Invasion History
First Non-native Panama (Pacific) Tidal Record: 1998Panama Invasion History:
Invasion History in Panama:
Branchiomma bairdi is native to the Caribbean Coast of Panama. On the Pacific coast, where it is introduced, it was collected on coral rubble in 1996–1998 iin Coiba National Park, an island in the Gulf of Chiriquí (1998, Capa et al. 2013).
Invasion history elsewhere in the world:
Branchiomma bairdi is a tube-dwelling sabellid polychaete. Adults are simultaneous hermaphrodites, with sperm and oocytes occurring in the same body segments, but are also capable of asexual reproduction, through scissiparity. In this process, a new worm buds off the posterior segments of the abdomen, developing two-tailed appearance, and a branched tube, in the early stages. Budded individuals have fewer thoracic segments, as few as 4 rather than the usual 8. As a result of asexual reproduction, B. bairdi was often found in small groups. Asexual reproduction was common in Mexican Pacific populations (Tovar-Hernandez et al. 2009a; Tovar-Hernandez et al. 2009b), but rare in the Gulf of Taranto, Italy (Lezzi et al. 2016). This worm can undergo hermaphroditic sexual reproduction at the same time as asexual reproduction. Sperm and eggs are released and fertilized in mucus inside the tubes. It is not known whether self-fertilization occurs (Tovar et al. 2011b; Del Pasqua et al. 2017). Larvae reach an early trochophore stage, and begin to swim, searching settlement sites by about 72 hours. The pelagic larval period is less than 3 days. Soon after settlement, the larvae develop a rudimentary radiolar crown, and begin feeding (Del Pasqua et al. 2017). The life cycle is annual in the Mediterranean (Lezzi et al. 2016).
Branchiomma bairdi is known from a wide range of fouling communities in warm-temperate to tropical waters. The low temperature tolerance is not known for this species, but growth and reproduction are reduced in the winter in the Gulf of Taranto, Mediterranean (Lezzi et al. 2016). In the Gulf of California, they tolerate temperatures up to 32 C, salinities of 26 to 47 PSU, and oxygen as low as 3.05 mg/l. It can also tolerate up to 24 hours of desiccation (Keppel et al. 2015). Typical habitats for this worm include mangroves, rocks, coral rubble, marina piers, pilings, ropes, boat hulls, oyster, and shrimp farms, in shallow waters (intertidal to 6 m) (Capa and Lopez 2005; Arias et al. 2013; Keppel et al. 2015; Lezzi et al. 2016; Bastida-Zavala et al. 2016). Sabellids are suspension feeders, feeding on phytoplankton and detritus particles through downstream ciliary entrainment on radioles (Fauchald and Jumars 1979). In Mediterranean populations, a wide range of invertebrates were found living in association with B. bairdi's tubes, including mollusks, echinoderms, crustaceans, polychaetes, bryozoans, and tunicates (Giangrande et al. 2012; Tovar-Hernandez et al. 2012; Arias et al. 2013). These worms are vulnerable to predators, as indicated by missing or regenerating radioles (Keppel et al. 2015).
Description
Branchiomma bairdi is a tube-dwelling sabellid polychaete. Sabellids are often called 'feather-duster worms' and are characterized by having a prostomium with the palps modified into a crown of paired feather-like radioles. The peristomium is modified into an anterior collar, into which the radioles can be withdrawn. The body has a short thoracic region (6-8 chaetigers) and a longer abdominal region, of a few-to-many chaetigers. A ciliated ventral groove runs from the ventral anus along the ventral side of the abdomen and then swings to the dorsal side of the thorax, continuing as a divide in the peristomial collar (Blake and Ruff 2007).
