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¡¶µØÇò¿ÆѧÓë»·¾³Ñ§±¨¡·[ISSN:1672-6561/CN:61-1423/P]

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ÆÚÊý:

2016ÄêµÚ03ÆÚ

Ò³Âë:

387-397

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2016-05-15

ÎÄÕÂÐÅÏ¢/Info

Title:

New Precipitation Method Sampling Procedure of ¹⁴C Dating of Groundwater and the Evaluation of the Formerly-obtained 14C Dating Results

ÎÄÕ±àºÅ:

1672-6561(2016)03-0387-11

×÷Õß:

Æë¼ÌÏé; ÕÅÖ®äÆ; ÅíÓñÈÙ; ¹ù»ªÁ¼; ¶Î±¦Ç«

1.ÖйúµØÖÊ¿ÆѧԺˮÎĵØÖÊ»·¾³µØÖÊÑо¿Ëù,ºÓ±± ʯ¼Òׯ 050061; 2.ÖйúµØÖÊ¿ÆѧԺÑÒÈܵØÖÊÑо¿Ëù,¹ãÎ÷ ¹ðÁÖ 541004

Author(s):

QI Ji-xiang;  ZHANG Zhi-gan;  PENG Yu-rong;  GUO Hua-liang;  DUAN Bao-qian

1. Institute of Hydrogeology and Environmental Geology, Chinese Academy of Geological Sciences, Shijiazhuang 050061, Hebei, China; 2. Institute of Karst Geology, Chinese Academy of Geological Sciences, Guilin 541004, Guangxi, China

¹Ø¼ü´Ê:

µØÏÂË®;  ¹⁴C²âÄê; Æ«²î; ´óÆøCO₂ÎÛȾ; ²ÉÑù·½·¨; ²âÁ¿·½·¨; ²âÄêÉÏÏÞ; ºÓ±±Æ½Ô­

Keywords:

ground water;  ¹⁴C dating;  deviation;  atmospheric CO₂ pollution;  sampling method;  measurement method;  upper limit of dating;  Hebei Plainª¤

·ÖÀàºÅ:

P641ª¤

DOI:

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ÎÄÏ×±êÖ¾Âë:

A

ÕªÒª:

¹ú¼ÊÔ­×ÓÄÜ»ú¹¹ÍƼöµÄµØÏÂË®¹⁴C²âÄê³Áµí·¨²ÉÑù³ÌÐòÒòδÄÜÓÐЧ¿ØÖÆ´óÆøCO₂ÎÛȾ,³£Ê¹¹ÅÀϵØÏÂË®¹⁴C²âÄê½á¹ûÆ«ÄêÇáÐí¶à?ÔÚ·ÖÎö¿ÉÄÜ´æÔڵĴóÆøCO₂ÎÛȾ;¾¶¼°Ó°ÏìÒòËصĻù´¡ÉÏ,¿ª·¢ÁËÒ»ÖÖÈÚÈë¶àÖÖ´óÆøCO₂ÎÛȾ¿ØÖƼ¼ÊõµÄµØÏÂË®¹⁴C²âÄê³Áµí·¨²ÉÑùгÌÐò¡£Ð²ÉÑù³ÌÐòÔÚ±£³Ö²Ù×÷¼ò±ãµÄÇ°ÌáÏÂ,ʹ´óÆøCO₂ÎÛȾµÃµ½ÓÐЧ¿ØÖÆ;ͨ¹ýרÃÅÉè¼ÆµÄÑùƷƿʵÏÖÁ˲ÉÑù³ÌÐòÓëÖÆÑù³ÌÐòµÄÓÐЧÏνÓ,ÓÐÀûÓÚ½µµÍÖÆÑù³ÌÐòÖеĴóÆøCO₂ÎÛȾ¡£ÒÔ±½ºÏ³ÉÒºÌåÉÁ˸¼ÆÊý·¨²â¶¨¹⁴C±È»î¶È,вÉÑù³ÌÐòʹ¹ÅÀϵØÏÂË®¹⁴C²âÄê½á¹û(ÔÚ²âÄêÉÏÏÞ50¡Á10³ÄêÒÔÄÚ)²»ÔÙ²úÉú¿Éʶ±ðµÄÆ«²î¡£ÔÚºÓ±±Æ½Ô­µØÏÂË®¹⁴C²âÄê²ÉÑùÖеijõ²½Ó¦ÓÃÏÔʾ,ÔçÆÚÈ¡µÃµÄ¹ÅÀϵØÏÂË®¹⁴C²âÄê½á¹û´æÔڽϴóµÄ¸ºÆ«²î,ÀýÈç¶Ô¹⁴C±í¹ÛÄêÁäԼΪ47¡Á10³ÄêµÄµØÏÂË®,¿ÉÆ«ÄêÇá20¡Á10³ÄêÒÔÉÏ¡£Òò´Ë,ÓбØÒª¶ÔÒÔÍùÈ¡µÃµÄ¹ÅÀϵØÏÂË®¹⁴C²âÄê½á¹û¼°Óɴ˵óöµÄÑо¿½áÂÛÊÇ·ñ¿É¿¿ÖØнøÐÐÆÀ¹À¡£µØÏÂË®¹⁴C²âÄê³Áµí·¨²ÉÑùгÌÐòµÄÍƳöʹ´«Í³·ÅÉäÐÔ²âÁ¿·¨ÖØеõ½ÖØÊÓ,Òò²ÉÓõÄÑùÆ·Á¿Ç§±¶ÓÚ¼ÓËÙÆ÷ÖÊÆ×·¨,ʹÖÆÑù³ÌÐòÖеĴóÆøCO₂ÎÛȾ¸üÒ׿ØÖÆ,¹ÅÀϵØÏÂË®¹⁴C²âÄê½á¹û¸ü¾ß¿É¿¿ÐÔ¡£

Abstract:

The precipitation method sampling procedure of ¹⁴C dating of groundwater recommended by IAEA is suffering from atmospheric CO₂  pollution. As a result, the dating results tend to be much younger. After analyzing the possible sources of atmospheric CO₂  pollution and related influencing factors, a state-of-the-art precipitation method sampling procedure of ¹⁴C dating of groundwater was developed to reduce the atmospheric CO₂  pollution. This sampling procedure not only integrates various CO₂  pollution controlling techniques, but also enjoys easy operation. A specially-designed sample bottle links the field sampling operation and the sample preparing operation effectively. After adopting the new procedure, the negative deviations of the dating results obtained by using benzene-synthesis-liquid-scintillation spectrometer (for the dating results below the upper limit of 50 000 years) are negligible. By comparing the previouslyª²obtained ¹⁴C dating results of ancient groundwater with the results obtained by adopting the new sampling procedure in Hebei Plain, the former exists significant negative deviations. For the groundwater with ¹⁴C apparent age of approximately 47¡Á10³ years, the dating results tend to be more than 20¡Á10³ years younger. Therefore, it is necessary to conduct new evaluations for the formerly-obtained ¹⁴C dating results of ancient groundwater and the research conclusions based on the dating results. The new precipitation method sampling procedure of ¹⁴C dating of groundwater makes researchers attach importance to the traditional radioactivity measurement method again. Because the sampling quantity is a thousand times more than accelerator mass-spectrometry, it is easier to control the atmospheric CO₂ pollution during sample preparation, and the ¹⁴C dating results of ancient groundwater are more reliable.ª¤

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ÊÕ¸åÈÕÆÚ:2016-01-18
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¸üÐÂÈÕÆÚ/Last Update: 2016-06-02