The Disappearing Lake: A Historical Analysis of Drought and the Salton Sea in the Context of the GeoHealth Framework

Doede, Aubrey L.; DeGuzman, Pamela B.

doi:10.1029/2020gh000271

Cited by 22 publications

(10 citation statements)

References 35 publications

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“…Salton Sea depletion was primarily caused by the decline in major tributaries inflows (i.e., New and Alamo Rivers and East Highline Canal). Several studies and reports (Barnum et al., 2017; Cohen, 2014; Congressional Research Service, 2021; Doede & DeGuzman, 2020; Scott et al., 2014) suggested that decline in the lake inflows is mostly due to four reasons: (a) Lack of precipitation due to drought, (b) decreasing agricultural return flows caused by more efficient irrigation methods in the Imperial Valley, (c) decline in flows from Mexico, and (d) increasing water transfers to San Diego County. The latter can only affect the SSTB water balance through direct reductions in the Colorado River allocations, causes of which are out of the scope of this study as the Colorado River Aqueduct transfers water to San Diego County from the Lake Havasu in Arizona.…”

Section: Resultsmentioning

confidence: 99%

“…Salton Sea depletion was primarily caused by the decline in major tributaries inflows (i.e., New and Alamo Rivers and East Highline Canal). Several studies and reports (Barnum et al, 2017;Cohen, 2014;Congressional Research Service, 2021;Doede & DeGuzman, 2020;Scott et al, 2014) suggested that decline in the lake inflows is mostly due to four reasons: In order to explore interrelationships between the main lake tributary inflows, the Colorado River inflows, and valley irrigation volumes, a hierarchical time series clustering approach was implemented to partition trend and seasonal components of variables into groups based on dynamic time warping similarity. Therefore, time series within a same cluster have similar patterns over time.…”

Section: Interrelationships Among Lake Depletion Irrigation and Impor...mentioning

confidence: 99%

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Identifying Major Hydrologic Change Drivers in a Highly Managed Transboundary Endorheic Basin: Integrating Hydro‐Ecological Models and Time Series Data Mining Techniques

Triana

Ajami

2022

Water Resources Research

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Endorheic basins and lakes play a crucial role in hydro-ecological functioning and aquatic biodiversity of arid and semiarid regions (Donnelly et al., 2020;Sheng, 2020). These ecosystems represent approximately 25% of Earth's land surface area and 50% of the world's water-stressed regions (J. Wang et al., 2018;Yapiyev et al., 2017), provide numerous ecosystem services to humans (e.g., water and food supply, pollutant retention, and recreation), and serve as critical habitats for aquatic, semiaquatic, and riparian wildlife and unique microorganisms (Oren, 2013;Zadereev et al., 2020). Despite the importance of endorheic basins for local and regional ecological functioning, they are one of the most threatened ecosystems in the world, with an increasing number of threatened and endangered species (Saccò et al., 2021;Zadereev et al., 2020). The endorheic lakes have shrunk globally at an alarming rate in recent decades due to the combined effects of global warming and long-term water misman agement to support agricultural and industrial demand, altering the fragile balance of these ecosystems. Recent hydrologic studies have shown that between 2002 and 2016, the global endorheic system has lost on average 106.3 Gt yr −1 of water storage, representing twice the loss observed in exorheic counterpart (J. Wang et al., 2018). While (freshwater) exorheic ecosystems have long been recognized as important resource, programs to protect (saline) endorheic lakes have been relegated significantly (Williams, 2002). Therefore, formulating mitigation strategies to restore and protect endorheic basins and lakes is urgent and imperative.Prior to formulating these strategies, it is crucial to understand and simulate the hydrologic response mechanisms of endorheic ecosystems to natural and anthropogenic stressors and identify the causal factors that have caused their environmental deterioration (Saccò et al., 2021). However, quantifying the relative contribution of climate variability and anthropogenic stressors in water budget dynamics of endorheic basins and lakes is challenging (Li et al., 2018). Hydrologic processes of highly managed agroecosystems are complex, and the lack of high-resolution spatial and temporal water budget data in endorheic basins with transboundary water issues further contributes to this problem. Water resources management under global warming hinders the efforts to solve water conflicts in

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Section: Resultsmentioning

confidence: 99%

“…Salton Sea depletion was primarily caused by the decline in major tributaries inflows (i.e., New and Alamo Rivers and East Highline Canal). Several studies and reports (Barnum et al, 2017;Cohen, 2014;Congressional Research Service, 2021;Doede & DeGuzman, 2020;Scott et al, 2014) suggested that decline in the lake inflows is mostly due to four reasons: In order to explore interrelationships between the main lake tributary inflows, the Colorado River inflows, and valley irrigation volumes, a hierarchical time series clustering approach was implemented to partition trend and seasonal components of variables into groups based on dynamic time warping similarity. Therefore, time series within a same cluster have similar patterns over time.…”

Section: Interrelationships Among Lake Depletion Irrigation and Impor...mentioning

confidence: 99%

Identifying Major Hydrologic Change Drivers in a Highly Managed Transboundary Endorheic Basin: Integrating Hydro‐Ecological Models and Time Series Data Mining Techniques

