Add to ORKGHigh-resolution ocean circulation models have increased our understanding of the movement and distribution of worldwide ocean currents, which were previously unknown and difficult to study. The metabolic expenditure data obtained through open-flow respirometric analysis was put into an energy budget context by comparing it to their available reserved energy in the body upon entering the swimming life phase. We modeled the dispersal range of green turtle hatchling from Chagar Hutang in various monsoon season using the particle-tracking program Ichthyop v3.2 and ocean surface current output from HYCOM (Hybrid Coordinate Ocean Model). The prediction distribution suggests that ocean current variability determines their movements into diff...
Although oceanic dispersal in larval and juvenile marine animals is widely studied, the relative con...
The ability of individuals to actively control their movements, especially during the early life sta...
Animal tracking technology has proved instrumental in detailing the migrations of large marine organ...
Oceanic currents are known to broadly shape the dispersal of juvenile sea turtles during their pelag...
Oceanic currents are known to broadly shape the dispersal of juvenile sea turtles during their pelag...
The SLIM oceanographic model was used to examine the fate of hatchling flatback turtles (Natator dep...
In the South Atlantic Ocean, few data exist regarding the dispersal of young oceanic sea turtles. We...
In the South Atlantic Ocean, few data exist regarding the dispersal of young oceanic sea turtles. We...
Environmental factors shape the spatial distribution and dynamics of populations. Understanding how ...
The ability of captive-reared turtles to survive in the wild is not precisely known, nor are movemen...
Studies of metabolism are central to the understanding of the ecology, behavior, and evolution of re...
WOS:000529189000042International audienceUnderstanding how ocean currents impact the distribution an...
Long-distance dispersal and ontogenetic shifts in habitat use are characteristic of numerous marine ...
Although oceanic dispersal in larval and juvenile marine animals is widely studied, the relative con...
The ability of individuals to actively control their movements, especially during the early life sta...
Animal tracking technology has proved instrumental in detailing the migrations of large marine organ...
Oceanic currents are known to broadly shape the dispersal of juvenile sea turtles during their pelag...
Oceanic currents are known to broadly shape the dispersal of juvenile sea turtles during their pelag...
The SLIM oceanographic model was used to examine the fate of hatchling flatback turtles (Natator dep...
In the South Atlantic Ocean, few data exist regarding the dispersal of young oceanic sea turtles. We...
In the South Atlantic Ocean, few data exist regarding the dispersal of young oceanic sea turtles. We...
Environmental factors shape the spatial distribution and dynamics of populations. Understanding how ...
The ability of captive-reared turtles to survive in the wild is not precisely known, nor are movemen...
Studies of metabolism are central to the understanding of the ecology, behavior, and evolution of re...
WOS:000529189000042International audienceUnderstanding how ocean currents impact the distribution an...
Long-distance dispersal and ontogenetic shifts in habitat use are characteristic of numerous marine ...
Although oceanic dispersal in larval and juvenile marine animals is widely studied, the relative con...
The ability of individuals to actively control their movements, especially during the early life sta...
Animal tracking technology has proved instrumental in detailing the migrations of large marine organ...