In worms of the genus Branchiomma, the oral region is surrounded by a crown of numerous radioles, comprising 25-50% of body length. The rachis (central shaft) of the radiole bears pairs of epithelial flaps called stylodes, which are evenly spaced along the rachis. The stylodes can vary in shape, resembling straps, fingers, leaves, paddles, tongues, etc. Some species have 1-3 pairs of macrostylodes, at least twice the size of neighboring pairs. Paired compound eyes are located along the length of the radioles. A pair of dorsal lips, occur dorsolateral to the mouth – these are ciliated, tongue-like structures, about 25-50% of the length of the radiolar crown. Ventral lips are present. Eyespots are present between the rami of the parapodia of the thorax and abdomen. Parapodia are short, with bundles of notochaetae and neurochetae on elevations (tori) on each chaetiger. The dorsal thoracic notochaetae are elongate and narrowly hooded, while the more ventral notochaetae are spinelike, arranged in bundles, forming irregular, longitudinal chaetal rows. The thoracic chaetigers also bear rows of uncinae, short, deeply embedded chaetae, avicular (bird-like) in form, with small teeth above the main fang and very short handle.
Branchiomma bairdi ranges from 13 to 44 mm long and its body color varies from dark olive-green with white spots to pale or dark brownish with black spots or yellow-green, with brown and white spots. The branchial crown has green, brown, or orange bands alternating with white bands around the radioles, each band occupying the space of three pinnules and with color extending into the pinnules and stylodes—epithelial flaps that are evenly spaced along the rachis (central shaft). The rachis has orange rhomboid spots. Its radiolar crown consists of 10–24 radioles surrounding the oral region, comprising about one-third to one half the body length. The radioles are united at the base by a reduced web-like membrane and the base bears longitudinal bands of diffuse brown spots in line with each radiole axil. The basal stylodes are paired and finger-like, shorter, or equal to the width of the rachis. Two pairs of macrostylodes are located in the distal half of the radioles and are long (2–3x longer than the stylodes) and strap-like. The radiolar eyes are red to orange, small and compound, and not present between the last pair of stylodes and the tip of the radiole. The dorsal lips—ciliated, tongue-like structures—are long, about 1/3 the length of the radioles and tapering, supported by a longitudinal ridge or mid-rib. The dorsal collar has free, well-separated margins, with lateral margins above the junction of the crown and thorax. The collar bears spine-like chaetae in compact bundles. The uncini are avicular and occupy about one-third of the crest, with the crest surmounted by two rows of teeth, with three distinct teeth in the anterior row and a few very small teeth. There are 4–9 thoracic segments and 30–75 abdominal chaetigers. The ventral shields are rectangular, with the first anterior shield wider than the posterior ones, which are uniform in size. The thoracic tori are next to the ventral shields. The abdominal tori are smaller than those on the thorax. There is a fecal groove passing around the right side of body, from last thoracic segment to the second segment of the ventral abdomen and on to the bilobed pygidium (Tovar-Hernandez and Knight-Jones 2006; Tovar-Hernandez et al. 2009; Cepeda and Rodrigues-Flores 2017; Del Pasqua et al. 2018; Keppel et al. 2018).
Taxonomy
Taxonomic Tree
Kingdom: | Animalia | |
Phylum: | Annelida | |
Class: | Polychaeta | |
Subclass: | Palpata | |
Order: | Canalipalpata | |
Suborder: | Sabellida | |
Family: | Sabellidae | |
Genus: | Branchiomma | |
Species: | bairdi |
Synonyms
Potentially Misidentified Species
Branchiomma boholensis is an Indo-Pacific species, introduced to the Mediterranean (Licciano et al. 2006).
Branchiomma coheni
Branchiomma coheni is an Eastern Pacific species, known from Baja California to Panama, introduced to Tampa Bay, Florida (Keppel et al. 2015)
Branchiomma conspersum
Branchiomma conspersumi is native to the Gulf of Mexico and Caribbean, and has been introduced to Hawaii and Australia (Keppel et al. 2018).
Branchiomma luctuosum
Branchiomma luctuosum is native to the Indo-Pacific, and has invaded the Mediterranean Sea through the Suez Canal (Licciano and Giangrande 2008).
