these necessary corrections

  29. 3He/3H age: Sample Collection Samples are collected in 3/8" diameter copper tubes, clamped at both ends. IMPORTANT: samples can only be collected from waters that have NOT mixed with the atmosphere since recharge Groundwater wells Springs Otherwise, reset with present tritium/helium values Need an expert to collect samples

  30. 3He/3H age: Cost $700-1,000/sample RSMAS Laboratory http://www.rsmas.miami.edu/groups/tritium/ Ain’t cheap. Takes several months

  31. Lead Isotopes

  32. Lead: Hydrological Applications Dating sediment cores: use 210Pb to date recent deposition of snow, lake sediments, etc. 210Pb has a half-life of 22.3 years, allowing dating within the past 100 years. The distinct isotopic composition of lead ratios in surface and groundwaters to identify pollution sources determining the relative importance in stream/ground water of atmospheric Pb (which concentrates in the upper soil layers) versus the Pb in groundwater that is derived from chemical weathering processes.

  33. Uranium Isotopes: Mixing Diagram Mine Water Stream Monitoring Well

  34. Uranium Isotopes Can be quite handy for those dealing with uranium-related contamination problems Particularly where there is high natural levels of U Generally plot the 234U/238U activity ratio (y-axis) versus the inverse of uranium concentrations (1/U) The resulting diagram may show distinct source waters which can help unravel source water/flowpath sources of uranium

  35. Exponential Flow/Box ModelUse non-radiogenic isotopes: 18O (Plummer et al., 2001)

  36. Box-Model Benefits Can use any isotope to derive “recent” mean residence times By measuring stable water isotopes in precipitation and wells/springs, we can solve for the residence time of water in the subsurface reservoir Estimate water “age” without using radiogenic isotopes 18O at $40/sample much less expensive than tritium

  37. Carbon-14 (14C) date groundwaters 100 to 40,000 years in age the dissolved inorganic carbon DIC = CO2(aq)+HCO3-+CO32- organic carbon (DOC)

  38. Carbon-14 (14C): DIC Provide information on water travel time Because carbon is not conservative, the C-14 ages need to be corrected for geochemical reactions Geochemical modeling--corrected C-14 ages NETPATH is a commonly used model

  39. Carbon-14 (14C): DOC DOC calculated groundwater ages provide a groundwater age estimate independent of DIC model corrected ages DOC ages do not need to be corrected for geochemical reactions with carbon containing phases DOC ages represent groundwater ages since being recharged, not travel times DOC C-14 ages are generally older than DIC ages DOC ages place an independent constraint on DIC ages

  40. Carbon-14 (14C) and Hydrology Radiocarbon dating of groundwater provides a mechanism to monitor, understand and control exploitation of an aquifer. 14C dating can help determine whether a community is mining their water resources. When the appropriate field measurements are collected and appropriate corrections are applied for dilution, 14C measurements can provide insight into: groundwater flow paths recharge areas and sources of recharge.

  41. Carbon-14 (14C): DIC Analysis NOSAMS: National Ocean Sciences Accelerator Mass Spectrometry Facility at Woods Hole http://nosams.whoi.edu/ About $300 per sample; 8 week turnaround They prefer their own DIC sample collection vessel, a 500 ml borosilicate glass bottle with a high-quality ground-glass stopper. You can obtain directly from them.

  42. Carbon-14 (14C): DOCUSGS protocol Hydrochloric acid– remove all DIC (pH<3) Evaporate water sample to dryness– “Evapotron” Combust salts and OM– CO2 gas and other gases Remove H2O and SO2 gas– Ethanol liquid nitrogen slush trap Carbon-13– Mass Spectrometer Graphite target Carbon-14– Tandem Accelerator

  43. Forensic Hydrology gone bad:129I, 36Cl, and stable isotope results from the Fruitland Formation, CO and NM Determined that waters in coalbed methane deposits were lithogenic, deposited during Laramide Orogeny Results do not support models of subsequent basin-wide groundwater migration in the Fruitland Formation CBM extraction no potential harm to groundwater “The combined use of 129I and 36Cl, with stable isotope studies provides valuable information as to the hydrologic history of coalbed methane deposits, as well as their potential for commercial exploitation.”Snyder et al., 2003

  44. 129I and 36Cl gone wrong 4He dates around 35,000 years old 14C dates around 35,000 years old 129I and 36Cl dates wrong. Why? These isotopic dates can be “reset” Variable degrees of mixing of end-members of different isotopic composition Snyder and Fabryka-Martin, 2007 wrote new paper to save face after the work above showed that the Snyder et al., 2003 paper was wrong. Be careful with 129I and 36Cl dates!

  45. Summary Radio-isotopes provide the ability to date the average residence time of water Different isotopes provide different ages Somewhat expensive May require complex collection/post-processing Provides unique information that can address applied/legal questions

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