SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2906632332> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W2906632332 endingPage "10" @default.
W2906632332 startingPage "10" @default.
W2906632332 abstract "Organic matter (OM) has an essential biogeochemical influence along the hydrological continuum and within aquatic ecosystems. Organic matter derived via microbial processes was investigated within a range of model freshwater samples over a 10-day period. For this, excitation-emission matrix (EEM) fluorescence spectroscopy in combination with parallel factor (PARAFAC) analysis was employed. This research shows the origin and processing of both protein-like and humic-like fluorescence within environmental and synthetic samples over the sampling period. The microbial origin of Peak T fluorescence is demonstrated within both synthetic samples and in environmental samples. Using a range of incubation temperatures provides evidence for the microbial metabolic origin of Peak T fluorescence. From temporally resolved experiments, evidence is provided that Peak T fluorescence is an indication of metabolic activity at the microbial community level and not a proxy for bacterial enumeration. This data also reveals that humic-like fluorescence can be microbially derived in situ and is not solely of terrestrial origin, likely to result from the upregulation of cellular processes prior to cell multiplication. This work provides evidence that freshwater microbes can engineer fluorescent OM, demonstrating that microbial communities not only process, but also transform, fluorescent organic matter." @default.
W2906632332 created "2019-01-01" @default.
W2906632332 creator A5015035194 @default.
W2906632332 creator A5027376347 @default.
W2906632332 creator A5040895912 @default.
W2906632332 creator A5061922376 @default.
W2906632332 creator A5080766591 @default.
W2906632332 creator A5089376263 @default.
W2906632332 date "2018-12-21" @default.
W2906632332 modified "2023-10-11" @default.
W2906632332 title "Microbial Processing and Production of Aquatic Fluorescent Organic Matter in a Model Freshwater System" @default.
W2906632332 cites W1513304836 @default.
W2906632332 cites W1599627005 @default.
W2906632332 cites W1878464291 @default.
W2906632332 cites W1933470399 @default.
W2906632332 cites W1936209130 @default.
W2906632332 cites W1943978994 @default.
W2906632332 cites W1984503986 @default.
W2906632332 cites W1996744994 @default.
W2906632332 cites W2002232472 @default.
W2906632332 cites W2006893456 @default.
W2906632332 cites W2013254866 @default.
W2906632332 cites W2019485216 @default.
W2906632332 cites W2020440849 @default.
W2906632332 cites W2027235251 @default.
W2906632332 cites W2030233811 @default.
W2906632332 cites W2030538244 @default.
W2906632332 cites W2031321361 @default.
W2906632332 cites W2034665221 @default.
W2906632332 cites W2041424660 @default.
W2906632332 cites W2042015642 @default.
W2906632332 cites W2046577937 @default.
W2906632332 cites W2057352544 @default.
W2906632332 cites W2061959974 @default.
W2906632332 cites W2081163858 @default.
W2906632332 cites W2081879080 @default.
W2906632332 cites W2085392938 @default.
W2906632332 cites W2096729194 @default.
W2906632332 cites W2103236207 @default.
W2906632332 cites W2120321951 @default.
W2906632332 cites W2123010517 @default.
W2906632332 cites W2131715119 @default.
W2906632332 cites W2135323745 @default.
W2906632332 cites W2146196926 @default.
W2906632332 cites W2146891368 @default.
W2906632332 cites W2147146372 @default.
W2906632332 cites W2153529182 @default.
W2906632332 cites W2159846700 @default.
W2906632332 cites W2273625889 @default.
W2906632332 cites W2282826069 @default.
W2906632332 cites W2284533625 @default.
W2906632332 cites W2296294370 @default.
W2906632332 cites W2318581184 @default.
W2906632332 cites W2469925780 @default.
W2906632332 cites W2487679377 @default.
W2906632332 cites W2557800876 @default.
W2906632332 cites W2746679330 @default.
W2906632332 cites W2766872798 @default.
W2906632332 cites W2773713143 @default.
W2906632332 cites W2783585661 @default.
W2906632332 cites W2794205876 @default.
W2906632332 cites W591731096 @default.
W2906632332 cites W969094754 @default.
W2906632332 doi "https://doi.org/10.3390/w11010010" @default.
W2906632332 hasPublicationYear "2018" @default.
W2906632332 type Work @default.
W2906632332 sameAs 2906632332 @default.
W2906632332 citedByCount "5" @default.
W2906632332 countsByYear W29066323322020 @default.
W2906632332 countsByYear W29066323322021 @default.
W2906632332 countsByYear W29066323322022 @default.
W2906632332 crossrefType "journal-article" @default.
W2906632332 hasAuthorship W2906632332A5015035194 @default.
W2906632332 hasAuthorship W2906632332A5027376347 @default.
W2906632332 hasAuthorship W2906632332A5040895912 @default.
W2906632332 hasAuthorship W2906632332A5061922376 @default.
W2906632332 hasAuthorship W2906632332A5080766591 @default.
W2906632332 hasAuthorship W2906632332A5089376263 @default.
W2906632332 hasBestOaLocation W29066323321 @default.
W2906632332 hasConcept C107872376 @default.
W2906632332 hasConcept C110872660 @default.
W2906632332 hasConcept C121332964 @default.
W2906632332 hasConcept C158711907 @default.
W2906632332 hasConcept C175327387 @default.
W2906632332 hasConcept C185592680 @default.
W2906632332 hasConcept C186060115 @default.
W2906632332 hasConcept C18903297 @default.
W2906632332 hasConcept C36574619 @default.
W2906632332 hasConcept C39432304 @default.
W2906632332 hasConcept C46685645 @default.
W2906632332 hasConcept C48743137 @default.
W2906632332 hasConcept C523546767 @default.
W2906632332 hasConcept C54355233 @default.
W2906632332 hasConcept C62520636 @default.
W2906632332 hasConcept C69562835 @default.
W2906632332 hasConcept C71915725 @default.
W2906632332 hasConcept C81407943 @default.
W2906632332 hasConcept C86803240 @default.