SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2181845586> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W2181845586 endingPage "161" @default.
W2181845586 startingPage "149" @default.
W2181845586 abstract "An optical class-based approach was adapted and applied to satellite imagery of aquatic color radiometry over Lake Superior. Lake Superior exhibits an optically complex environment whose physical and biogeochemical variability is unknown for much of the year. We characterized optical classes or optical water types (OWTs) from remotely sensed data and determined the temporal and spatial distribution of the OWTs. OWT distributions were interpreted through their inherent optical properties (IOPs) and physical drivers. Five identified OWTs based on spectrally normalized remote sensing reflectance imagery from the MODIS-Aqua mission revealed a gradient between class-specific IOPs for colored dissolved organic matter absorption (aCDOM) and particulate backscattering (bbp). The clearest OWT displayed widespread prominence over the lake and within and across years, indicating strongly stable physical dynamics including stratification and permanent circulation patterns. The most optically complex OWT (highest aCDOM and bbp) followed more stochastic dynamics coinciding with localized runoff and mixing events. OWTs with intermediate optical complexity delineated river outflow plumes, upwelling, and annual lake wide turnover events while revealing annual and biannual harmonic patterns. OWTs verified both previously observed and unobserved dynamics in Lake Superior, demonstrating a valuable utility to characterize spatio-temporal, optical, and biogeochemical variability." @default.
W2181845586 created "2016-06-24" @default.
W2181845586 creator A5024573043 @default.
W2181845586 creator A5026635548 @default.
W2181845586 creator A5087001594 @default.
W2181845586 date "2015-12-01" @default.
W2181845586 modified "2023-10-18" @default.
W2181845586 title "Remote sensing of physical cycles in Lake Superior using a spatio-temporal analysis of optical water typologies" @default.
W2181845586 cites W1486265526 @default.
W2181845586 cites W1966001186 @default.
W2181845586 cites W1972148892 @default.
W2181845586 cites W1974550812 @default.
W2181845586 cites W1974618482 @default.
W2181845586 cites W1984516678 @default.
W2181845586 cites W1985871673 @default.
W2181845586 cites W1986316936 @default.
W2181845586 cites W1987098293 @default.
W2181845586 cites W1992604474 @default.
W2181845586 cites W1995450389 @default.
W2181845586 cites W1996747841 @default.
W2181845586 cites W1999308740 @default.
W2181845586 cites W1999711192 @default.
W2181845586 cites W2002319169 @default.
W2181845586 cites W2004329181 @default.
W2181845586 cites W2009114506 @default.
W2181845586 cites W2009876952 @default.
W2181845586 cites W2013399283 @default.
W2181845586 cites W2016621520 @default.
W2181845586 cites W2021425394 @default.
W2181845586 cites W2025242337 @default.
W2181845586 cites W2025767687 @default.
W2181845586 cites W2028594103 @default.
W2181845586 cites W2029064186 @default.
W2181845586 cites W2029969213 @default.
W2181845586 cites W2030623392 @default.
W2181845586 cites W2039127503 @default.
W2181845586 cites W2042737933 @default.
W2181845586 cites W2047192101 @default.
W2181845586 cites W2047864334 @default.
W2181845586 cites W2049487218 @default.
W2181845586 cites W2049588217 @default.
W2181845586 cites W2049790355 @default.
W2181845586 cites W2056003716 @default.
W2181845586 cites W2064124201 @default.
W2181845586 cites W2068899907 @default.
W2181845586 cites W2073673500 @default.
W2181845586 cites W2077104119 @default.
W2181845586 cites W2081892573 @default.
W2181845586 cites W2088974269 @default.
W2181845586 cites W2095246401 @default.
W2181845586 cites W2096018235 @default.
W2181845586 cites W2103025156 @default.
W2181845586 cites W2114634806 @default.
W2181845586 cites W2120688485 @default.
W2181845586 cites W2124844742 @default.
W2181845586 cites W2127380962 @default.
W2181845586 cites W2137686028 @default.
W2181845586 cites W2159960526 @default.
W2181845586 cites W2161409430 @default.
W2181845586 cites W2164526724 @default.
W2181845586 cites W2167161590 @default.
W2181845586 cites W4211007335 @default.
W2181845586 doi "https://doi.org/10.1016/j.rse.2015.10.008" @default.
W2181845586 hasPublicationYear "2015" @default.
W2181845586 type Work @default.
W2181845586 sameAs 2181845586 @default.
W2181845586 citedByCount "17" @default.
W2181845586 countsByYear W21818455862016 @default.
W2181845586 countsByYear W21818455862017 @default.
W2181845586 countsByYear W21818455862018 @default.
W2181845586 countsByYear W21818455862019 @default.
W2181845586 countsByYear W21818455862020 @default.
W2181845586 countsByYear W21818455862021 @default.
W2181845586 countsByYear W21818455862022 @default.
W2181845586 crossrefType "journal-article" @default.
W2181845586 hasAuthorship W2181845586A5024573043 @default.
W2181845586 hasAuthorship W2181845586A5026635548 @default.
W2181845586 hasAuthorship W2181845586A5087001594 @default.
W2181845586 hasConcept C100701293 @default.
W2181845586 hasConcept C111368507 @default.
W2181845586 hasConcept C117082904 @default.
W2181845586 hasConcept C121332964 @default.
W2181845586 hasConcept C127313418 @default.
W2181845586 hasConcept C1276947 @default.
W2181845586 hasConcept C135009316 @default.
W2181845586 hasConcept C142796444 @default.
W2181845586 hasConcept C18903297 @default.
W2181845586 hasConcept C19269812 @default.
W2181845586 hasConcept C192943249 @default.
W2181845586 hasConcept C2776939893 @default.
W2181845586 hasConcept C2780892065 @default.
W2181845586 hasConcept C3527866 @default.
W2181845586 hasConcept C39432304 @default.
W2181845586 hasConcept C59822182 @default.
W2181845586 hasConcept C62649853 @default.
W2181845586 hasConcept C71915725 @default.
W2181845586 hasConcept C86132830 @default.
W2181845586 hasConcept C86803240 @default.