200 k.y. paleoclimate record from Death Valley salt core

Lowenstein, Tim K.; Li, Jianren; Brown, Christopher Boyd; Roberts, Sheila M.; Ku, Teh-Lung; Luo, Shaohua; Yang, Wenbo

doi:10.1130/0091-7613(1999)027<0003:kyprfd>2.3.co;2

Cited by 152 publications

(111 citation statements)

References 19 publications

(25 reference statements)

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“…Although overland dispersal across kilometres of desert by an aquatic organism is difficult to fathom, this view is much more consistent with established theories of population persistence and known hydrological connectivity over historical and geological timescales. For example, our time-calibrated phylogeny reasonably indicates that Death Valley pupfishes were isolated from other desert basins after the drying of the most recent pluvial lake in the region 10 kyr ago [20]. Our demographic analysis of the most recent mixing between two desert spring populations is coincident with the largest recorded rainfall in the area in 1862 [67] which would have flooded the dry riverbed connecting these two habitats (figure 1a).…”

Section: Discussionmentioning

confidence: 99%

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Diabolical survival in Death Valley: recent pupfish colonization, gene flow and genetic assimilation in the smallest species range on earth

et al. 2016

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One of the most endangered vertebrates, the Devils Hole pupfish Cyprinodon diabolis, survives in a nearly impossible environment: a narrow subterranean fissure in the hottest desert on earth, Death Valley. This species became a conservation icon after a landmark 1976 US Supreme Court case affirming federal groundwater rights to its unique habitat. However, one outstanding question about this species remains unresolved: how long has diabolis persisted in this hellish environment? We used next-generation sequencing of over 13 000 loci to infer the demographic history of pupfishes in Death Valley. Instead of relicts isolated 2-3 Myr ago throughout repeated flooding of the entire region by inland seas as currently believed, we present evidence for frequent gene flow among Death Valley pupfish species and divergence after the most recent flooding 13 kyr ago. We estimate that Devils Hole was colonized by pupfish between 105 and 830 years ago, followed by genetic assimilation of pelvic fin loss and recent gene flow into neighbouring spring systems. Our results provide a new perspective on an iconic endangered species using the latest population genomic methods and support an emerging consensus that timescales for speciation are overestimated in many groups of rapidly evolving species.

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Section: Discussionmentioning

confidence: 99%

“…This interval is centered directly on the most recent flooding of the Death Valley basin from 10 to 35 kyr ago observed in core samples [20]. figure 2d).…”

Section: (B) Time-calibrated Phylogenymentioning

confidence: 99%

Diabolical survival in Death Valley: recent pupfish colonization, gene flow and genetic assimilation in the smallest species range on earth

et al. 2016

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“…Limited evidence suggests that temperatures may have been colder during earlier glaciations. Interpretations based on fluid inclusions in halite in the Death Valley core suggest that average temperatures could have been a few degrees colder during part of isotope stage 6 than during isotope stage 2 (Lowenstein et al, 1999). Relict colluvial deposits in southern Nevada suggest that winter temperatures in the southern Great Basin were at least 1°-3°C colder in the early and middle Pleistocene than in the late Pleistocene (Whitney and Harrington, 1993).…”

Section: Implications Of Very High Shorelinesmentioning

confidence: 99%

Highest Pluvial-Lake Shorelines and Pleistocene Climate of the Western Great Basin

Reheis

1999

Quat. res.

