Titlebook: ;

觀察

Felicitous

Great Salt Lake as an Astrobiology Analogue for Ancient Martian Hypersaline Aqueous Systems,ea of the western United States. Natural processes and climate conditions create a dynamic ecosystem with shifting salinity gradients and lake levels. The hypersaline north arm of?GSL provides a model for exploring the limits of life on Earth and for potential life on other space bodies, especially

輕觸

Water Development, Consumptive Water Uses, and Great Salt Lake,enced lake level. Per capita water use in Utah is the second highest in the nation and is 2.6-fold higher than other semiarid nations. Potential solutions exist to reduce consumptive water uses and stabilize or increase the GSL?water level. Water conservation is likely the most economical solution,

WAG

Abjure

Microbialites of Great Salt Lake,ht to be involved in the formation of carbonate minerals that can then lithify and preserve microbialite structure. Biomass produced by these complex microbial communities supports a variety of higher forms of life, including brine flies and brine shrimp that themselves serve as food sources for a d

革新

Unexpected Complexity at Salinity Saturation: Microbial Diversity of the North Arm of Great Salt Larsity of the overrepresented archaea, using molecular, culture-independent methods to assess temporal diversity and significance of environmental parameters. Cultivation studies revealed details about how the stable members of the communities maintained their lifestyle using differential gene expres

受辱

Invertebrates and Phytoplankton of Great Salt Lake: Is Salinity the Driving Factor?, limited impact. We next demonstrate that in recent years (1994–2018) GSL food webs varied far less with salinity than might be expected, even though salinity varied by 8.2–17.5%, because temperatures and nutrient availability covaried with salinity and showed more impacts than salinity alone. Final

整潔

lipoatrophy

壕溝