This is simply an alphabetical list of all taxa for which trait information is available in the database. The bar on the right side indicates the information coverage for each taxon and trait. When hovering over the bar with the mouse cursor, a tooltip with the trait name is shown. Blue colour indicates that information is present for this trait.
| Abarenicola pacifica Healy & Wells, 1959 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Aberrantidae Wolf, 1987 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Abyssoninoe Orensanz, 1990 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Abyssoninoe hibernica (Mc Intosh, 1903) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Acoetidae Kinberg, 1856 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Acrocirridae Banse, 1969 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Acrocirrus frontifilis (Grube, 1860) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Aeolosomatidae | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Aglaophamus Kinberg, 1865 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Aglaophamus agilis (Langerhans, 1880) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Aglaophamus circinata (Verrill in Smith & Harger, 1874) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Alciopidae Ehlers, 1864 (subjective synonym of Alciopidae according to Rouse, G.W., Pleijel, F. (2001) ) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Alitta Bakken & Wilson, 2005 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Alitta succinea (Frey & Leuckart, 1847) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Alitta virens (M. Sars, 1835) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Alkmaria Horst, 1919 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Alkmaria romijni Horst, 1919 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Alvinellidae Desbruyères & Laubier, 1986 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Amaeana trilobata (Sars, 1863) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Amage | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Amage adspersa (Grube, 1863) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Amblyosyllis Grube, 1857 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Amblyosyllis dorsigera Claparède, 1864 (subjective synonym of Amblyosyllis formosa according to San Martín, G. (2003) ) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Amblyosyllis formosa (Claparède, 1863) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Amblyosyllis speciosa Izuka, 1912 | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Ammochares aedificator Andrews, 1891 (subjective synonym of Owenia fusiformis according to http://www.marinespecies.org ) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Ammochares assimilis Sars, 1851 (subjective synonym of Owenia fusiformis according to Hartmann-Schröder, G. (1996) ) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Ammochares brasiliensis Hansen, 1882 (subjective synonym of Owenia fusiformis according to http://www.marinespecies.org ) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Ammochares occidentale Johnson, 1901 (subjective synonym of Owenia fusiformis according to http://www.marinespecies.org ) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
| Ammochares orientalis Grube, 1878 (subjective synonym of Owenia fusiformis according to http://www.marinespecies.org ) | Body size (max) Complex species Depth zonation (benthos) Depth zonation (pelagic) Developmental mechanism Egg size Factors triggering reproduction Fecundity Feeding type Fertilization type Age at first reproduction Habitat type Habitat type of settlement/ early development Intra- and interspecific competition Juvenile mobility Larval development Larval feeding type Larval mode of development Lifespan Location of parental care Tube/ burrow material Metamorphosis type Migrations of adult Mobility of adult Mode of reproduction Parental care/ Brood protection Pattern of oogenesis Population sex ratio Predated by Reproduction strategy of the individual Reproduction temperature Resorption of eggs Ecosystem engineering Substrate type of settlement Sexual metamorphosis Sociability Spawning frequency of the population Sperm type Survival salinity Survival temperature Epitoky Synchronization of spawning Tolerance (AMBI index) Typically feeds on Physiographic feature Substrate type Feeding structure Environmental position |
