ISSN: 0272-7714
Journal Home
Journal Guideline
Estuarine, Coastal and Shelf Science Q1 Unclaimed
Estuarine, Coastal and Shelf Science is a journal indexed in SJR in Aquatic Science and Oceanography with an H index of 156. It has an SJR impact factor of 0,76 and it has a best quartile of Q1. It is published in English. It has an SJR impact factor of 0,76.
Estuarine, Coastal and Shelf Science focuses its scope in these topics and keywords: sea, sediments, effects, coastal, bay, ocean, benthic, spatial, brackish, gulf, ...
Type: Journal
Type of Copyright:
Languages: English
Open Access Policy:
Type of publications:
Publication frecuency: -
- €
Inmediate OANPD
Embargoed OA- €
Non OAMetrics
0,76
SJR Impact factor156
H Index292
Total Docs (Last Year)1229
Total Docs (3 years)20508
Total Refs3501
Total Cites (3 years)1219
Citable Docs (3 years)2.68
Cites/Doc (2 years)70.23
Ref/DocOther journals with similar parameters
Reviews in Aquaculture Q1
Reviews in Fisheries Science and Aquaculture Q1
Fish and Fisheries Q1
Harmful Algae Q1
Reviews in Fish Biology and Fisheries Q1
Compare this journals
Aims and Scope
Best articles by citations
Reconstructing 150 years of eutrophication in the north-western Adriatic Sea (Italy) using dinoflagellate cysts, pollen and spores
View moreCharacterization of the marine fish assemblage associated with the nearshore hardbottom of Broward County, Florida, USA
View moreDifferences in trophodynamics of commercially important fish between artificial waterways and natural coastal wetlands
View moreGeographical variation in natural history of the sandy beach isopod Excirolana hirsuticauda Menzies (Cirolanidae) on the Chilean coast
View moreDecline of cold-water fish species in the Bay of Somme (English Channel, France) in response to ocean warming
View moreThe origin of modern agglutinated foraminiferal assemblages: evidence from a stratified fjord
View moreThe deposition and erosion of cohesive sediments determined by a multi-class model
View moreA note on sea-breeze-induced seasonal variability in the K1 tidal constants in Cadiz Bay, Spain
View moreFlux of Reduced Sulfur Gases Along a Salinity Gradient in Louisiana Coastal Marshes
View moreTrace metals and other constitutive components in two sediment cores from a remote glacier-fed estuarine lagoon in southern Chile
View moreNitrogen and silicon limitation of phytoplankton communities across an urban estuary: The East River-Long Island Sound system
View moreThe yield of chlorophyll from nitrogen: a comparison between the shallow Ria Formosa lagoon and the deep oceanic conditions at Sagres along the southern coast of Portugal
View moreRedox-dependent behaviour of technetium-99 entering a permanently stratified anoxic fjord (Framvaren fjord, Norway)
View moreLong-term trends in the estuarine abundance of Nilsson's pipefish (Syngnathus rostellatus Nilsson)
View moreCarbon flow and trophic structure of an Antarctic coastal benthic community as determined by d13C and d15N
View moreApplication of image-based granulometry to siliceous and calcareous estuarine and marine sediments
View moreSpatial versus temporal patterns in fish assemblages of a tropical estuarine coastal lake: The Ebrie Lagoon (Ivory Coast)
View moreProperties of light absorption in a highly coloured estuarine system in south-east Australia which is prone to blooms of the toxic dinoflagellate Gymnodinium catenatum
View moreCrab-mediated phenotypic changes in Spartina densiflora Brong.
View moreSpatial and temporal variability in modelled nutrient fluxes from the unpolluted Shannon estuary, Ireland, and the implications for microphytobenthic productivity
View moreThe influence of oceanic swell on flows over an estuarine intertidal mudflat in San Francisco Bay
View moreDiatom-inferred hydrological changes and Holocene geomorphic transitioning of Africa's largest estuarine system, Lake St Lucia
View moreMapping land use/cover in a tropical coastal area using satellite sensor data, GIS and artificial neural networks
View moreThe magnitude of spatial and temporal variation in d15N and d13C differs between taxonomic groups: Implications for food web studies
View more
Comments