Spatial and Temporal Dynamics of Key Water Quality Parameters in a Thermal Stratified Lake Ecosystem: The Case Study of Lake Mead

IF 1.6 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Earth Interactions Pub Date : 2023-06-30 DOI:10.3390/earth4030025

Godson Ebenezer Adjovu, H. Stephen, Sajjad Ahmad

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引用次数: 3

Abstract

Lake Mead located in the Arizona–Nevada region of the Mohave Dessert is a unique and complex water system whose flow follows that of a warm monomictic lake. Although monomictic lakes experience thermal stratification for almost the entire year with a period of complete mixing, the lake on occasion deviates from this phenomenon, undergoing incomplete turnovers categorized with light stratifications every other year. The prolonged drought and growing anthropogenic activities have the potential to considerably impact the quality of the lake. Lake Mead and by extension the Boulder Basin receive cooler flow from the Colorado River and flow with varying temperatures from the Las Vegas Wash (LVW), which impacts its stratification and complete turnovers. This study analyzes four key water quality parameters (WQPs), namely, total dissolved solids (TDS), total suspended solids (TSS), temperature, and dissolved oxygen (DO), using statistical and spatial analyses to understand their variations in light of the lake stratifications and turnovers to further maintain its overall quality and sustainability. The study also evaluates the impacts of hydrological variables including in and out flows, storage, evaporation, and water surface elevation on the WQPs. The results produced from the analysis show significant levels of TDS, TSS, and temperature from the LVW and Las Vegas Bay regions compared with the Boulder Basin. LVW is the main channel for conveying effluents from several wastewater treatment facilities into the lake. We observed an increase in the levels of TDS, TSS, and temperature water quality in the epilimnion compared with the other layers of the lake. The metalimnion and the hypolimnion layer, however, showed reduced DO due to depletion by algal blooms. We observed statistically significant differences in the WQPs throughout various months, but not in the case for season and year, an indication of relatively consistent variability throughout each season and year. We also observed a no clear trend of influence of outflows and inflows on TDS, temperature, and DO. TSS concentrations in the lake, however, remained constant, irrespective of the inflows and outflows, possibly due to the settling of the sediments and the reservoir capacity.

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热分层湖泊生态系统中关键水质参数的时空动态——以米德湖为例

米德湖位于莫哈韦沙漠的亚利桑那州-内华达州地区，是一个独特而复杂的水系，其流量遵循温暖的单一湖泊。虽然单一湖泊几乎全年都经历热分层，并有一段完全混合的时期，但湖泊有时会偏离这种现象，每隔一年就会经历轻度分层分类的不完全翻转。长期的干旱和日益增加的人为活动有可能对湖泊的质量产生相当大的影响。米德湖和延伸到博尔德盆地，从科罗拉多河接收较冷的水流，从拉斯维加斯Wash (LVW)接收不同温度的水流，这影响了它的分层和完全的翻转。本研究分析了四个关键水质参数(WQPs)，即总溶解固体(TDS)、总悬浮固体(TSS)、温度和溶解氧(DO)，利用统计和空间分析方法了解它们在湖泊分层和流动中的变化，以进一步保持湖泊的整体质量和可持续性。该研究还评估了包括进出流量、储存量、蒸发和水面海拔等水文变量对WQPs的影响。分析结果显示，与博尔德盆地相比，LVW和拉斯维加斯湾地区的TDS、TSS和温度水平显著提高。LVW是将几个污水处理设施的污水排入湖中的主要渠道。我们观察到，与湖泊其他层相比，epilimion的TDS, TSS和温度水质水平有所增加。然而，由于藻华的消耗，金属离子和低铁离子层显示出DO的减少。我们观察到不同月份的wqp在统计上有显著差异，但在季节和年份中没有差异，这表明在每个季节和年份中相对一致的变异性。我们还观察到流出和流入对TDS、温度和DO的影响没有明显的趋势。然而，湖中的TSS浓度保持不变，与流入和流出无关，这可能是由于沉积物的沉淀和水库的容量。

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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来源期刊

Earth Interactions 地学-地球科学综合

CiteScore

2.70

自引率

5.00%

发文量

审稿时长

>12 weeks

期刊介绍： Publishes research on the interactions among the atmosphere, hydrosphere, biosphere, cryosphere, and lithosphere, including, but not limited to, research on human impacts, such as land cover change, irrigation, dams/reservoirs, urbanization, pollution, and landslides. Earth Interactions is a joint publication of the American Meteorological Society, American Geophysical Union, and American Association of Geographers.