Ecology
General:
Branchiomma bairdi is a tube-dwelling sabellid polychaete. Adults are simultaneous hermaphrodites, with sperm and oocytes occurring in the same body segments, but are also capable of asexual reproduction, through scissiparity. In this process, a new worm buds off the posterior segments of the abdomen, developing two-tailed appearance, and a branched tube, in the early stages. Budded individuals have fewer thoracic segments, as few as 4 rather than the usual 8. As a result of asexual reproduction, B. bairdi was often found in small groups. Asexual reproduction was common in Mexican Pacific populations (Tovar-Hernandez et al. 2009a; Tovar-Hernandez et al. 2009b), but rare in the Gulf of Taranto, Italy (Lezzi et al. 2016). This worm can undergo hermaphroditic sexual reproduction at the same time as asexual reproduction. Sperm and eggs are released and fertilized in mucus inside the tubes. It is not known whether self-fertilization occurs (Tovar et al. 2011b; Del Pasqua et al. 2017). Larvae reach an early trochophore stage, and begin to swim, searching settlement sites by about 72 hours. The pelagic larval period is less than 3 days. Soon after settlement, the larvae develop a rudimentary radiolar crown, and begin feeding (Del Pasqua et al. 2017). The life cycle is annual in the Mediterranean (Lezzi et al. 2016).
Branchiomma bairdi is known from a wide range of fouling communities in warm-temperate to tropical waters. The low temperature tolerance is not known for this species, but growth and reproduction are reduced in the winter in the Gulf of Taranto, Mediterranean (Lezzi et al. 2016). In the Gulf of California, they tolerate temperatures up to 32 C, salinities of 26 to 47 PSU, and oxygen as low as 3.05 mg/l. It can also tolerate up to 24 hours of desiccation (Keppel et al. 2015). Typical habitats for this worm include mangroves, rocks, coral rubble, marina piers, pilings, ropes, boat hulls, oyster and shrimp farms, in shallow waters (intertidal to 6 m) (Capa and Lopez 2005; Arias et al. 2013; Keppel et al. 2015; Lezzi et al. 2016; Bastida-Zavala et al. 2016). Sabellids are suspension feeders, feeding on phytoplankton and detritus particles through downstream ciliary entrainment on radioles (Fauchald and Jumars 1979). In Mediterranean populations, a wide range of invertebrates were found living in association with B. bairdi's tubes, including mollusks, echinoderms, crustaceans, polychaetes, bryozoans, and tunicates (Giangrande et al. 2012; Tovar-Hernandez et al. 2012; Arias et al. 2013). These worms are vulnerable to predators, as indicated by missing or regenerating radioles (Keppel et al. 2015).
Food:
Phytoplankton, detritus
Consumers:
Crabs, shrimps, fishes
Competitors:
Other tube-dwelling polychaetes
Trophic Status:
Suspension feederHabitats
General Habitat | Marinas & Docks | None |
General Habitat | Coarse Woody Debris | None |
General Habitat | Rocky | None |
General Habitat | Oyster Reef | None |
General Habitat | Vessel Hull | None |
General Habitat | Mangroves | None |
General Habitat | Coral reef | None |
Life History
Tolerances and Life History Parameters
Minimum Temperature (ºC) | 18.4 | Field, Keppel et al. 2016 |
Maximum Temperature (ºC) | 32.1 | Field, Keppel et al. 2016 |
Minimum Salinity (‰) | 25.6 | Field, Keppel et al. 2016 |
Maximum Salinity (‰) | 47 | Field, Keppel et al. 2016 |
Maximum Length (mm) | 41 | Keppel et al. 2016 |
Broad Temperature Range | None | Warm-Temperate-Tropical |
Broad Salinity Range | None | Polyhaline-Euhaline |
General Impacts
Branchiomma bairdi is a tube-dwelling sabellid polychaete capable of rapid sexual and asexual reproduction. It has developed dense populations in Mediterranean lagoons and harbors, and in estuaries in Sinaloa, Mexico (Arias et al. 2013; Tovar-Hernandez et al. 2011; Lezzi et al. 2016). Among its favored habitats are aquaculture operations, where it can foul oysters, cllture ponds, and water pipes (Tovar-Hernandez et al. 2012). This worm is also an ecological engineer, creating dense clusters of tubes which can be colonized by a wide range of invertebrates (Giangrande et al. 2012; Tovar-Hernandez et al. 2012; Arias et al. 2013).
Occurrence Map
OCC_ID | Author | Year | Date | Locality | Status | Latitude | Longitude |
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