In situ cosmogenic super(10)Be production-rate calibration from the Southern Alps, New Zealand

We present a super(10)Be production-rate calibration derived from an early Holocene debris-flow deposit at about 1000 m above sea level in the central Southern Alps, New Zealand, in the mid-latitude Southern Hemisphere. ten radiocarbon ages on macrofossils from a soil horizon buried by the deposit d...

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Veröffentlicht in:	Quaternary geochronology 2010-08, Vol.5 (4), p.392-409
Hauptverfasser:	Putnam, A E, Schaefer, J M, Barrell, DJA, Vandergoes, M, Denton, G H, Kaplan, M R, Finkel, R C, Schwartz, R, Goehring, B M, Kelley, SE
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container_title	Quaternary geochronology
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creator	Putnam, A E Schaefer, J M Barrell, DJA Vandergoes, M Denton, G H Kaplan, M R Finkel, R C Schwartz, R Goehring, B M Kelley, SE
description	We present a super(10)Be production-rate calibration derived from an early Holocene debris-flow deposit at about 1000 m above sea level in the central Southern Alps, New Zealand, in the mid-latitude Southern Hemisphere. ten radiocarbon ages on macrofossils from a soil horizon buried by the deposit date the deposit to 9690 +/- 50 calendar years before AD2008. Surface super(10)Be concentrations of seven large boulders partially embedded in the stable surface of the deposit are tightly distributed, yielding a standard deviation of [not, vert, similar]2%. Conversion of the super(10)Be measurements to sea level/high-latitude values using each of five standard scaling methods indicates super(10)Be production rates of 3.84 +/- 0.08, 3.87 +/- 0.08, 3.83 +/- 0.08, 4.15 +/- 0.09, and 3.74 +/- 0.08 atoms g super(-1) a super(-1), relative to the '07KNSTD' super(10)Be AMS standard, and including only the local time-integrated production-rate uncertainties. When including a sea level high-latitude scaling uncertainty the overall error is [not, vert, similar]2.5% (1[sigma]) for each rate. To test the regional applicability of this production-rate calibration, we measured super(10)Be concentrations in a set of nearby moraines deposited before 18 060 +/- 200 years before AD2008. The super(10)Be ages are only consistent with minimum-limiting super(14)C age data when calculated using the new production rates. This also suggests that terrestrial in situ cosmogenic-nuclide production did not change significantly from Last Glacial Maximum to Holocene time in New Zealand. Our production rates agree well with those of a recent calibration study from northeastern North America, but are 12-14% lower than other commonly adopted values. The production-rate values presented here can be used elsewhere in New Zealand for rock surfaces exposed during or since the last glacial period.
doi_str_mv	10.1016/j.quageo.2009.12.001
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Surface super(10)Be concentrations of seven large boulders partially embedded in the stable surface of the deposit are tightly distributed, yielding a standard deviation of [not, vert, similar]2%. Conversion of the super(10)Be measurements to sea level/high-latitude values using each of five standard scaling methods indicates super(10)Be production rates of 3.84 +/- 0.08, 3.87 +/- 0.08, 3.83 +/- 0.08, 4.15 +/- 0.09, and 3.74 +/- 0.08 atoms g super(-1) a super(-1), relative to the '07KNSTD' super(10)Be AMS standard, and including only the local time-integrated production-rate uncertainties. When including a sea level high-latitude scaling uncertainty the overall error is [not, vert, similar]2.5% (1[sigma]) for each rate. To test the regional applicability of this production-rate calibration, we measured super(10)Be concentrations in a set of nearby moraines deposited before 18 060 +/- 200 years before AD2008. The super(10)Be ages are only consistent with minimum-limiting super(14)C age data when calculated using the new production rates. This also suggests that terrestrial in situ cosmogenic-nuclide production did not change significantly from Last Glacial Maximum to Holocene time in New Zealand. Our production rates agree well with those of a recent calibration study from northeastern North America, but are 12-14% lower than other commonly adopted values. 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Surface super(10)Be concentrations of seven large boulders partially embedded in the stable surface of the deposit are tightly distributed, yielding a standard deviation of [not, vert, similar]2%. Conversion of the super(10)Be measurements to sea level/high-latitude values using each of five standard scaling methods indicates super(10)Be production rates of 3.84 +/- 0.08, 3.87 +/- 0.08, 3.83 +/- 0.08, 4.15 +/- 0.09, and 3.74 +/- 0.08 atoms g super(-1) a super(-1), relative to the '07KNSTD' super(10)Be AMS standard, and including only the local time-integrated production-rate uncertainties. When including a sea level high-latitude scaling uncertainty the overall error is [not, vert, similar]2.5% (1[sigma]) for each rate. To test the regional applicability of this production-rate calibration, we measured super(10)Be concentrations in a set of nearby moraines deposited before 18 060 +/- 200 years before AD2008. The super(10)Be ages are only consistent with minimum-limiting super(14)C age data when calculated using the new production rates. This also suggests that terrestrial in situ cosmogenic-nuclide production did not change significantly from Last Glacial Maximum to Holocene time in New Zealand. Our production rates agree well with those of a recent calibration study from northeastern North America, but are 12-14% lower than other commonly adopted values. 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Surface super(10)Be concentrations of seven large boulders partially embedded in the stable surface of the deposit are tightly distributed, yielding a standard deviation of [not, vert, similar]2%. Conversion of the super(10)Be measurements to sea level/high-latitude values using each of five standard scaling methods indicates super(10)Be production rates of 3.84 +/- 0.08, 3.87 +/- 0.08, 3.83 +/- 0.08, 4.15 +/- 0.09, and 3.74 +/- 0.08 atoms g super(-1) a super(-1), relative to the '07KNSTD' super(10)Be AMS standard, and including only the local time-integrated production-rate uncertainties. When including a sea level high-latitude scaling uncertainty the overall error is [not, vert, similar]2.5% (1[sigma]) for each rate. To test the regional applicability of this production-rate calibration, we measured super(10)Be concentrations in a set of nearby moraines deposited before 18 060 +/- 200 years before AD2008. The super(10)Be ages are only consistent with minimum-limiting super(14)C age data when calculated using the new production rates. This also suggests that terrestrial in situ cosmogenic-nuclide production did not change significantly from Last Glacial Maximum to Holocene time in New Zealand. Our production rates agree well with those of a recent calibration study from northeastern North America, but are 12-14% lower than other commonly adopted values. The production-rate values presented here can be used elsewhere in New Zealand for rock surfaces exposed during or since the last glacial period.</abstract><doi>10.1016/j.quageo.2009.12.001</doi></addata></record>
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title	In situ cosmogenic super(10)Be production-rate calibration from the Southern Alps, New Zealand
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