Hostname: page-component-586b7cd67f-r5fsc Total loading time: 0 Render date: 2024-11-24T06:29:03.708Z Has data issue: false hasContentIssue false

Early development of two Capitella species (Annelida: Capitellidae) from the Gulf of Mexico

Published online by Cambridge University Press:  22 August 2019

Nuria Méndez*
Affiliation:
Unidad Académica Mazatlán. Instituto de Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México, P.O. Box 811, Mazatlán 82000, Sinaloa, México
Justin Hilliard
Affiliation:
Department of Marine Biology, Texas A&M University Galveston Campus, Galveston, USA
Anja Schulze
Affiliation:
Department of Marine Biology, Texas A&M University Galveston Campus, Galveston, USA
*
Author for correspondence: Nuria Méndez, E-mail: [email protected]

Abstract

Early development of the polychaetes Capitella sp. TF from Tampa, Florida and Capitella sp. TV from Tamiahua Lagoon, Veracruz was studied under laboratory conditions. Our observations indicate that hermaphrodites occur in Capitella sp. TF, but not in Capitella sp. TV. Length and volume of larvae and early juveniles were measured daily. Both species appear to have lecithotrophic development. Sizes and duration of the developmental stages varied widely, as in most known species of Capitella. Characteristic features of Capitella sp. TF include very small hermaphrodites with a distinct dorsal pigmentation pattern and characteristically shaped brood tubes with a centrally thickened region. Embryos forced to abandon the brood did not survive more than 3 days, and handling the brood produced alterations in timing. Ciliated metatrochophores from Capitella sp. TV survived inside the brood without the female for at least 14 days and some larvae hatched and died during settling. Some of these larvae were abnormal, with two rounded protuberances in the two ends. Mortality was high. Fungi and protozoans appeared in the dishes and probably partially induced the production of thicker mucus in the brood tubes, delay in metamorphosis, juvenile mortality, worm length and failure in coupling. Size and duration of the developmental stages were distinctly different from the other putative lecithotrophic species of the complex. These differences and other characteristics of each species discard the possibility that they belong to a previously described species. Our results are applicable to future ecological, morphological and molecular studies of each species, habitat and phylogenetics.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2019 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adkins, M and Schulze, A (2011) Development of Capitella sp. G from Galveston Bay, Texas. Marine Biology Research 7, 202207.Google Scholar
Blake, JA, Grassle, JP and Eckelbarger, KJ (2009) Capitella teleta, a new species designation for the opportunistic and experimental Capitella sp. I, with a review of the literature for confirmed records. Zoosymposia 2, 2553.Google Scholar
Eckelbarger, KJ and Grassle, JP (1983) Ultrastructural differences in the eggs and ovarian follicle cells of Capitella (polychaeta) sibling species. Biological Bulletin 165, 379393.Google Scholar
Forbes, TL and Lopez, GR (1990) The effect of food concentration, body size, and environmental oxygen tension on the growth of the deposit-feeding polychaete, Capitella capitata species 1. Limnology and Oceanography 35, 15351544.Google Scholar
Forbes, TL, Forbes, VE and Depledge, MH (1994) Individual physiological responses to environmental hypoxia and organic enrichment: implications for early soft-bottom community succession. Journal of Marine Research 52 52, 10811110.Google Scholar
Gamenick, I (1997) Ökophysiologische und enzymatische Differenzierung verschiedener Geschwisterarten des Capitella capitata – Komplexes (Annelida, Polychaeta) (Ph.D. thesis). Faculty of Biology, University of Hamburg, Germany.Google Scholar
Gamenick, I, Abbiati, M and Giere, O (1998 a) Field distribution and sulphide tolerance of Capitella capitata (Annelida: Polychaeta) around shallow water hydrothermal vents off Milos (Aegean Sea). A new sibling species? Marine Biology 130, 447453.Google Scholar
