Origen, potential and water quality of a perennial spring in Juárez city mountains, Chihuahua, México

International Journal of Hydrology Pub Date : 2021-07-08 DOI:10.15406/ijh.2021.05.00276

David Zúñiga- de León, Miguel Domínguez Acosta

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Abstract

A Small Perched Perennial Spring has been used for Irrigation for 25 years. With an area of 23.3 ha its water potential basin varies from 90.7 to 979 m3/day so water conductivity of (k=62 cm/day producing between 0.30 to 3.17 lt/sec for lowest to highest rain return period (PR1 to PR100). Water Quantity and Hydraulic conductivity already mentioned were evaluated: Firstly, RPS structure were formed for 100 m of thick impervious lowermost member Lagrima Formation (Kli) overloading for a medium porosity (Klm, Klu) as well as high porosity of Finlay and del Norte Formations (Kf, Kdn). Secondly, Rainfall-Runoff-Recession hydrology model with Recession constant of 0.6 and ratio to pick of 0.2 in the threshold were used trough the simulation. Thus, Base (underground) and Direct (surface) runoff were separated. Finally, water quality and its interaction with host rocks were performed so; two water samples were collected and studied. Both samples were qualified as: Calcic-Bicarbonated (6f-C2) with low salinization risk (C3-S2). Therefore, water could be used for irrigation. In addition, water interaction among Cretaceous rocks of Sierra de Juárez as Lagrima (Kl), Finlay (Kf) and del Norte (Kdn) formations suggests three cases; One; If Calcium reduces Sodium increases given a sodic shale-slate system as: Ca2+HCO3+shales+Na+→Na++HCO3+shales+Ca2, this suggests that water have been confined by rock sourced Cretaceous Lagrima formation (Kli). Two, RPS overloaded recharge layers; Finlay (Kf) and (Kdn) with high karstification potential as high porosity is evident so: Three. If Na+ differ from Cl- thus, the cationic exchange has more Na+ than Cl- so more risk to karstification arises as mentioned before.

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墨西哥奇瓦瓦州Juárez城市山区多年生泉水的成因、潜力和水质

一个小栖息的多年生泉水已经被用于灌溉25年了。其面积为23.3公顷，水势盆地变化范围为90.7至979立方米/天，因此水电导率(k=62厘米/天)在最低至最高降雨恢复期(PR1至PR100)产生0.30至3.17 lt/秒。首先，在中等孔隙度(Klm, Klu)和高孔隙度的Finlay和del Norte地层(Kf, Kdn)中，在100 m厚的不透底层Lagrima地层(Kli)超载下形成RPS结构。其次，通过模拟，采用了Recession常数为0.6，阈值比为0.2的降雨-径流-衰退水文模型。因此，基础径流(地下)和直接径流(地表)被分离。最后，对水质及其与宿主岩的相互作用进行了分析;收集并研究了两种水样。两份样品均符合:碳酸氢钙(6f-C2)，低盐化风险(C3-S2)。因此，水可以用于灌溉。此外，Sierra de Juárez白垩纪Lagrima (Kl)、Finlay (Kf)和del Norte (Kdn)组的水相互作用表明了三种情况;一个;如果在钙+HCO3+页岩+Na+→Na++HCO3+页岩+Ca2的盐质页岩-板岩系统中，钙减少钠增加，则表明水被白垩纪岩源Lagrima地层(Kli)所限制。二、RPS过载回灌层;Finlay (Kf)和(Kdn)具有明显的高孔隙度，具有较高的岩溶作用潜力。如果Na+与Cl-不同，则阳离子交换中Na+多于Cl-，因此如前所述，发生岩溶反应的风险更大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Hydrology

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