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.
| Abra Lamarck, 1818 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Abra segmentum (Récluz, 1843) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Acanthocardia tuberculata (Linnaeus, 1758) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Actiniaria Hertwig, 1882 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Agelas oroides (Schmidt, 1864) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Alosa immaculata Bennett, 1835 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Alvania cimex (Linnaeus, 1758) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Ampelisca diadema (Costa, 1853) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Amphicteis gunneri (M. Sars, 1835) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Amphiroa rigida J.V.Lamouroux, 1816 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Amphiura chiajei Forbes, 1843 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Anadara kagoshimensis (Tokunaga, 1906) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Anadyomene stellata (Wulfen) C.Agardh, 1823 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Anthias anthias (Linnaeus, 1758) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Aplysia fasciata Poiret, 1789 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Aplysina aerophoba (Nardo, 1833) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Aplysina cavernicola (Vacelet, 1959) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Arca noae Linnaeus, 1758 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Aricidea (Acmira) lopezi Berkeley & Berkeley, 1956 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Aurelia Lamarck, 1816 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Axinella damicornis (Esper, 1794) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Axinella polypoides Schmidt, 1862 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Axinella verrucosa (Esper, 1794) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Bathyporeia guilliamsoniana (Spence Bate, 1857) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Bothus podas (Delaroche, 1809) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Brachidontes pharaonis (P. Fischer, 1870) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Calpensia nobilis (Esper, 1796) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Calyx nicaeensis (Risso, 1826) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Capitella minima Langerhans, 1880 | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |
| Capitomastus minimus (Langerhans, 1881) (objective synonym of Capitella minima) | Body Size Body Form Fragility Sociability Weight Longevity/Life Span Larval development Fertilisation type Mobility of adult Ecosystem engineering/Bioturbation Environmental position Feeding Mode Habitat Type Zonation Substrate Type Skeleton Tolerance Developmental mechanism Strength of adherence Age at first reproduction Fecundity Mode of reproduction Reproduction strategy of the individual Synchronization of spawning Migrations of adult Metamorphosis type Juvenile mobility Parental care / Brood protection Reproduction / Spawning frequency of the population Predated by Habitat Type of settlement / early development Ecosystem engineering (as defined in Berke 2010) |