地下水
地下水
지하수
GROUNDWATER
2014年
4期
58-62
,共5页
地下河%水文地球化学%重庆市雪玉洞
地下河%水文地毬化學%重慶市雪玉洞
지하하%수문지구화학%중경시설옥동
Subterranean river%hydro-geochemistry%Xueyue Cave in Chongqing
以重庆市丰都县雪玉洞为研究对象,对地下河的水化学指标进行长期监测,并选取水鸣洞做平行研究,二者都属于雪玉洞群。通过对2011年11月-2013年2月的水化学结果进行分析得知:雪玉洞地下河的水化学类型为HCO3-Ca型,属于低矿化度岩溶水,水鸣洞水化学类型与雪玉洞相同;其主要水化学指标均表现出明显的季节变化趋势,pH值雨季低,旱季高,与降水变化趋势相反。地下河水 Ca2+、Mg2+、HCO3-浓度和电导率在雨季升高而旱季降低,旱季水鸣洞的HCO3-、Ca2+、Mg2+和Ec值高于雪玉洞;[ Mg2+]/[ Ca2+]表现出旱季较高而雨季较低的季节变化特征,可以反映外界干湿变化,其值受控于洞穴水运移过程中的的水土-水岩作用过程,旱季水鸣洞的值高于雪玉洞;SIc值旱季高雨季低,pCO2的变化趋势与pH相似、和SIc相反,旱季低雨季高,全年的SIc值大部分都在0之上,有利于碳酸盐的沉积,水鸣洞的SIc除2013年1月低于雪玉洞以外,其他月份略高于雪玉洞,相对应的 pCO2低于雪玉洞各监测点。
以重慶市豐都縣雪玉洞為研究對象,對地下河的水化學指標進行長期鑑測,併選取水鳴洞做平行研究,二者都屬于雪玉洞群。通過對2011年11月-2013年2月的水化學結果進行分析得知:雪玉洞地下河的水化學類型為HCO3-Ca型,屬于低礦化度巖溶水,水鳴洞水化學類型與雪玉洞相同;其主要水化學指標均錶現齣明顯的季節變化趨勢,pH值雨季低,旱季高,與降水變化趨勢相反。地下河水 Ca2+、Mg2+、HCO3-濃度和電導率在雨季升高而旱季降低,旱季水鳴洞的HCO3-、Ca2+、Mg2+和Ec值高于雪玉洞;[ Mg2+]/[ Ca2+]錶現齣旱季較高而雨季較低的季節變化特徵,可以反映外界榦濕變化,其值受控于洞穴水運移過程中的的水土-水巖作用過程,旱季水鳴洞的值高于雪玉洞;SIc值旱季高雨季低,pCO2的變化趨勢與pH相似、和SIc相反,旱季低雨季高,全年的SIc值大部分都在0之上,有利于碳痠鹽的沉積,水鳴洞的SIc除2013年1月低于雪玉洞以外,其他月份略高于雪玉洞,相對應的 pCO2低于雪玉洞各鑑測點。
이중경시봉도현설옥동위연구대상,대지하하적수화학지표진행장기감측,병선취수명동주평행연구,이자도속우설옥동군。통과대2011년11월-2013년2월적수화학결과진행분석득지:설옥동지하하적수화학류형위HCO3-Ca형,속우저광화도암용수,수명동수화학류형여설옥동상동;기주요수화학지표균표현출명현적계절변화추세,pH치우계저,한계고,여강수변화추세상반。지하하수 Ca2+、Mg2+、HCO3-농도화전도솔재우계승고이한계강저,한계수명동적HCO3-、Ca2+、Mg2+화Ec치고우설옥동;[ Mg2+]/[ Ca2+]표현출한계교고이우계교저적계절변화특정,가이반영외계간습변화,기치수공우동혈수운이과정중적적수토-수암작용과정,한계수명동적치고우설옥동;SIc치한계고우계저,pCO2적변화추세여pH상사、화SIc상반,한계저우계고,전년적SIc치대부분도재0지상,유리우탄산염적침적,수명동적SIc제2013년1월저우설옥동이외,기타월빈략고우설옥동,상대응적 pCO2저우설옥동각감측점。
Taking Xueyu Cave, which is located in Fnengdu county, Chonqing, as an example of the studied subject, the paper monitors subterranean rivers in this region for a long time to collect hydrochemistrical indexes of it. At the same time, parallel study on Shuiming Cave, which also belongs to Xueyu Cave group, is taken. The analysis of hydro-geochemistrical data collected form November 2011 to February 2013 indicates two points: first, subterranean rivers flow through Xueye Cave and Shuiming Cave are the HCO3 -Ca type,a kind of karstic water with low degree of mineralizaiton; Second, hydrochemistri-cal indexes varies with seasons, which is presented as a high PH in dry seasons and a low PH in rainy seasons. To be specific, in rainy seasons, the content of Ca2+, Mg2+ and HCO3 - increase and leads to a good electrical conductivity. In dry seasons, the content of Ca2+, Mg2+, HCO3 - and Ec of Shuiming Cave is higher than that of Xueyu Cave. Therefore, the change envi-ronmental humidity could be estimated according to the variation of [ Mg2+]/[ Ca2+] content, which is affected by the inter-actions between water, soil and rocks during the water movement. Moreover, SIc goes high in dry seansons and keeps low in rainy season . The variation of pCO2 is similar to PH and is opposite to SIc. The SIc is almost above zero around the year, which is beneficial to the carbonate sedimentation. Except the SIc measured in January 2013, it of Shuiming Cave is always higher than that of Xueyu Cave.