Triana

Ajami

2022

Water Resources Research

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“…Drought is a periodic and growing natural disaster that impacts extensive subject areas [1], including water resources [2,3] and crop yield [4][5][6], as well as a range of environmental systems [7], resulting in serious harm to ecological security and human society [8,9]. Over the past half-century, drought has become more and more serious all over the world [10], which has greatly reduced the productivity of grazing grasslands and artificial mowed grasslands.…”

Section: Introductionmentioning

confidence: 99%

Integrated Analysis of Single-Molecule Real-Time Sequencing and Next-Generation Sequencing Eveals Insights into Drought Tolerance Mechanism of Lolium multiflorum

Liu

Wang

Yang

et al. 2022

IJMS

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Lolium multiflorum is widely planted in temperate and subtropical regions globally, and it has high economic value owing to its use as forage grass for a wide variety of livestock and poultry. However, drought seriously restricts its yield and quality. At present, owing to the lack of available genomic resources, many types of basic research cannot be conducted, which severely limits the in-depth functional analysis of genes in L. multiflorum. Therefore, we used single-molecule real-time (SMRT) and next-generation sequencing (NGS) to sequence the complex transcriptome of L. multiflorum under drought. We identified 41,141 DEGs in leaves, 35,559 DEGs in roots, respectively. Moreover, we identified 1243 alternative splicing events under drought. LmPIP5K9 produced two different transcripts with opposite expression patterns, possibly through the phospholipid signaling pathway or the negatively regulated sugar-mediated root growth response to drought stress, respectively. Additionally, 13,079 transcription factors in 90 families were obtained. An in-depth analysis of R2R3-MYB gene family members was performed to preliminarily demonstrate their functions by utilizing subcellular localization and overexpression in yeast. Our data make a significant contribution to the genetics of L. multiflorum, offering a current understanding of plant adaptation to drought stress.

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“…The fine dry playa sediments of the shallow Great Salt Lake (GSL) to the northwest, the West Desert playa to the west, and Sevier Dry Lake playa to the south have been implicated as dust sources (Carling et al., 2020 ; Goodman et al., 2019 ; Skiles et al., 2018 ). Like other saline lakes globally, extractive water uses are shrinking the GSL (Doede & DeGuzman, 2020 ; Mallia et al., 2017 ; Wurtsbaugh et al., 2017 ). Local and national news coverage of the issue has highlighted that the expanding and increasingly weathered dry lakebed may increase fluxes of arsenic (As)—and other metal‐laden dust, further degrading already problematic air quality in the Central Wasatch (Flavelle, 2022 ; Kafanov, 2021 ; Spencer, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Industrial Particulate Pollution and Historical Land Use Contribute Metals of Concern to Dust Deposited in Neighborhoods Along the Wasatch Front, UT, USA

et al. 2022

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The Salt Lake Valley, UT, USA, is proximal to the desiccating Great Salt Lake (GSL). Prior work has found that this lakebed/playa contributes metals‐laden dust to snow in the Wasatch and Uinta Mountains. Dust and industrial particulate pollution are also delivered to communities along the Wasatch Front, but their sources, compositions, and fluxes are poorly characterized. In this study, we analyzed the dust deposited in 18 passive samplers positioned near the GSL, in cities in and near the Salt Lake Valley for total dust flux, the <63 µm dust fraction, 87 Sr/ 86 Sr, and trace element geochemistry. We compared spatial patterns in metal flux and abundance with community‐level socioeconomic metrics. We observed the highest dust fluxes at sites near the GSL playa. Within the urban corridor, 87 Sr/ 86 Sr and trace element relative abundances suggest that most of the dust to which people are regularly exposed may be fugitive dust from local soil materials. The trace metal content of dust deposited along the Wasatch Front exceeded Environmental Protection Agency screening levels and exhibited enrichment relative to both the upper continental crust and the dust collected adjacent to GSL. Sources of metals to dust deposited along the Wasatch Front may include industrial activities like mining, oil refining, as well as past historical pesticide and herbicide applications. Arsenic and vanadium indicated a statistically significant positive correlation with income, whereas lead, thallium, and nickel exhibited higher concentrations in the least wealthy and least white neighborhoods.

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The Disappearing Lake: A Historical Analysis of Drought and the Salton Sea in the Context of the GeoHealth Framework

Cited by 22 publications

References 35 publications

Identifying Major Hydrologic Change Drivers in a Highly Managed Transboundary Endorheic Basin: Integrating Hydro‐Ecological Models and Time Series Data Mining Techniques

Identifying Major Hydrologic Change Drivers in a Highly Managed Transboundary Endorheic Basin: Integrating Hydro‐Ecological Models and Time Series Data Mining Techniques

Integrated Analysis of Single-Molecule Real-Time Sequencing and Next-Generation Sequencing Eveals Insights into Drought Tolerance Mechanism of Lolium multiflorum

Industrial Particulate Pollution and Historical Land Use Contribute Metals of Concern to Dust Deposited in Neighborhoods Along the Wasatch Front, UT, USA

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