Gamenick, I, Vismann, B, Grieshaber, MK and Giere, O (1998 b) Ecophysiological differentiation of Capitella capitata (Polychaeta). Sibling species from different sulfidic habitats. Marine Ecology Progress Series 175, 155166.Google Scholar
George, JD (1984) The behaviour and life history of a mangrove-dwelling capitellid (Polychaeta). In Hutchings, PA (ed.), Proceedings of the First International Polychaete Conference. Sydney: The Linnaean Society of New South Wales, pp. 323337.Google Scholar
Grassle, JP and Butman, CA (1989) Active habitat selection by larvae of the polychaetes Capitella spp. I and II, in a laboratory flume. In Ryland, JS and Tyler, PA (eds), 23rd European Marine Biology Symposium. Reproduction, Genetics and Distributions of Marine Organisms. Fredensborg: Olsen and Olsen, pp. 107114.Google Scholar
Grassle, JF and Grassle, JP (1974) Opportunistic life histories and genetic systems in marine polychaetes. Journal of Marine Research 32, 253284.Google Scholar
Grassle, JP and Grassle, JF (1976) Sibling species in the marine pollution indicator Capitella (polychaeta). Science 192, 567569.Google Scholar
Hilliard, J, Hajduk, M and Schulze, A (2016) Species delineation in the Capitella species complex (Annelida: Capitellidae): geographic and genetic variation in the northern Gulf of Mexico. Invertebrate Biology 135, 415422.Google Scholar
Lardicci, C and Ceccherelli, G (1994) Dinamica di popolazione di una specie del complesso Capitella capitata in un piccolo bacino salmastro dell'isola d'Elba. Biologia Marina Mediterranea 1, 355356.Google Scholar
Lawrence, JR and Snyder, RA (1998) Feeding behaviour and grazing impacts of a Euplotes sp. on attached bacteria. Canadian Journal of Microbiology 44, 623629.Google Scholar
Linton, DL and Taghun, GL (2000) Feeding, growth, and fecundity of Capitella sp. I in relation to sediment organic concentration. Marine Ecology Progress Series 205, 229240.Google Scholar
Méndez, N (1995) Non-pelagic development of Capitella capitata (Polychaeta) in the littoral zone of Barcelona, Spain. Scientia Marina 59, 95101.Google Scholar
Méndez, N (2002 a) Experimental evidence of polymorphism of sexual development in Capitella sp. B (Polychaeta: Capitellidae) from Barcelona, Spain. Scientia Marina 66, 103110.Google Scholar
Méndez, N (2002 b) Preliminary observations on the effect of cadmium on larval development of Capitella sp. B from Barcelona. Bulletin of Marine Science 70, 899908.Google Scholar
Méndez, N (2005) Effects of teflubenzuron on larvae and juveniles of the polychaete Capitella sp. B from Barcelona, Spain. Water, Air, and Soil Pollution 160, 259269.Google Scholar
Méndez, N (2006) Life cycle of Capitella sp. Y (Polychaeta: Capitellidae) from Estero del Yugo, Mazatlan, Mexico. Journal of the Marine Biological Association of the United Kingdom 86, 263269.Google Scholar
Méndez, N (2016) Laboratory development of Capitella sp. A (Annelida: Capitellidae) from a NW Mediterranean fish farm reared under different organic enrichment conditions. Scientia Marina 80, 535542.Google Scholar
Méndez, N and Barata, C (2015) Effects of the antidepressant fluoxetine in spiked-sediments on developmental and reproductive features of the polychaetes Capitella teleta and Capitella sp. A. Ecotoxicology 24, 106118.Google Scholar
Méndez, MN and Cardell, MJ (1994) Effects of sample fixation on body shape of Capitella capitata (Polychaeta: Capitellidae). Mémoires du Muséum National d'Histoire Naturelle Paris 162, 111117.Google Scholar
Méndez, N and Green-Ruiz, C (2006) Cadmium and copper effects on larval development and mortality of the polychaete Capitella sp. Y from Estero del Yugo, Mazatlan, Mexico. Water, Air, and Soil Pollution 171, 291299.Google Scholar
Méndez, N, Romero, J and Flos, J (1997) Population dynamics and production of the polychaete Capitella capitata in the littoral zone of Barcelona (Spain, NW Mediterranean). Journal of Experimental Marine Biology and Ecology 218, 263284.Google Scholar
