00892nam0-22002891i-450 99000175581040332120190529131402.0000175581FED01000175581(Aleph)000175581FED0100017558120030910d1965----km-y0itay50------baitaBedrock geologic map of Minneapolis, St. Paul and vicinityC. Marshall PayneMinneapolisUniversity of Minnesota19651 carta geologica in custodia30 cmMiscellaneous map seriesM-1Carte geologiche551Payne,C. Marshall76298ITUNINARICAUNIMARCLG99000175581040332160 OP. 70/140727FAGBCFAGBCBedrock geologic map of Minneapolis, St. Paul and vicinity363192UNINA05343nam 2201417z- 450 991055755580332120210501(CKB)5400000000044048(oapen)https://directory.doabooks.org/handle/20.500.12854/68690(oapen)doab68690(EXLCZ)99540000000004404820202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierApplications of Remote Sensing in Coastal AreasBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (288 p.)3-03928-658-7 3-03928-659-5 Coastal areas are remarkable regions with high spatiotemporal variability. A large population is affected by their physical and biological processes-resulting from effects on tourism to biodiversity and productivity. Coastal ecosystems perform several critical ecosystem services and functions, such as water oxygenation and nutrients provision, seafloor and beach stabilization (as sediment is controlled and trapped within the rhizomes of the seagrass meadows), carbon burial, as areas for nursery, and as refuge for several commercial and endemic species. Knowledge of the spatial distribution of marine habitats is prerequisite information for the conservation and sustainable use of marine resources. Remote sensing from UAVs to spaceborne sensors is offering a unique opportunity to measure, analyze, quantify, map, and explore the processes on the coastal areas at high temporal frequencies. This Special Issue on "Application of Remote Sensing in Coastal Areas" is specifically addresses those successful applications-from local to regional scale-in coastal environments related to ecosystem productivity, biodiversity, sea level rise.GeographybicsscResearch & information: generalbicsscASARbarrier islandbeach topographyBohai sea icecliff coastlinescoastal monitoringcoastal oceanCoastal processcoastal remote sensingcoastlinecontour extractionCubeSatsdata cubedronedune vegetation classificationdunesEuclidean distanceground settlementhabitat mappingHainan Islandharmonizationheat advectionhydrographyhypertemporalintensity integral errorland coverLandsatLiDARMABELmarine reclamation landmorphological changemulti-sensormulti-temporal NDVImultispectral satellite imagesmutual informationn/anew featurenon-parametric Bayesian networkobject-based classificationobject-based image analysis (OBIA)oceanic thermal responseOLCI imageryphotogrammetryPhoton-counting lidarpixel-based classificationpixels based supervised classificationPlanetScopePleiadespolarimetric decompositionpolarimetric SARRandom Forestremote sensingRTK-GPSsatellite remote sensingsatellite-derived bathymetrysea ice extentsea ice information indexsemi-global subpixel localizationSentinel-1ship detectionshoreline mappingsignal photonssouthern Baltic Seasub-pixelsurface water mappingterrestrial laser scannerthresholdingtime series InSARtime-series analysisUAS data acquisitionunmanned aerial systemunmanned aerial vehicle (UAV)unmanned aircraft system (UAS)vegetation mappingwater extractionwater indiceswaterline extractionwind wakeXiamen New Airportzones of confidenceGeographyResearch & information: generalTopouzelis Konstantinosedt1327791Papakonstantinou ApostolosedtSingha SumanedtLi XiaoMingedtPoursanidis DimitrisedtTopouzelis KonstantinosothPapakonstantinou ApostolosothSingha SumanothLi XiaoMingothPoursanidis DimitrisothBOOK9910557555803321Applications of Remote Sensing in Coastal Areas3038104UNINA