FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3210155264> ?p ?o ?g. }

• W3210155264 endingPage "151649" @default.
• W3210155264 startingPage "151649" @default.
• W3210155264 abstract "Water temperature and body size are considered to be important factors influencing the diving capabilities of ectothermic reptiles. Although high water temperature and small body size tend to cause short dive durations, previous studies have reported that olive ridley turtles, the smallest sea turtle species distributed in tropical regions, often conduct prolonged dives. To understand diving behavior during the post-nesting foraging periods, especially the relationship between dive duration and water temperature for this species, satellite relay data loggers were attached to 10 nesting females (straight carapace length: 60.5 ± 2.6 cm, estimated body mass: 30.5 ± 4.0 kg) in West Papua, Indonesia, in 2017 and 2019. During the post-nesting tracking period (34–153 days), the turtles migrated southward to the Arafura Sea. A total of 9469 dives were observed, and 28.9% of the dives were longer than 1 h (mean: 44.0 ± 33.1 min, max: 220 min), although the turtles experienced high water temperatures (25.5 ± 2.6 °C). The behavioral aerobic dive limits (behavioral ADLs) calculated from the relationship between the dive depth and duration of olive ridley turtles were 89.6 min and 167.7 min for V-shaped and U-shaped dives, respectively. Even for dives above the behavioral ADL (1.8% for V-shaped and 2.0% for U-shaped dives), the turtles dove 1.1 ± 0.1 (max: 1.6) and 1.1 ± 0.1 (max: 1.3) times longer than the behavioral ADLs for V-shaped and U-shaped dives, respectively. On the other hand, the calculated ADLs (cADLs), estimated from the metabolic rates and oxygen stores of loggerhead turtles, were 51.2 ± 20.3 min (range: 24.1–139.3 min) and 99.8 ± 38.5 min (range: 39.4–258.3 min) for V-shaped and U-shaped dives, respectively. The turtles often exceeded the cADLs (21.4–29.1% for V-shaped dives and 21.2–42.2% for U-shaped dives), and they dove 1.4 ± 0.3 (max: 3.1) and 1.3 ± 0.3 (max: 3.4) times longer than the cADLs for V-shaped and U-shaped dives, respectively. However, those long dives were not considered anaerobic because of the short post-dive surface durations (4.7 ± 5.8 min). Additionally, the relationship between dive duration and water temperature indicated that olive ridley turtles dove longer than loggerhead and green turtles in the high temperature range (> 20 °C). This study confirms that the diving capacity of olive ridley turtles is qualitatively different from those of loggerhead and green turtles for several reasons, such as low metabolic rates and/or low activity levels at high water temperatures. • Satellite relay data loggers were attached to 10 olive ridley turtles to evaluate their diving capability. • Although the turtles experienced high water temperature (25.5 ± 2.6 °C), 28.9% of dives were longer than 1 h. • The behavioral aerobic dive limit of olive ridley turtles were 89.6 and 167.7 min for V- and U-shaped dives, respectively. • Olive ridley turtles conducted longer dives than loggerhead and green turtles in the high water temperature range (> 20 °C). • These results indicate a qualitative difference in diving capability between olive ridley and loggerhead/green turtles." @default.
• W3210155264 created "2021-11-08" @default.
• W3210155264 creator A5007095901 @default.
• W3210155264 creator A5023679107 @default.
• W3210155264 creator A5053919512 @default.
• W3210155264 creator A5075824242 @default.
• W3210155264 date "2022-01-01" @default.
• W3210155264 modified "2023-10-03" @default.
• W3210155264 title "Long dive capacity of olive ridley turtles (Lepidochelys olivacea) at high water temperature during the post-nesting foraging period in the Arafura Sea" @default.
• W3210155264 cites W1903489480 @default.
• W3210155264 cites W1970600475 @default.
• W3210155264 cites W1976071582 @default.
• W3210155264 cites W1988168200 @default.
• W3210155264 cites W1988310399 @default.
• W3210155264 cites W1988734031 @default.
• W3210155264 cites W1989899547 @default.
• W3210155264 cites W1996156537 @default.
• W3210155264 cites W1996496248 @default.
• W3210155264 cites W2009226753 @default.
• W3210155264 cites W2011725463 @default.
