Calanidae
| Calanidae[1] | |
| Dana, 1846 | |
Calanus helgolandicus | |
| Systematyka | |
| Domena | |
|---|---|
| Królestwo | |
| Typ | |
| Podtyp | |
| Gromada | |
| Podgromada | |
| Rząd | Calanoida |
| Rodzina | Calanidae |
Calanidae — rodzina małych skorupiaków z rzędu Calanoida.
- Rodzaje
- Calanoides Brady, 1883
- Calanus Leach, 1819
- Canthocalanus A. Scott, 1909 - jedynym przedstawicielem jest Canthocalanus pauper
- Cosmocalanus Bradford & Jillett, 1974 - jedynym przedstawicielem jest Cosmocalanus darwinii
- Heteroptilus G. O. Sars, 1920
- Mesocalanus Bradford and Jillett, 1974
- Nannocalanus G. O. Sars, 1925 - jedynym przedstawicielem jest Nannocalanus minor
- Neocalanus G. O. Sars, 1925
- Pontoptilus G. O. Sars, 1905 - jedynym przedstawicielem jest Pontoptilus muticus
- Undinula A. Scott, 1909 - jedynym przedstawicielem jest Undinula vulgaris
Przypisy
Media użyte na tej stronie
Wikispecies-logo.svg
Autor: (of code) -xfi-, Licencja: CC BY-SA 3.0
The Wikispecies logo created by Zephram Stark based on a concept design by Jeremykemp.
Autor: (of code) -xfi-, Licencja: CC BY-SA 3.0
The Wikispecies logo created by Zephram Stark based on a concept design by Jeremykemp.
Effect-of-Grazing-Mediated-Dimethyl-Sulfide-(DMS)-Production-on-the-Swimming-Behavior-of-the-marinedrugs-11-02486-s001.ogv
Autor: Breckels M, Bode N, Codling E, Steinke M, Licencja: CC BY 3.0
A custom MATLAB code subtracted the pixel intensities of two consecutive grey-scale video frames and determined the maximum change in pixel intensity, δi, across the matrix obtained from this subtraction. Since copepods were tethered, no movement (breaking) led to small changes in pixel intensity, continuous rhythmic feeding appendage movements (slow swimming) led to intermediate changes in pixel intensity and rapid movements of the body (fast swimming) led to large values in δi. See caption of Fig. 1 for further details.
Autor: Breckels M, Bode N, Codling E, Steinke M, Licencja: CC BY 3.0
A custom MATLAB code subtracted the pixel intensities of two consecutive grey-scale video frames and determined the maximum change in pixel intensity, δi, across the matrix obtained from this subtraction. Since copepods were tethered, no movement (breaking) led to small changes in pixel intensity, continuous rhythmic feeding appendage movements (slow swimming) led to intermediate changes in pixel intensity and rapid movements of the body (fast swimming) led to large values in δi. See caption of Fig. 1 for further details.