SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2339969208> ?p ?o ?g. }

Showing items 1 to 100 of ±114 with 100 items per page.

W2339969208 abstract "Abstract Aquaculture is one of the fastest growing industries in the world, and marine-based farming in particular is growing the fastest. With the ever-increasing demand for seafood, marine aquaculture (mariculture) has great potential to help meet this demand. Due to the highly diverse and variable nature of marine environments, it is critical to understand species-level trade-offs that can influence the suitability of a species or species groups for certain ocean conditions. Particularly for mariculture, physiological tolerance of a species to temperature fluctuations and low dissolved oxygen (DO) and its capacity to grow quickly are important attributes. Although there has been extensive research pertaining to the respective fields of tolerance and growth of marine organisms, there has been little overlap between the seemingly separate, yet related fields. More specifically, a relationship between traits of tolerance and growth is not well understood – especially across multiple taxonomic groups. In order to explore and compare possible tolerance and life-history relationships of mariculture species, we complied information on temperature tolerance range, minimum dissolved oxygen observations, growth parameters (asymptotic size and rate), trophic level (TL), taxon, region, and market value for 178 distinct marine farmed species, which included finfish ( n = 101), crustaceans ( n = 20), molluscs ( n = 52), and other aquatic invertebrates ( n = 5), including a cephalopod, a cordate, and three echinoderms. Using descriptive statistics and regression modelling, we found a significant inverse relationship between temperature tolerance range and minimum DO observations (i.e., a positive trend between thermal and hypoxia tolerance, as defined). We also found evidence of a possible trade-off between overall tolerance ability and growth. Specifically, larger, slower growing species tend to have wider temperature ranges and lower minimum DO levels, but potentially at the cost of being less ecologically sustainable (as measured by TL). In addition, tropical species appear less resilient when accounting for both thermal extremes and lower observed DO levels compared to subtropical and temperate species. These patterns highlight associations and uncertainties of traits important for mariculture practices, including species and trait selection, as well as adaptive capacity of regional ventures relative to climate change. Statement of relevance Potential trade-offs of adaptive tolerance and growth." @default.
W2339969208 created "2016-06-24" @default.
W2339969208 creator A5044712268 @default.
W2339969208 creator A5056427982 @default.
W2339969208 creator A5057896970 @default.
W2339969208 date "2016-07-01" @default.
W2339969208 modified "2023-09-26" @default.
W2339969208 title "Synthesis and comparative analysis of physiological tolerance and life-history growth traits of marine aquaculture species" @default.
W2339969208 cites W1972344148 @default.
W2339969208 cites W1976403158 @default.
W2339969208 cites W1996121427 @default.
W2339969208 cites W2006699374 @default.
W2339969208 cites W2028740963 @default.
W2339969208 cites W2039285362 @default.
W2339969208 cites W2041575607 @default.
W2339969208 cites W2045334870 @default.
W2339969208 cites W2045714496 @default.
W2339969208 cites W2049171398 @default.
W2339969208 cites W2057193468 @default.
W2339969208 cites W2059121908 @default.
W2339969208 cites W2087716278 @default.
W2339969208 cites W2088393429 @default.
W2339969208 cites W2104893775 @default.
W2339969208 cites W2108213480 @default.
W2339969208 cites W2109724904 @default.
W2339969208 cites W2111284967 @default.
W2339969208 cites W2114577622 @default.
W2339969208 cites W2116853263 @default.
W2339969208 cites W2119359662 @default.
W2339969208 cites W2120312641 @default.
W2339969208 cites W2124238755 @default.
W2339969208 cites W2125098741 @default.
W2339969208 cites W2127417947 @default.
W2339969208 cites W2128232632 @default.
W2339969208 cites W2132446930 @default.
W2339969208 cites W2139921047 @default.
W2339969208 cites W2146537638 @default.
W2339969208 cites W2148333466 @default.
W2339969208 cites W2155826711 @default.
W2339969208 cites W2165998301 @default.
W2339969208 cites W2166177997 @default.
W2339969208 cites W2167875938 @default.
W2339969208 cites W2267470873 @default.
W2339969208 doi "https://doi.org/10.1016/j.aquaculture.2016.04.018" @default.
W2339969208 hasPublicationYear "2016" @default.
W2339969208 type Work @default.
W2339969208 sameAs 2339969208 @default.
W2339969208 citedByCount "17" @default.
W2339969208 countsByYear W23399692082017 @default.
W2339969208 countsByYear W23399692082018 @default.
W2339969208 countsByYear W23399692082019 @default.
W2339969208 countsByYear W23399692082020 @default.
W2339969208 countsByYear W23399692082021 @default.
W2339969208 countsByYear W23399692082022 @default.
W2339969208 countsByYear W23399692082023 @default.
W2339969208 crossrefType "journal-article" @default.
W2339969208 hasAuthorship W2339969208A5044712268 @default.
W2339969208 hasAuthorship W2339969208A5056427982 @default.
W2339969208 hasAuthorship W2339969208A5057896970 @default.
W2339969208 hasConcept C14429324 @default.
W2339969208 hasConcept C159985019 @default.
W2339969208 hasConcept C172269249 @default.
W2339969208 hasConcept C18903297 @default.
W2339969208 hasConcept C192562407 @default.
W2339969208 hasConcept C197248824 @default.
W2339969208 hasConcept C19829342 @default.
W2339969208 hasConcept C204323151 @default.
W2339969208 hasConcept C2909208804 @default.
W2339969208 hasConcept C505870484 @default.
W2339969208 hasConcept C71640776 @default.
W2339969208 hasConcept C72958200 @default.
W2339969208 hasConcept C86803240 @default.
W2339969208 hasConcept C86909935 @default.
W2339969208 hasConceptScore W2339969208C14429324 @default.
W2339969208 hasConceptScore W2339969208C159985019 @default.
W2339969208 hasConceptScore W2339969208C172269249 @default.
W2339969208 hasConceptScore W2339969208C18903297 @default.
W2339969208 hasConceptScore W2339969208C192562407 @default.
W2339969208 hasConceptScore W2339969208C197248824 @default.
W2339969208 hasConceptScore W2339969208C19829342 @default.
W2339969208 hasConceptScore W2339969208C204323151 @default.
W2339969208 hasConceptScore W2339969208C2909208804 @default.
W2339969208 hasConceptScore W2339969208C505870484 @default.
W2339969208 hasConceptScore W2339969208C71640776 @default.
W2339969208 hasConceptScore W2339969208C72958200 @default.
W2339969208 hasConceptScore W2339969208C86803240 @default.
W2339969208 hasConceptScore W2339969208C86909935 @default.
W2339969208 hasLocation W23399692081 @default.
W2339969208 hasOpenAccess W2339969208 @default.
W2339969208 hasPrimaryLocation W23399692081 @default.
W2339969208 hasRelatedWork W1148430361 @default.
W2339969208 hasRelatedWork W1571937139 @default.
W2339969208 hasRelatedWork W1774773350 @default.
W2339969208 hasRelatedWork W1805688475 @default.
W2339969208 hasRelatedWork W2089827346 @default.
W2339969208 hasRelatedWork W2136710590 @default.
W2339969208 hasRelatedWork W2165998301 @default.
W2339969208 hasRelatedWork W2216542193 @default.
W2339969208 hasRelatedWork W2282564498 @default.
W2339969208 hasRelatedWork W2355700210 @default.