SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2306677475> ?p ?o ?g. }

Showing items 1 to 100 of ±123 with 100 items per page.

W2306677475 endingPage "812" @default.
W2306677475 startingPage "805" @default.
W2306677475 abstract "RationaleMicrofaunal skeletal remains can be sensitive indicators of the contemporary ecosystem in which they are sampled and are often recovered in owl pellets in large numbers. Species identification of these remains can be obtained using a range of morphological criteria established for particular skeletal elements, but typically dominated by a reliance on cranial characters. However, this can induce biases under different environmental and taphonomic conditions. The aim of this research was to develop a high-throughput method of objectively identifying rodent remains from archaeological deposits using collagen fingerprinting, most notably the identification of rats from other myomorph rodents as a means to identify disturbances in the archaeofauna through the presence of invasive taxa not contemporary with the archaeological deposits.MethodsCollagen was extracted from complete microfaunal skeletal remains in such a manner as to leave the bones morphologically intact (i.e., weaker concentration of acid than previously used over shorter length of time). Acid-soluble collagen was then ultrafiltered into ammonium bicarbonate and digested with trypsin prior to dilution in the MALDI matrix and acquisition of peptide mass fingerprints using a matrix-assisted laser desorption/ionisation time-of-flight (MALDI-TOF) mass spectrometer.ResultsCollagen fingerprinting was able to distinguish between Rattus, Mus, Apodemus and Micromys at the genus level; at the species level, R. rattus and R. norvegicus could be separated whereas A. flavicollis and A. sylvaticus could not. A total of 12,317 archaeological microvertebrate samples were screened for myomorph signatures but none were found to be invasive rats (Rattus) or mice (Mus). Of the contemporary murine fauna, no harvest mice (Micromys) were identified and only 24 field mouse (Apodemus) discovered.ConclusionsAs a result, no evidence of recent bioturbation could be inferred from the faunal remains of these archaeological deposits. More importantly this work presents a method for high-throughput screening of specific taxa and is the first application of collagen fingerprinting to microfaunal remains of archaeological specimens. © 2016 The Authors. Rapid Communications in Mass Spectrometry Published by John Wiley & Sons Ltd." @default.
W2306677475 created "2016-06-24" @default.
W2306677475 creator A5010892794 @default.
W2306677475 creator A5011930674 @default.
W2306677475 creator A5031075176 @default.
W2306677475 creator A5044655365 @default.
W2306677475 creator A5058670244 @default.
W2306677475 date "2016-03-07" @default.
W2306677475 modified "2023-10-14" @default.
W2306677475 title "High-throughput collagen fingerprinting of intact microfaunal remains; a low-cost method for distinguishing between murine rodent bones" @default.
W2306677475 cites W1701441723 @default.
W2306677475 cites W1890991194 @default.
W2306677475 cites W1950561920 @default.
W2306677475 cites W1976020359 @default.
W2306677475 cites W1979486395 @default.
W2306677475 cites W1982899758 @default.
W2306677475 cites W1984201147 @default.
W2306677475 cites W1986844839 @default.
W2306677475 cites W1992248414 @default.
W2306677475 cites W1992930552 @default.
W2306677475 cites W1993236137 @default.
W2306677475 cites W1995071415 @default.
W2306677475 cites W2004216938 @default.
W2306677475 cites W2005110579 @default.
W2306677475 cites W2014406349 @default.
W2306677475 cites W2018246586 @default.
W2306677475 cites W2019684409 @default.
W2306677475 cites W2024378609 @default.
W2306677475 cites W2025290220 @default.
W2306677475 cites W2029187526 @default.
W2306677475 cites W2031841033 @default.
W2306677475 cites W2034712240 @default.
W2306677475 cites W2036771698 @default.
W2306677475 cites W2036798333 @default.
W2306677475 cites W2040842514 @default.
W2306677475 cites W2041097600 @default.
W2306677475 cites W2050241780 @default.
W2306677475 cites W2054096012 @default.
W2306677475 cites W2064864372 @default.
W2306677475 cites W2072694714 @default.
W2306677475 cites W2073522131 @default.
W2306677475 cites W2074092303 @default.
W2306677475 cites W2081049536 @default.
W2306677475 cites W2081490754 @default.
W2306677475 cites W2087867013 @default.
W2306677475 cites W2097040991 @default.
W2306677475 cites W2097942944 @default.
W2306677475 cites W2125428487 @default.
W2306677475 cites W2133279425 @default.
W2306677475 cites W2135569613 @default.
W2306677475 cites W2145624248 @default.
W2306677475 cites W2156320738 @default.
W2306677475 cites W2159100745 @default.
W2306677475 cites W2326172027 @default.
W2306677475 cites W2329633211 @default.
W2306677475 cites W2335117233 @default.
W2306677475 cites W2410129411 @default.
W2306677475 cites W4250319965 @default.
W2306677475 doi "https://doi.org/10.1002/rcm.7483" @default.
W2306677475 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4831026" @default.
W2306677475 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27408951" @default.
W2306677475 hasPublicationYear "2016" @default.
W2306677475 type Work @default.
W2306677475 sameAs 2306677475 @default.
W2306677475 citedByCount "63" @default.
W2306677475 countsByYear W23066774752016 @default.
W2306677475 countsByYear W23066774752017 @default.
W2306677475 countsByYear W23066774752018 @default.
W2306677475 countsByYear W23066774752019 @default.
W2306677475 countsByYear W23066774752020 @default.
W2306677475 countsByYear W23066774752021 @default.
W2306677475 countsByYear W23066774752022 @default.
W2306677475 countsByYear W23066774752023 @default.
W2306677475 crossrefType "journal-article" @default.
W2306677475 hasAuthorship W2306677475A5010892794 @default.
W2306677475 hasAuthorship W2306677475A5011930674 @default.
W2306677475 hasAuthorship W2306677475A5031075176 @default.
W2306677475 hasAuthorship W2306677475A5044655365 @default.
W2306677475 hasAuthorship W2306677475A5058670244 @default.
W2306677475 hasBestOaLocation W23066774751 @default.
W2306677475 hasConcept C111919701 @default.
W2306677475 hasConcept C157764524 @default.
W2306677475 hasConcept C185592680 @default.
W2306677475 hasConcept C18903297 @default.
W2306677475 hasConcept C2778914748 @default.
W2306677475 hasConcept C41008148 @default.
W2306677475 hasConcept C43617362 @default.
W2306677475 hasConcept C555944384 @default.
W2306677475 hasConcept C70721500 @default.
W2306677475 hasConcept C86803240 @default.
W2306677475 hasConceptScore W2306677475C111919701 @default.
W2306677475 hasConceptScore W2306677475C157764524 @default.
W2306677475 hasConceptScore W2306677475C185592680 @default.
W2306677475 hasConceptScore W2306677475C18903297 @default.
W2306677475 hasConceptScore W2306677475C2778914748 @default.
W2306677475 hasConceptScore W2306677475C41008148 @default.
W2306677475 hasConceptScore W2306677475C43617362 @default.
W2306677475 hasConceptScore W2306677475C555944384 @default.