Movement Patterns and Migrations in Crabs: Telemetry of Juvenile and Adult Behaviour in Callinectes Sapidus and Maja Squinado

Abstract: Late stage juveniles and adults of Callinectes sapidus in Chesapeake Bay, USA, and Maja squinado off the Ria de Arousa, Spain, were compared for ontogenetic changes in movement patterns (speed, distance, orientation) and habitat selection (depth, substrate) using ultrasonic telemetry and published information. After settling in submerged grass beds in the lower Bay, 20-mm juvenile C. sapidus disperse long distances into low salinity sub-estuaries to feed and grow to maturity in two years. Within the Rhode Rive… Show more

“…Many of these broad-scale physical hydrodynamics are cyclical and animals have evolved behavioural interactions such as the scheduling of spawning to coincide with lunar phases, seasonal winds and tidal currents (Norcross and Shaw, 1984;Morgan and Christy, 1994;Botsford et al, 2001), or to place the juvenile 'growing season' in the warmer, more productive months of the year (Conover, 1992). For example, in Chesapeake Bay, USA, hatching of blue crab larvae (Callinectes sapidus) mainly coincides with night-time ebb tides, which distribute progeny offshore in spring and summer when planktonic food resources for larvae are most abundant (Hines et al, 1995). Clearly, this spatio-temporal scheduling of life histories is critical to the maintenance of populations.…”

“…However, some direct evidence has been provided through telemetric and tagging studies. For example, using ultrasonic telemetry, Hines et al (1995) showed an ontogenetic change in movement pattern of juvenile blue crabs (Callinectes sapidus) in Chesapeake Bay. After settlement to seagrasses, the crabs moved between 50-250 km into shallower, brackish water sub-estuaries in order to evade predators, feed and grow.…”

“…At other times of the year they are found in salt marshes, estuaries and embayments in the western Atlantic Ocean and are known to spawn on daytime high tides in saltmarshes (Middaugh and Takita, 1983). Blue crabs (Callinectes sapidus) in Chesapeake Bay, USA, and spider crabs (Maia squinado) in northwest Spain have also been observed to move in response to seasonal cycles in temperature and food availability (Hines et al, 1995).…”

“…higher temperature) of molting, mating and egg extrusion (Campbell, 1986). Blue crabs are also known to exhibit an over-wintering or hibernation phase in deeper water, which is thought to be associated with an ontogenetic transition from juvenile to sexually mature adults (Hines et al, 1995). Although they may have other functions, these seasonal movements may be better categorised as pre-spawning migrations, rather than seasonal migrations.…”

Movements of Marine Fish and Decapod Crustaceans: Process, Theory and Application

“…Many of these broad-scale physical hydrodynamics are cyclical and animals have evolved behavioural interactions such as the scheduling of spawning to coincide with lunar phases, seasonal winds and tidal currents (Norcross and Shaw, 1984;Morgan and Christy, 1994;Botsford et al, 2001), or to place the juvenile 'growing season' in the warmer, more productive months of the year (Conover, 1992). For example, in Chesapeake Bay, USA, hatching of blue crab larvae (Callinectes sapidus) mainly coincides with night-time ebb tides, which distribute progeny offshore in spring and summer when planktonic food resources for larvae are most abundant (Hines et al, 1995). Clearly, this spatio-temporal scheduling of life histories is critical to the maintenance of populations.…”

“…However, some direct evidence has been provided through telemetric and tagging studies. For example, using ultrasonic telemetry, Hines et al (1995) showed an ontogenetic change in movement pattern of juvenile blue crabs (Callinectes sapidus) in Chesapeake Bay. After settlement to seagrasses, the crabs moved between 50-250 km into shallower, brackish water sub-estuaries in order to evade predators, feed and grow.…”

“…At other times of the year they are found in salt marshes, estuaries and embayments in the western Atlantic Ocean and are known to spawn on daytime high tides in saltmarshes (Middaugh and Takita, 1983). Blue crabs (Callinectes sapidus) in Chesapeake Bay, USA, and spider crabs (Maia squinado) in northwest Spain have also been observed to move in response to seasonal cycles in temperature and food availability (Hines et al, 1995).…”

“…higher temperature) of molting, mating and egg extrusion (Campbell, 1986). Blue crabs are also known to exhibit an over-wintering or hibernation phase in deeper water, which is thought to be associated with an ontogenetic transition from juvenile to sexually mature adults (Hines et al, 1995). Although they may have other functions, these seasonal movements may be better categorised as pre-spawning migrations, rather than seasonal migrations.…”

Movements of Marine Fish and Decapod Crustaceans: Process, Theory and Application

“…Los juveniles de Maja sp. habitan aguas poco profundas, de no más de 15 metros de profundidad, con sustratos arenosos y/o rocosos (Hines et al 1995). La madurez sexual se produce tras la denominada muda terminal, que tiene lugar durante el verano en juveniles de unos dos años de edad .…”

Efectos de la densidad de cultivo y de elementos de refugio en el crecimiento y supervivencia de juveniles de centollo,Maja brachydactyla (Balss, 1922)

Demersal Assemblages in the Irish Sea, St George's Channel and Bristol Channel