• W3210155264 cites W2017626200 @default.
• W3210155264 cites W2019671546 @default.
• W3210155264 cites W2023048621 @default.
• W3210155264 cites W2032861332 @default.
• W3210155264 cites W2033994196 @default.
• W3210155264 cites W2041316588 @default.
• W3210155264 cites W2042835213 @default.
• W3210155264 cites W2044922371 @default.
• W3210155264 cites W2048553454 @default.
• W3210155264 cites W2056465726 @default.
• W3210155264 cites W2070491504 @default.
• W3210155264 cites W2075140509 @default.
• W3210155264 cites W2075185301 @default.
• W3210155264 cites W2090009821 @default.
• W3210155264 cites W2094636971 @default.
• W3210155264 cites W2099888561 @default.
• W3210155264 cites W2100722480 @default.
• W3210155264 cites W2113501905 @default.
• W3210155264 cites W2122198911 @default.
• W3210155264 cites W2145956997 @default.
• W3210155264 cites W2150913199 @default.
• W3210155264 cites W2154200629 @default.
• W3210155264 cites W2154615293 @default.
• W3210155264 cites W2159150533 @default.
• W3210155264 cites W2163893978 @default.
• W3210155264 cites W2169080539 @default.
• W3210155264 cites W2169126559 @default.
• W3210155264 cites W2270371245 @default.
• W3210155264 cites W2319152716 @default.
• W3210155264 cites W2320725296 @default.
• W3210155264 cites W2320762791 @default.
• W3210155264 cites W2324388523 @default.
• W3210155264 cites W2328909243 @default.
• W3210155264 cites W2469442032 @default.
• W3210155264 cites W2554311618 @default.
• W3210155264 cites W2610469195 @default.
• W3210155264 cites W2767324333 @default.
• W3210155264 cites W2804497807 @default.
• W3210155264 cites W2883701961 @default.
• W3210155264 cites W2998204947 @default.
• W3210155264 cites W3092766559 @default.
• W3210155264 cites W3172519367 @default.
• W3210155264 cites W4231536782 @default.
• W3210155264 doi "https://doi.org/10.1016/j.jembe.2021.151649" @default.
• W3210155264 hasPublicationYear "2022" @default.
• W3210155264 type Work @default.
• W3210155264 sameAs 3210155264 @default.
• W3210155264 citedByCount "3" @default.
• W3210155264 countsByYear W32101552642022 @default.
• W3210155264 countsByYear W32101552642023 @default.
• W3210155264 crossrefType "journal-article" @default.
• W3210155264 hasAuthorship W3210155264A5007095901 @default.
• W3210155264 hasAuthorship W3210155264A5023679107 @default.
• W3210155264 hasAuthorship W3210155264A5053919512 @default.
• W3210155264 hasAuthorship W3210155264A5075824242 @default.
• W3210155264 hasConcept C109766332 @default.
• W3210155264 hasConcept C165287380 @default.
• W3210155264 hasConcept C18903297 @default.
• W3210155264 hasConcept C505870484 @default.
• W3210155264 hasConcept C67206012 @default.
• W3210155264 hasConcept C84766238 @default.
• W3210155264 hasConcept C86803240 @default.
• W3210155264 hasConceptScore W3210155264C109766332 @default.
• W3210155264 hasConceptScore W3210155264C165287380 @default.
• W3210155264 hasConceptScore W3210155264C18903297 @default.
• W3210155264 hasConceptScore W3210155264C505870484 @default.
• W3210155264 hasConceptScore W3210155264C67206012 @default.
• W3210155264 hasConceptScore W3210155264C84766238 @default.
• W3210155264 hasConceptScore W3210155264C86803240 @default.
• W3210155264 hasFunder F4320334764 @default.
• W3210155264 hasFunder F4320334789 @default.
• W3210155264 hasFunder F4320338075 @default.
• W3210155264 hasLocation W32101552641 @default.
• W3210155264 hasOpenAccess W3210155264 @default.
• W3210155264 hasPrimaryLocation W32101552641 @default.
• W3210155264 hasRelatedWork W1991554973 @default.
• W3210155264 hasRelatedWork W2039629795 @default.
• W3210155264 hasRelatedWork W2156134837 @default.

• next