Environmental threats to salt lakes and the likely status of inland saline ecosystems in 2025

Williams, W. D.

doi:10.1017/s0376892902000103

Cited by 245 publications

(209 citation statements)

References 45 publications

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“…Varying in their size, salinity, ionic and biotic compositions, saline lakes have significant economic, ecological, biodiversity and cultural value (Williams, 2002). Ecologically, salt lake ecosystems are considered as keystone habitats that offer refuge to various endemic and unique species adapted to the harsh hypersaline water conditions (Jellison et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Pronounced genetic differentiation of small, isolated and fragmented tilapia populations inhabiting the Magadi Soda Lake in Kenya

2013

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Lake Magadi, an alkaline hypersaline lake in Kenya, is one of the most extreme water bodies known. Although its water temperatures often exceed 40°C, a particular lineage of 'dwarf' tilapia, Alcolapia grahami, has evolved remarkable adaptations to survive in this hostile environment. Magadi tilapia exists in small fragmented populations in isolated lagoons within Lake Magadi and its satellite Lake, Little Magadi. In spite of the potential this tilapia holds for understanding evolutionary processes in stressful environments, few genetic studies have focused on this species. We examined the genetic diversity and spatial genetic relationships of Magadi tilapia populations using microsatellite and mitochondrial markers. High levels of genetic variation were found to be supporting the hypothesis that A. grahami populations represent remnants of a much larger fish population that inhabited paleo-lake Orolonga. In contrast to previous studies, we found a well-supported genetic structure of A. grahami consisting of three differentiated genetic clusters (a) Little Magadi, (b) Fish Spring Lagoon and (c) Rest of Magadi. Given the importance of this species to the Magadi ecosystem and its potential evolutionary significance, the three genetic clusters should be considered as separate gene pools and conservation strategies aimed at protecting the species based on these clusters are recommended.

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Section: Introductionmentioning

confidence: 99%

Pronounced genetic differentiation of small, isolated and fragmented tilapia populations inhabiting the Magadi Soda Lake in Kenya

2013

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“…Salt lakes, hypersaline lakes in particular, are so sensitive to any minor changes in any component of their hydrological budgets, especially evaporation (Williams 2002). Therefore, it is not surprising that the lake responses quickly to any changes in climate.…”

Section: Discussionmentioning

confidence: 99%

“…Hypersaline lakes, mostly located in semi-arid area, provide a fragile environment which requirements more protection to avoid the extinction of highly adapted species, in dry months in particular (Hammer 1986, Williams 2002. Considering that, we selected the Variable Monthly Flow (VMF) method developed by Pastor et al (2014) which uses algorithms to classify the flow regime into high, intermediate, and low-flow months and takes intra-annual variability into account by allocating EFRs with a percentage of mean monthly flow (MMF).…”

Section: Environmental Flow Requirements (Efrs)mentioning

confidence: 99%

Preserving the world second largest hypersaline lake under future irrigation and climate change

Shadkam

Ludwig

Vliet

et al. 2016

Science of The Total Environment

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Abstract. Urmia Lake, the world second largest hypersaline lake, has been largely desiccated over the last two decades resulting in socio-environmental consequences similar or even larger than the Aral Sea disaster. To rescue the lake a new water management plan has been proposed, a rapid 40% decline in irrigation water use replacing a former plan which intended to develop reservoirs and irrigation. However, none of these water management plans, which have large socio-economic impacts, have been assessed under future changes in climate and water availability. By adapting a method of environmental flow requirements (EFRs) for hypersaline lakes, we estimated annually 3.7•10 9 m 3 water is needed to preserve Urmia Lake. Then, the Variable Infiltration Capacity (VIC) hydrological model was forced with bias-corrected climate model outputs for both the lowest (RCP2.6) and highest (RCP8.5) greenhouse-gas concentration scenarios to estimate future water availability and impacts of water management strategies. Results showed a 10% decline in future water availability in the basin under RCP2.6 and 27% under RCP8.5. Our results showed that if future climate change is highly limited (RCP2.6) inflow can be just enough to meet the EFRs by implementing the reduction irrigation plan. However, under more rapid climate change scenario (RCP8.5) reducing irrigation water use will not be enough to save the lake and more drastic measures are needed. Our results showed that future water management plans are not robust under climate change in this region. Therefore, an integrated approach of future land-water use planning and climate change adaptation is therefore needed to improve future water security and to reduce the desiccating of this hypersaline lake.

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“…The saline lake ecosystems of the world are relatively well known (Hammer 1986) and are important natural assets with considerable aesthetic, cultural, economic, recreational, scientific, conservation, and ecological values (Williams 2002). In central Asia, large saline lakes such as the Caspian Sea, the Aral Sea, Lake Balkhash, Lake Alakol, Lake Tengiz, and Lake Chany were intensively studied in the former USSR (Aladin and Plotnikov 1993).…”

Section: Introductionmentioning

confidence: 99%

“…Many human activities threaten or have already impacted salt lakes, especially surface inflow diversions and other catchment activities, mining, pollution, biological disturbances (e.g., introduction of exotic species), and climate change, which effects cause loss of biodiversity and fundamental limnological changes (Williams 2002).…”

Section: Introductionmentioning

confidence: 99%

Chemical composition and trophic state of shallow saline steppe lakes in central Asia (North Kazakhstan)

Boros

Jurecska

Tatár

et al. 2017

Environ Monit Assess

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The purpose of this study was to identify the prevailing chemical composition and trophic state of the shallow saline steppe lakes of North Kazakhstan along a wide size range (<1−454 km 2 ) and salinity gradient (2−322 g L −1 ) on a large spatial scale (1000 km), taking into account the potential effects of human disturbances. Water depth, Secchi disc transparency, temperature, pH, electric conductivity, major ions, total dissolved solids, total organic carbon, total nitrogen and phosphorus, nitrate, soluble reactive phosphorus and chlorophyll a were measured. The equivalent percentage of major ions, Spearman rank correlation, multivariate analyses, equilibrium state of lakes and spatial GIS autocorrelation were calculated. The impact of human disturbances (settlements, farms and mines) on total organic carbon, nitrogen, phosphorus, and chlorophyll a were tested by Kruskal-Wallis ANOVA.The most common combinations of dominant ions were Na-Cl>SO4 and Na-Cl (n=16; 64%), the Ca, Mg, HCO3, and SO4 ions precipitate with increasing salinity (2−322 g L −1 ), and ion composition shifts from Na>Mg-Cl>SO4, to Na-Cl. The most of the chemical variables positively, but chlorophyll a negatively correlated with total dissolved solids, and the total phosphorus had no significant correlation with any variables. The trophic state of these lakes in most cases exceeded the hypertrophic level. The increase in salinity causes change in chemical composition and effects on the phytoplankton development independently from the size of water surface, and the human disturbances had negligible effect on the trophic state of shallow saline lakes in this region of Kazakhstan.

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Environmental threats to salt lakes and the likely status of inland saline ecosystems in 2025

Cited by 245 publications

References 45 publications

Pronounced genetic differentiation of small, isolated and fragmented tilapia populations inhabiting the Magadi Soda Lake in Kenya

Pronounced genetic differentiation of small, isolated and fragmented tilapia populations inhabiting the Magadi Soda Lake in Kenya

Preserving the world second largest hypersaline lake under future irrigation and climate change

Chemical composition and trophic state of shallow saline steppe lakes in central Asia (North Kazakhstan)

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