SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2904117670> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W2904117670 endingPage "340" @default.
W2904117670 startingPage "329" @default.
W2904117670 abstract "The present study was to determine the effects of salinity on the growth and nutrient bioextraction abilities of Gracilaria and Ulva species, and to determine if these seaweeds can be used for nutrient bioextraction under hypo- and / or hyperosmotic conditions. Two Gracilaria species, G. chorda and G. vermiculophylla, and two Ulva species, U. prolifera and U. compressa, were cultured at various salinity conditions (5, 10, 15, 20, 30, 40, and 50 psu) for 3 weeks. Results showed that the growth rates, nutrient uptake, tissue nutrient contents and nutrient removal were significantly affected by salinity and species. All four species were euryhaline with the highest growth rates at 20 psu. Among the four species, U. prolifera, U. compressa, and G. vermiculophylla showed potential to be used for nutrient bioextraction in estuaries and / or land-based fish farms due to their rapid growth, high nutrient uptake, high tissue carbon and nitrogen accumulation and removal capacities. Key words: Gracilaria; growth; nutrient bioextraction; salinity; seaweed aquaculture; Ulva" @default.
W2904117670 created "2018-12-22" @default.
W2904117670 creator A5012643862 @default.
W2904117670 creator A5013054784 @default.
W2904117670 creator A5028696214 @default.
W2904117670 creator A5049782451 @default.
W2904117670 creator A5087553681 @default.
W2904117670 date "2018-12-15" @default.
W2904117670 modified "2023-09-30" @default.
W2904117670 title "Growth and nutrient bioextraction of Gracilaria chorda, G. vermiculophylla, Ulva prolifera, and U. compressa under hypo- and hyper-osmotic conditions" @default.
W2904117670 cites W124414704 @default.
W2904117670 cites W1638538521 @default.
W2904117670 cites W1963869738 @default.
W2904117670 cites W1967741571 @default.
W2904117670 cites W1968664470 @default.
W2904117670 cites W1969850684 @default.
W2904117670 cites W1977642904 @default.
W2904117670 cites W1984368977 @default.
W2904117670 cites W1986413835 @default.
W2904117670 cites W1989429474 @default.
W2904117670 cites W1991321860 @default.
W2904117670 cites W1998762192 @default.
W2904117670 cites W2001489830 @default.
W2904117670 cites W2010185395 @default.
W2904117670 cites W2017420395 @default.
W2904117670 cites W2020301032 @default.
W2904117670 cites W2027645238 @default.
W2904117670 cites W2039065164 @default.
W2904117670 cites W2042934855 @default.
W2904117670 cites W2044064610 @default.
W2904117670 cites W2046508997 @default.
W2904117670 cites W2047055763 @default.
W2904117670 cites W2053468779 @default.
W2904117670 cites W2053690271 @default.
W2904117670 cites W2057404041 @default.
W2904117670 cites W2059581244 @default.
W2904117670 cites W2065771928 @default.
W2904117670 cites W2067289149 @default.
W2904117670 cites W2069642789 @default.
W2904117670 cites W2074967502 @default.
W2904117670 cites W2078236595 @default.
W2904117670 cites W2092134287 @default.
W2904117670 cites W2097166887 @default.
W2904117670 cites W2108829883 @default.
W2904117670 cites W2116970363 @default.
W2904117670 cites W2117193292 @default.
W2904117670 cites W2128466923 @default.
W2904117670 cites W2158476323 @default.
W2904117670 cites W2161734405 @default.
W2904117670 cites W2169247869 @default.
W2904117670 cites W2267680880 @default.
W2904117670 cites W2328793233 @default.
W2904117670 cites W2346845963 @default.
W2904117670 cites W2529869023 @default.
W2904117670 cites W2549655987 @default.
W2904117670 cites W2575606227 @default.
W2904117670 cites W2594166635 @default.
W2904117670 cites W2599219365 @default.
W2904117670 cites W2602393962 @default.
W2904117670 cites W2784129511 @default.
W2904117670 cites W2811483629 @default.
W2904117670 cites W4251722294 @default.
W2904117670 cites W4256474603 @default.
W2904117670 doi "https://doi.org/10.4490/algae.2018.33.11.13" @default.
W2904117670 hasPublicationYear "2018" @default.
W2904117670 type Work @default.
W2904117670 sameAs 2904117670 @default.
W2904117670 citedByCount "12" @default.
W2904117670 countsByYear W29041176702019 @default.
W2904117670 countsByYear W29041176702020 @default.
W2904117670 countsByYear W29041176702021 @default.
W2904117670 countsByYear W29041176702022 @default.
W2904117670 countsByYear W29041176702023 @default.
W2904117670 crossrefType "journal-article" @default.
W2904117670 hasAuthorship W2904117670A5012643862 @default.
W2904117670 hasAuthorship W2904117670A5013054784 @default.
W2904117670 hasAuthorship W2904117670A5028696214 @default.
W2904117670 hasAuthorship W2904117670A5049782451 @default.
W2904117670 hasAuthorship W2904117670A5087553681 @default.
W2904117670 hasBestOaLocation W29041176701 @default.
W2904117670 hasConcept C129513315 @default.
W2904117670 hasConcept C142796444 @default.
W2904117670 hasConcept C18903297 @default.
W2904117670 hasConcept C2775936685 @default.
W2904117670 hasConcept C2909208804 @default.
W2904117670 hasConcept C505870484 @default.
W2904117670 hasConcept C559758991 @default.
W2904117670 hasConcept C59822182 @default.
W2904117670 hasConcept C76854278 @default.
W2904117670 hasConcept C86803240 @default.
W2904117670 hasConcept C86909935 @default.
W2904117670 hasConceptScore W2904117670C129513315 @default.
W2904117670 hasConceptScore W2904117670C142796444 @default.
W2904117670 hasConceptScore W2904117670C18903297 @default.
W2904117670 hasConceptScore W2904117670C2775936685 @default.
W2904117670 hasConceptScore W2904117670C2909208804 @default.
W2904117670 hasConceptScore W2904117670C505870484 @default.
W2904117670 hasConceptScore W2904117670C559758991 @default.