FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2143670295> ?p ?o ?g. }

• W2143670295 endingPage "186" @default.
• W2143670295 startingPage "177" @default.
• W2143670295 abstract "Microchemical analysis of otolith (calcified ‘ear stones’ used for balance and orientation) of fishes is an important tool for studying their environmental history and management. However, the spatial resolution achieved is often too coarse to examine short-term events occurring in early life. Current methods rely on single points or transects across the otolith surface, which may provide a limited view of elemental distributions, a matter that has not previously been investigated. Imaging by laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS) permits microchemical analyses of short-term events in early life with high (< 10 μm) resolution, two-dimensional (2D) visualization of elemental distributions. To demonstrate the potential of this method, we mapped the concentrations of Sr and Ba, two key trace elements, in a small number of juvenile otoliths of neon damselfish (Pomacentrus coelestis) using an 8 μm beam diameter (laser fluence of 13.8 ± 3.5 J cm− 2). Quantification was performed using the established method by Longerich et al. (1996), which is applied to 2D imaging of a biological matrix here for the first time. Accuracy of > 97% was achieved using a multi-point non matrix-matched calibration of National Institute of Standards and Technology (NIST) 610 and 612 (trace elements in glass) using Longerich's calculation method against the matrix-matched standard FEBS-1 (powdered red snapper [Lutjanus campechanus] otolith). The spatial resolution achieved in the otolith corresponded to a time period of 2 ± 1 days during the larval phase, and 4 ± 1 days during the post-settlement juvenile phase. This method has the potential to improve interpretations of early life-history events at scales corresponding to specific events. While the images showed gradients in Sr and Ba across the larval settlement zone more clearly than single transects, the method proved sample homogeneity throughout the structure; demonstrating that 2D scanning has no significant advantage over line scans." @default.
• W2143670295 created "2016-06-24" @default.
• W2143670295 creator A5004658580 @default.
• W2143670295 creator A5013055399 @default.
• W2143670295 creator A5018290798 @default.
• W2143670295 creator A5019905170 @default.
• W2143670295 creator A5046226586 @default.
• W2143670295 creator A5049052972 @default.
• W2143670295 creator A5082633592 @default.
• W2143670295 creator A5091197847 @default.
• W2143670295 date "2014-10-01" @default.
• W2143670295 modified "2023-09-27" @default.
• W2143670295 title "Beyond the transect: An alternative microchemical imaging method for fine scale analysis of trace elements in fish otoliths during early life" @default.
• W2143670295 cites W1970376743 @default.
• W2143670295 cites W1973439146 @default.
• W2143670295 cites W1976368019 @default.
• W2143670295 cites W1986088328 @default.
• W2143670295 cites W1986328167 @default.
• W2143670295 cites W1991052345 @default.
• W2143670295 cites W1991816319 @default.
• W2143670295 cites W1992105530 @default.
• W2143670295 cites W1993895020 @default.
• W2143670295 cites W2000499025 @default.
• W2143670295 cites W2005784733 @default.
• W2143670295 cites W2007695757 @default.
• W2143670295 cites W2009927063 @default.
• W2143670295 cites W2012280082 @default.
• W2143670295 cites W2016467098 @default.
• W2143670295 cites W2017938443 @default.
• W2143670295 cites W2023424518 @default.
• W2143670295 cites W2024436619 @default.
• W2143670295 cites W2028368649 @default.
• W2143670295 cites W2036081018 @default.
• W2143670295 cites W2037505950 @default.
• W2143670295 cites W2042963941 @default.
• W2143670295 cites W2049241269 @default.
• W2143670295 cites W2050480007 @default.
• W2143670295 cites W2055036854 @default.
• W2143670295 cites W2062150590 @default.
• W2143670295 cites W2069154964 @default.
• W2143670295 cites W2072062807 @default.
• W2143670295 cites W2078992396 @default.
• W2143670295 cites W2085101148 @default.
• W2143670295 cites W2086361200 @default.
• W2143670295 cites W2088879446 @default.
• W2143670295 cites W2091541944 @default.
• W2143670295 cites W2094220611 @default.
• W2143670295 cites W2097770917 @default.
• W2143670295 cites W2102110053 @default.
• W2143670295 cites W2109947954 @default.
• W2143670295 cites W2121223569 @default.
• W2143670295 cites W2121409621 @default.
• W2143670295 cites W2128797077 @default.
• W2143670295 cites W2132447950 @default.
• W2143670295 cites W2330188706 @default.
• W2143670295 cites W4232962557 @default.
• W2143670295 cites W4254381139 @default.
• W2143670295 doi "https://doi.org/10.1016/j.scitotenv.2014.05.115" @default.
• W2143670295 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25046609" @default.
• W2143670295 hasPublicationYear "2014" @default.
• W2143670295 type Work @default.
• W2143670295 sameAs 2143670295 @default.
• W2143670295 citedByCount "14" @default.
• W2143670295 countsByYear W21436702952015 @default.
• W2143670295 countsByYear W21436702952016 @default.
• W2143670295 countsByYear W21436702952017 @default.
• W2143670295 countsByYear W21436702952018 @default.
• W2143670295 countsByYear W21436702952019 @default.
• W2143670295 countsByYear W21436702952021 @default.
• W2143670295 countsByYear W21436702952022 @default.
• W2143670295 crossrefType "journal-article" @default.
• W2143670295 hasAuthorship W2143670295A5004658580 @default.
• W2143670295 hasAuthorship W2143670295A5013055399 @default.
• W2143670295 hasAuthorship W2143670295A5018290798 @default.
• W2143670295 hasAuthorship W2143670295A5019905170 @default.
• W2143670295 hasAuthorship W2143670295A5046226586 @default.
• W2143670295 hasAuthorship W2143670295A5049052972 @default.
• W2143670295 hasAuthorship W2143670295A5082633592 @default.
• W2143670295 hasAuthorship W2143670295A5091197847 @default.
• W2143670295 hasConcept C111368507 @default.
• W2143670295 hasConcept C127313418 @default.
• W2143670295 hasConcept C178790620 @default.
• W2143670295 hasConcept C185592680 @default.
• W2143670295 hasConcept C199289684 @default.
• W2143670295 hasConcept C2778566039 @default.
• W2143670295 hasConcept C2780041246 @default.
• W2143670295 hasConcept C2909208804 @default.
• W2143670295 hasConcept C39432304 @default.
• W2143670295 hasConcept C505870484 @default.
• W2143670295 hasConcept C544153396 @default.
• W2143670295 hasConcept C69661492 @default.
• W2143670295 hasConcept C86803240 @default.
• W2143670295 hasConceptScore W2143670295C111368507 @default.
• W2143670295 hasConceptScore W2143670295C127313418 @default.
• W2143670295 hasConceptScore W2143670295C178790620 @default.
• W2143670295 hasConceptScore W2143670295C185592680 @default.
• W2143670295 hasConceptScore W2143670295C199289684 @default.
• W2143670295 hasConceptScore W2143670295C2778566039 @default.

• next