Méndez, N, Flos, J and Romero, J (1998) Littoral soft-bottom polychaete communities in a pollution gradient in front of Barcelona (Western Mediterranean, Spain). Bulletin of Marine Science 63, 167178.Google Scholar
Méndez, N, Linke-Gamenick, I and Forbes, VE (2000) Variability in reproductive mode and larval development within the Capitella capitata species-complex. Invertebrate Reproduction and Development 38, 131142.Google Scholar
Pearson, M and Pearson, TH (1991) Variation in populations of Capitella capitata (Fabricius, 1780) (Polychaeta) from the west coast of Scotland. Ophelia Supplement 5, 363370.Google Scholar
Pearson, TH and Rosenberg, R (1978) Macrobenthic succession in relation to organic enrichment and pollution of the marine environment. Oceanography and Marine Biology. An Annual Review 16, 229311.Google Scholar
Pechenik, JA and Cerulli, TR (1991) Influence of delayed metamorphosis on survival, growth, and reproduction of the marine polychaete Capitella sp. I. Journal of Experimental Marine Biology and Ecology 151, 1727.Google Scholar
Pechenik, JA, Chaparro, OR, Pilnick, A, Karpi, M, Acquafredda, M and Burns, R (2016) Effects of embryonic exposure to salinity stress or hypoxia on post-metamorphic growth and survival of the polychaete Capitella teleta. Biological Bulletin 231, 103112.Google Scholar
Qian, P and Chia, FS (1992) Effects of diet type on the demographics of Capitella capitata (Annelida: Polychaeta): lecithotrophic development vs planktotrophic development. Journal of Experimental Marine Biology and Ecology 157, 159179.Google Scholar
Reish, DJ (1980) Use of polychaetous annelids as test organisms bioassay experiments. In Buikema, AL Jr and Cairns, J Jr (eds), Aquatic Invertebrate Bioassays, ASTM STP 715. West Conshohocken, PA: American Society for Testing and Materials, pp. 140154.Google Scholar
Reish, DJ, Piltz, FM, Martin, JM and Word, JQ (1974) Induction of abnormal polychaete larvae by heavy metals. Marine Pollution Bulletin 5, 125126.Google Scholar
Schneider, CA, Rasband, WS and Eliceiri, KW (2012) NIH image to ImageJ: 25 years of image analysis. Nature Methods 9, 671675.Google Scholar
Seaver, EC, Thamm, K and Hill, SD (2005) Growth patterns during segmentation in the two polychaete annelids, Capitella sp. I and Hydroides elegans: comparisons at distinct life history stages. Evolution & Development 7, 312326.Google Scholar
Silva, CF, Seixas, VC, Barroso, R, Di Domenico, M, Amaral, ACZ and Paiva, PC (2017) Demystifying the Capitella capitata complex (Annelida, Capitellidae) diversity by morphological and molecular data along the Brazilian coast. PLoS ONE 12, e0177760.Google Scholar
Tenore, KR (1977) Growth of Capitella capitata cultured in various levels of detritus from different sources. Limnology and Oceanography 22, 936941.Google Scholar
Tomioka, S, Kondoh, T, Sato-Okoshi, W, Ito, K, Kakui, K and Kajihara, H (2016) Cosmopolitan or cryptic species? A case study of Capitella teleta (Annelida: Capitellidae). Zoological Science 33, 545554.Google Scholar
Tsutsumi, H and Kikuchi, T (1984) Study of the life history of Capitella capitata (Polychaeta: Capitellidae) in Amakusa, South Japan, including a comparison with other geographical regions. Marine Biology 80, 315321.Google Scholar
Tsutsumi, H, Fukunaga, S, Fujita, N and Sumida, M (1990) Relationship between growth of Capitella sp. and organic enrichment of the sediment. Marine Ecology Progress Series 63, 157162.Google Scholar
Warren, LM (1976) A population study of the polychaete Capitella capitata in Plymouth. Marine Biology 38, 209216.Google Scholar
Wu, BL, Qian, PY and Zhang, SL (1991) Morphology, reproduction, ecology and allozyme electrophoresis of three Capitella sibling species in Qingdao (Polychaeta: Capitellidae). Ophelia Supplement 5, 391400.Google Scholar
Zhang, SL and Wu, BL (1988) Taxonomy of the Capitella capitata complex (Polychaeta). Marine Science Bulletin 1, 187192.Google Scholar
Supplementary material: File

Méndez et al. supplementary material

Méndez et al. supplementary material 1

Download Méndez et al. supplementary material(File)
File 27.1 KB