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Shoreline altitudes of several pluvial lakes in the western Great Basin of North America record successively smaller lakes from the early to the late Pleistocene. This decrease in lake size indicates a long-term drying trend in the regional climate that is not seen in global marine oxygen-isotope records. At ؉70 m above its late Pleistocene shoreline, Lake Lahontan in the early middle Pleistocene submerged some basins previously thought to have been isolated. Other basins known to contain records of older pluvial lakes that exceeded late Pleistocene levels include Columbus-Fish Lake (Lake Columbus-Rennie), Kobeh-Diamond (Lakes Jonathan and Diamond), Newark, Long (Lake Hubbs), and Clover. Very high stands of some of these lakes probably triggered overflows of previously internally drained basins, adding to the size of Lake Lahontan. Simple calculations based on differences in lake area suggest that the highest levels of these pluvial lakes required a regional increase in effective moisture by a factor of 1.2 to 3 relative to late Pleistocene pluvial amounts (assuming that effective moisture is directly proportional to the hydrologic index, or lake area/tributary basin area). These previously unknown lake levels reflect significant changes in climate, tectonics, and (or) drainage-basin configurations, and could have facilitated migration of aquatic species in the Great Basin.

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“…Drilling marine sediments has been long exploited to clarify climate dynamics and atmospheric-oceanic linkages, especially for the Neogene, but extending even to the Cretaceous (e.g., IODP 2008). Continental climate reconstructions also benefit greatly from drill core data, and core from modern, long-lived lacustrine systems in particular have facilitated major advances in understanding climate dynamics of Earth's recent record, from the tropics to the poles (e.g., Lowenstein et al 1999;Scholz et al 2007;Cohen 2011;Melles et al 2012).…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, in red bedevaporite successions, the evaporites-if protected from dissolution and alteration caused by post-depositional infiltration of dilute waters-can yield a variety of high-resolution quantitative and qualitative paleoclimate data (e.g., Benison and Goldstein 1999;Sánchez Botero et al 2013;Zambito and Benison 2013). In addition, sedimentary structures and primary fluid inclusions in Cenozoic and Permian bedded halite can represent arid climate floodingevaporation-desiccation cycles and air temperature proxies, respectively (Benison and Goldstein 1999;Lowenstein et al 1999;Zambito and Benison 2013). Paleoclimate reconstructions from such strata, however, are dependent upon obtaining cores drilled using methods suitable for extracting intact evaporites and (commonly friable) finegrained red beds.…”

Section: Introductionmentioning

confidence: 99%

The paleoclimatic and geochronologic utility of coring red beds and evaporites: a case study from the RKB core (Permian, Kansas, USA)

Soreghan

Benison

Foster

et al. 2014

Int J Earth Sci (Geol Rundsch)

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Drill core is critical for robust and high-resolution reconstructions of Earth’s climate record, as well demonstrated from both marine successions and modern long-lived lake systems. Deep-time climate reconstructions increasingly require core-based data, but some facies, notably red beds and evaporites, have garnered less attention for both paleoclimatic and geochronologic analyses. Here, we highlight studies from the Rebecca K. Bounds (RKB) core, a nearly continuous, >1.6 km drill core extending from the Cretaceous to the Mississippian, recovered from the US Midcontinent by Amoco Production Company in 1988, and serendipitously made available for academic research. Recent research conducted on this core illustrates the potential to recover high-resolution data for geochronologic and climatic reconstructions from both the fine-grained red bed strata, which largely represent paleo-loess deposits, and associated evaporite strata. In this case, availability of core was instrumental for (1) accessing a continuous vertical section that establishes unambiguous superposition key to both magnetostratigraphic and paleoclimatic analyses, and (2) providing pristine sample material from friable, soluble, and/or lithofacies and mineralogical species otherwise poorly preserved in surface exposures. The potential for high-resolution paleoclimatic reconstruction from coring of deep-time loess strata in particular remains severely underutilized.

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200 k.y. paleoclimate record from Death Valley salt core

Cited by 152 publications

References 19 publications

Diabolical survival in Death Valley: recent pupfish colonization, gene flow and genetic assimilation in the smallest species range on earth

Diabolical survival in Death Valley: recent pupfish colonization, gene flow and genetic assimilation in the smallest species range on earth

Highest Pluvial-Lake Shorelines and Pleistocene Climate of the Western Great Basin

The paleoclimatic and geochronologic utility of coring red beds and evaporites: a case study from the RKB core (Permian, Kansas, USA)

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