Plocamium undetermined
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publication ID |
https://doi.org/10.5252/cryptogamie-algologie2021v42a1 |
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persistent identifier |
https://treatment.plazi.org/id/03CC9215-3A74-FF8A-FCD9-FAD9FE25FAE3 |
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treatment provided by |
Felipe (2024-06-21 22:41:54, last updated 2024-06-22 02:09:50) |
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scientific name |
Plocamium undetermined |
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OF CHILEAN PLOCAMIUM SPECIES ANCESTRAL CLADE
In the phylogenetic trees, the three Chilean Plocamium species formed a clade embedded in sequences from the Southern Hemisphere and genetically close to clades from New Zealand and Australia. We propose that the Chilean Plocamium clade has diverged from Australian or New Zealand colonists, after their arrival by rafting in Chile. Transoceanic dispersal has commonly been reported, especially in taxa with high capacity of dispersal, for example fish ( Blower et al. 2012) or crustacea ( Page et al. 2005). Recurrent dispersal, more than vicariance, has indeed been postulated to be the mechanism leading to the biogeographic patterns and disjunct species distributions observed nowadays in the Southern Ocean ( Waters 2008; Fraser et al. 2013). The importance of transoceanic rafting is less recognized in marine species with limited dispersal capacity (i.e., lack of larvae or short lived propagules) even if recent studies have demonstrated that this mechanism, depending on the species physiological/reproductive tolerance, could be highly efficient, allowing rapid expansion of their distribution ranges ( Thiel & Gutow 2005a, b; Fraser et al. 2011;
Fraser et al. 2013; Waters et al. 2013; Guillemin et al. 2014, 2016; Tala et al. 2019). In the Southern Hemisphere, currents are dominated by the Antarctic Circumpolar Current (ACC) and the West Wind Drift (WWD) ( Waters 2008). Recurrent dispersal from Australia and/or New Zealand to Chile have been registered using molecular data in various macroalgae including the buoyant seaweed Durvillaea antarctica (Chamisso) Hariot ( Fraser et al. 2009) , but also the non-buoyant species Bostrychia intricata (Bory) Montagne , Adenocystis utricularis (Bory) Skottsberg ( Fraser et al. 2013) , Capreolia implexa Guiry & Womersley ( Boo et al. 2014) and Agarophyton chilense (C.J.Bird, McLachlan & E.C.Oliveira) Gurgel, J.N.Norris et Fredericq (as Gracilaria chilensis C.J.Bird, McLachlan & E.C.Oliveira ; Guillemin et al. 2014). All these species show genetic signatures of recent west to east dispersal across vast oceanic distances. In the case of the genus Durvillaea Bory there is evidence of a long-distance dispersal event from New Zealand to temperate Chile that was followed by genetic divergence leading to the speciation of D. incurvata (Suhr) Macaya (a species restricted to Chilean temperate waters) some 3 -10 million years ago ( Fraser et al. 2013; Fraser et al. 2019). Studies in other organisms, as in the coastal sac spiders of the genus Amaurobioides O. Pickard-Cambridge , show repeated events of long-distance dispersal along the WWD followed by divergence, revealing a remarkable pattern of “stepping-stone” speciation all around the Southern Ocean ( Ceccarelli et al. 2016).
BLOWER D. C., PANDOLFI J. M., BRUCE B. D., GOMEZ-CABRERA M. C. & OVENDEN J. R. 2012. - Population genetics of Australian white sharks reveals fine-scale spatial structure, transoceanic dispersal events and low effective population sizes. Marine Ecology Progress Series 455: 229 - 244. https: // doi. org / 10.3354 / meps 09659
BOO G. H., MANSILLA A., NELSON W., BELLGROVE A. & BOO S. M. 2014. - Genetic connectivity between transoceanic populations of Capreolia implexa (Gelidiales, Rhodophyta) in cool temperate waters of Australasia and Chile. Aquatic Botany 119: 73 - 79. https: // doi. org / 10.1016 / j. aquabot. 2014.08.004
CECCARELLI S. F., OPELL B. D., HADDAD C. R., RAVEN R. J., SOTO E. M. & RAMIREZ M. J. 2016. - Around the world in eight million years: Historical biogeography and evolution of the spray zone spider Amaurobioides (Araneae: Anyphaenidae). PLoS ONE 11 (10): e 0163740.
FRASER C. I., NIKULA R., SPENCER H. G. & WATERS J. M. 2009. - Kelp genes reveal effects of subantarctic sea ice during the Last Glacial Maximum. Proceedings of the National Academy of Sciences of USA 106: 3249 - 3253. https: // doi. org / 10.1073 / pnas. 0810635106
FRASER C. I., NIKULA R. & WATERS J. M. 2011. - Oceanic rafting by a coastal community. Proceedings of the Royal Society of London Series B: Biological Sciences 278: 649 - 655.
FRASER C. I., ZUCCARELLO G. C., SPENCER H. G., SALVATORE L. C., GARCIA G. R. & WATERS J. M. 2013. - Genetic affinities between trans-oceanic populations of non-buoyant macroalgae in the high latitudes of the Southern Hemisphere. PloS ONE 8 (7): e 69138.
FRASER C. I., VELASQUEZ M., NELSON W., MACAYA E. & CAMERON H. H. 2019. - The biogeographic importance of buoyancy in macroalgae: A case study of the southern bull kelp genus Durvillaea (Phaeophyceae), including descriptions of two new species. Journal of Phycology 56: 23 - 36. https: // doi. org / 10.1111 / jpy. 12939
GUILLEMIN M. - L., VALERO M., FAUGERON S., NELSON W. & DESTOMBE C. 2014. - Tracing the trans-pacific evolutionary history of a domesticated seaweed (Gracilaria chilensis) with archaeological and genetic data. PLoS ONE 9 (12): e 114039.
GUILLEMIN M. - L., VALERO M., TELLIER F., MACAYA E. C., DESTOMBE C. & FAUGERON S. 2016. - Phylogeography of seaweeds in the South East Pacific: Complex evolutionary processes along a latitudinal gradient, in HU Z. - M. & FRASER C. I (eds), Seaweed Phylogeography. Springer, Dordrecht: 251 - 278.
PAGE T. J., BAKER A. M., COOK B. D. & HUGHES J. M. 2005. - Historical transoceanic dispersal of a freshwater shrimp: the colonisation of the South Pacific by the genus Paratya (Atyidae). Journal of Biogeography 32: 581 - 593. https: // doi. org / 10.1111 / j. 1365 - 2699.2004.01226. x
TALA F., LOPEZ B. A., VELASQUEZ M., JELDRES R., MACAYA E. C., MANSILLA A., OJEDA J. & THIEL M. 2019. - Long-term persistence of the floating bull kelp Durvillaea antarctica from the South-East Pacific: Potential contribution to local and transoceanic connectivity. Marine Environmental Research 149: 67 - 79. https: // doi. org / 10.1016 / j. marenvres. 2019.05.013
THIEL M. & GUTOW L. 2005 a. - The ecology of rafting in the marine environment I. The floating substrata. Oceanography Marine Biology Annual Reviews 42: 181 - 263.
WATERS J. M. 2008. - