Invasion History
First Non-native North American Tidal Record: 2003First Non-native West Coast Tidal Record: 2003
First Non-native East/Gulf Coast Tidal Record:
General Invasion History:
Perophora japonica is native to Japan, Korea, and Peter the Great Bay, near Vladivostok, Russia (Nishikawa 1991, Sanamyan 1998). It is introduced to Humboldt Bay and San Diego Bay, California and parts of Europe. Ship hull fouling is the probable vector for this tunicate.
North American Invasion History:
Invasion History on the West Coast:
Perophora japonica was found on oyster rafts in the North Slough of Humboldt Bay, California (CA) in August 2003. This appeared to be an established population (Lambert 2005). In 2011, P. japonica was identified from San Diego Bay, CA (Gretchen Lambert 2012, personal communication). In 2012, specimens were found on fouling plates in Bodega Harbor, CA, apparently established (Ruiz et al. unpublished data). Fouling on recreational boats and commercial ships or with aquaculture species are possible vectors for this tunicate.
Invasion History Elsewhere in the World:
Perophora japonica was found in Lezardrieux on the north coast of Brittany, France, in 1982 (Monniot and Monniot 1985, cited by Nishikawa et al. 2000). Subsequently, it appeared at other European coastal sites including Guernsey, in the Channel Islands (in 2003, MarLin 2007), Plymouth, England (in 1999, Nishikawa et al. 2000; MarLin 2000), St. Vaast, Normandy, France (Goulletquer et al. 2002), and the Oosterschelde in the Netherlands (in 2000, Gittenberger 2007). From 2008 to 2009, two colonies were found in Baiona, Spain and are the first records on the Iberian peninsula (El Nagar et al. 2010).
Description
Perophora japonica is a colonial tunicate. Colonies consist of small (4-6 mm), translucent, yellow-green ellipsoidal zooids growing from stolons at the base of the tunic. The longitudinal vessels of the branchial sac are incomplete. The mantle musculature is delicate and connected to the anterior region around and between the siphons. The mantle surface is reticulated with pale greenish corpuscles with about 20 mantle muscles on each side; 25-40 stigmata, in rows on both sides of the mantle surface, and 7-8 branchial papillae, in rows. There are about 20 tentacles around the oral aperature. A unique feature of this species is the occurrence of terminal buds, bright yellow star-shaped plaques at the tip of the stolon which break off, float away, and grow into new colonies (Nishikawa 1991; Nishikawa et al. 2000; Lambert 2005).
Taxonomy
Taxonomic Tree
Kingdom: | Animalia | |
Phylum: | Chordata | |
Subphylum: | Tunicata | |
Class: | Ascidiacea | |
Order: | Phlebobranchia | |
Family: | Perophoridae | |
Genus: | Perophora | |
Species: | japonica |
Synonyms
Potentially Misidentified Species
None
Perophora annectens
None
Ecology
General:
Life History- A colonial (or compound) tunicate consists of many zooids, bearing most or all of the organs of a solitary tunicate, but modified to varying degrees for colonial life. Colonial tunicates of the family Perophoridae have zooids resembling solitary tunicates, rounded or oval in shape, but connected by stolons. Zooids can be crowded together, but do not coalesce. Each zooid has an oral and atrial siphon. Water is pumped into the oral siphon, through finely meshed ciliated gills on the pharynx, where phytoplankton and detritus is filtered, and passed on mucus strings to the stomach and intestines. Excess waste is expelled in the outgoing atrial water (Van Name 1945; Barnes 1983).
Colonial tunicates reproduce both asexually, by budding, and sexually, from fertilized eggs developing into larvae. Buds form from the stolons. Colonies vary in size, and can range from small clusters of zooids to huge spreading masses. The zooids are hermaphroditic, with eggs and sperm being released to the atrial chamber. Eggs may be self-fertilized or fertilized by sperm from nearby animals, but some species have a partial block to self-fertilization. Embryos are incubated within the atrial chamber, and hatch into tadpole larvae, with a muscular tail and a notochord, eyespots, and a set of adhesive papillae. The lecithotrophic (non-feeding, yolk-dependent) larvae are expelled on hatching, and swim briefly before settlement. Swimming periods are usually less than a day, and some larvae can settle immediately after release, but the larval period can be longer at lower temperatures. On settlement, the tail is absorbed, the gill basket expands, and the tunicate begins to feed by filtering (Van Name 1945; Barnes 1983).
Food:
Phytoplankton, detritus
Trophic Status:
Suspension Feeder
SusFedHabitats
General Habitat | Marinas & Docks | None |
General Habitat | Coarse Woody Debris | None |
General Habitat | Rocky | None |
Salinity Range | Polyhaline | 18-30 PSU |
Salinity Range | Euhaline | 30-40 PSU |
Tidal Range | Subtidal | None |
Vertical Habitat | Epibenthic | None |
Tolerances and Life History Parameters
Maximum Length (mm) | None | 4 mm (zooids) |
Broad Temperature Range | None | Cold temperate-Warm temperate |
Broad Salinity Range | None | Polyhaline-Euhaline |
General Impacts
In Japan, where Perophora japonica is native, it has been reported to foul cultured oysters (Arakawa 1990, cited by da Rocha et al. 2009); however, no impacts have been reported from introduced populations.Regional Distribution Map
Bioregion | Region Name | Year | Invasion Status | Population Status |
---|---|---|---|---|
P030 | Mission Bay | 2019 | Non-native | Established |
P090 | San Francisco Bay | 2014 | Non-native | Unknown |
NEP-V | Northern California to Mid Channel Islands | 2012 | Non-native | Established |
P112 | _CDA_P112 (Bodega Bay) | 2012 | Non-native | Established |
P020 | San Diego Bay | 2011 | Non-native | Established |
NEP-VI | Pt. Conception to Southern Baja California | 2011 | Non-native | Established |
P130 | Humboldt Bay | 2003 | Non-native | Established |
NEP-IV | Puget Sound to Northern California | 2003 | Non-native | Established |
Occurrence Map
OCC_ID | Author | Year | Date | Locality | Status | Latitude | Longitude |
---|---|---|---|---|---|---|---|
698667 | Introduced Species Study | 2011 | 2011-05-03 | Marine Terminal (Paco) | Non-native | 32.6584 | -117.1191 |
700943 | Lambert 2005 | 2003 | Kuiper Oyster Raft, Humboldt Bay | Non-native | 40.8722 | -124.1490 | |
767402 | Ruiz et al., 2015 | 2012 | 2012-08-16 | Tomales-SNPS, Bodega Bay, California, USA | Non-native | 38.1359 | -122.8719 |
774453 | Ruiz et al., 2022 | 2014 | 2014-09-12 | Ballena Isle Marina, San Francisco Bay, California, USA | Non-native | 37.7662 | -122.2656 |
References
Abbott, Donald P.; Lambert, Charles C.; Lambert, Gretchen; Newberry, A. Todd (2007) The Light and Smith Manual: Intertidal Invertebrates from Central California to Oregon (4th Edtion), University of California Press, Berkeley, CA. Pp. 949-964Bancila. Raluca I.; Skolka, Marius; Ivanova, Petya; Surugiu, Victor; Stefanova, Kremena; Todorova. Valentina; Zenetos, Argyro (2022) Alien species of the Romanian and Bulgarian Black Sea coast: state of knowledge, uncertainties, and needs for future research, Aquatic Invasions 17: Published online
Barnes, Robert D. (1983) Invertebrate Zoology, Saunders, Philadelphia. Pp. 883
Bishop, John D. D.; Wood, Christine A.; Lévêque, Laurent; Yunnie, Anna L. E.; Viard, Frédérique (2015b) Repeated rapid assessment surveys reveal contrasting trends in occupancy of marinas by non-indigenous species on opposite sides of the western English Channel, Marine Pollution Bulletin 95: 699-706
Bishop, John D.D.; Wood, Christine A.; Yunnie, Anna L. E.; Griffiths, Carly A. (2015a) Unheralded arrivals: non-native sessile invertebrates in marinas on the English coast, Aquatic Invasions 10: 249-264
California Department of Fish and Wildlife (2014) Introduced Aquatic Species in California Bays and Harbors, 2011 Survey, California Department of Fish and Wildlife, Sacramento CA. Pp. 1-36
da Rocha, Rosana M.; Kremer, Laura P.; Baptista, Mariah S.; Metri, Rafael (2009) Bivalve cultures provide habitat for exotic tunicates in southern Brazil., Aquatic Invasions 4(1): 195-205
El Nagar, Aliya; Huys, Rony; Bishop, John D. D. (2010) Widespread occurrence of the Southern Hemisphere ascidian Corella eumyota Traustedt, 1882 on the Atlantic coast of Iberia, Aquatic Invasions 5(2): 169-173
Gittenberger, Adriaan (2007) Recent population expansions of non-native ascidians in the Netherlands., Journal of Experimental Marine Biology and Ecology 342: 122-126
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Liu, Wenliang; Liang, Xiaoli ; Zhu, Xiaojing (2015) A new record and mitochondrial identification of Synidotea laticauda Benedict, 1897 (Crustacea: Isopoda: Valvifera: Idoteidae) from the Yangtze Estuary, China, Zootaxa 4294: 371-380
Locke, Andrea (2009) A screening procedure for potential tunicate invaders of Atlantic Canada., Aquatic Invasions 4(1): 71-79
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https://doi.org/10.3391/ ai.2023.18.1.101962
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Nishikawa, Teruki (1991) The Ascidians of the Japan Sea., Publication of the Seto Marine Biological Laboratory 35(1/3): 25-170
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Ribeiro, Romeu S.; Mata, Ana M. T. ; Salgado, Ricardo; Gandra, Vasco; Afonso, Inês; Galhanas, Dina; Dionísio, Maria Ana; Chainho, Paula (2023) Undetected non-indigenous species in the Sado estuary (Portugal), a coastal system under the pressure of multiple vectors of introduction, Journal of Coastal Conservation 27(53): Published online
https://doi.org/10.1007/s11852-023-00979-3
Ruiz, Gregory M.; Geller, Jonathan (2018) Spatial and temporal analysis of marine invasions in California, Part II: Humboldt Bay, Marina del Re, Port Hueneme, and San Francisco Bay, Smithsonian Environmental Research Center & Moss Landing Laboratories, Edgewater MD, Moss Landing CA. Pp. <missing location>
Sanamyan, Karen (1998) Ascidians from the North-Western Pacific region. 5. Phlebobranchia, Ophelia 49(2): 97-116
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Van Name, Willard G. (1945) The North and South American ascidians, Bulletin of the American Museum of Natural History 84: 1-462