SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2018804720> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2018804720 abstract "We present an ecologically based biomarker method for estimating past salinity, especially in hypersaline conditions. The relative amounts of acyclic diether and tetraether membrane lipids synthesized by Archaea correlate with salinity from 0–250 practical salinity units (psu) in modern settings. We examined the preservation of this lipid biomarker–salinity relationship in ancient sedimentary organic matter using samples from two sequences of marls and diatomites deposited just prior to the Messinian Salinity Crisis. Salinity estimates were consistent with expected absolute salinity, as well as the amplitude of variations leading up to the Messinian Salinity Crisis. This lipid biomarker approach to salinity reconstruction complements existing paleosalinity proxies because (i) Archaea survive and thrive over a broad salinity range, well beyond that of haptophyte algae and other plankton which form the microfossil record and (ii) it provides fine salinity resolution for the wide range broadly defined as hypersaline. With the proxy, there is the potential to provide novel insights into salinity variation within desiccating basins in climatically sensitive seas (e.g. Dead Sea, Permian Delaware Basin), evolution of brines, timing of onset of hypersaline conditions and evaporite deposition." @default.
W2018804720 created "2016-06-24" @default.
W2018804720 creator A5011497856 @default.
W2018804720 creator A5081461518 @default.
W2018804720 date "2011-06-01" @default.
W2018804720 modified "2023-10-01" @default.
W2018804720 title "Archaeal lipids record paleosalinity in hypersaline systems" @default.
W2018804720 cites W1489518601 @default.
W2018804720 cites W1493940312 @default.
W2018804720 cites W1512091300 @default.
W2018804720 cites W1643092740 @default.
W2018804720 cites W1788268807 @default.
W2018804720 cites W1822482735 @default.
W2018804720 cites W1973323075 @default.
W2018804720 cites W1977993587 @default.
W2018804720 cites W1980774504 @default.
W2018804720 cites W1981141378 @default.
W2018804720 cites W1981430944 @default.
W2018804720 cites W1996993655 @default.
W2018804720 cites W1997061214 @default.
W2018804720 cites W1997389755 @default.
W2018804720 cites W2001095317 @default.
W2018804720 cites W2003729266 @default.
W2018804720 cites W2007624093 @default.
W2018804720 cites W2009362153 @default.
W2018804720 cites W2015662887 @default.
W2018804720 cites W2015815903 @default.
W2018804720 cites W2021949229 @default.
W2018804720 cites W2024505828 @default.
W2018804720 cites W2027993414 @default.
W2018804720 cites W2028360015 @default.
W2018804720 cites W2029253778 @default.
W2018804720 cites W2033225870 @default.
W2018804720 cites W2034424911 @default.
W2018804720 cites W2040254018 @default.
W2018804720 cites W2040329560 @default.
W2018804720 cites W2044085624 @default.
W2018804720 cites W2045458127 @default.
W2018804720 cites W2053990953 @default.
W2018804720 cites W2055443065 @default.
W2018804720 cites W2058995 @default.
W2018804720 cites W2059602631 @default.
W2018804720 cites W2066386111 @default.
W2018804720 cites W2068047639 @default.
W2018804720 cites W2070065135 @default.
W2018804720 cites W2071486182 @default.
W2018804720 cites W2072849231 @default.
W2018804720 cites W2072952450 @default.
W2018804720 cites W2074745628 @default.
W2018804720 cites W2075231444 @default.
W2018804720 cites W2084759818 @default.
W2018804720 cites W2087833363 @default.
W2018804720 cites W2088095509 @default.
W2018804720 cites W2088220696 @default.
W2018804720 cites W2090766979 @default.
W2018804720 cites W2090931661 @default.
W2018804720 cites W2092228908 @default.
W2018804720 cites W2094591409 @default.
W2018804720 cites W2094681075 @default.
W2018804720 cites W2100478354 @default.
W2018804720 cites W2104075410 @default.
W2018804720 cites W2113387025 @default.
W2018804720 cites W2113513236 @default.
W2018804720 cites W2114200698 @default.
W2018804720 cites W2115338073 @default.
W2018804720 cites W2117317129 @default.
W2018804720 cites W2120560331 @default.
W2018804720 cites W2120650856 @default.
W2018804720 cites W2123982557 @default.
W2018804720 cites W2126184219 @default.
W2018804720 cites W2126256025 @default.
W2018804720 cites W2129502339 @default.
W2018804720 cites W2130896789 @default.
W2018804720 cites W2138717680 @default.
W2018804720 cites W2139975214 @default.
W2018804720 cites W2144683272 @default.
W2018804720 cites W2144967262 @default.
W2018804720 cites W2147531155 @default.
W2018804720 cites W2149155835 @default.
W2018804720 cites W2165007158 @default.
W2018804720 cites W2165812771 @default.
W2018804720 cites W2167090336 @default.
W2018804720 cites W2168389508 @default.
W2018804720 cites W2169409681 @default.
W2018804720 cites W2169458900 @default.
W2018804720 cites W4253548929 @default.
W2018804720 cites W94669161 @default.
W2018804720 doi "https://doi.org/10.1016/j.orggeochem.2011.06.002" @default.
W2018804720 hasPublicationYear "2011" @default.
W2018804720 type Work @default.
W2018804720 sameAs 2018804720 @default.
W2018804720 citedByCount "11" @default.
W2018804720 countsByYear W20188047202014 @default.
W2018804720 countsByYear W20188047202016 @default.
W2018804720 countsByYear W20188047202021 @default.
W2018804720 countsByYear W20188047202022 @default.
W2018804720 countsByYear W20188047202023 @default.
W2018804720 crossrefType "journal-article" @default.
W2018804720 hasAuthorship W2018804720A5011497856 @default.
W2018804720 hasAuthorship W2018804720A5081461518 @default.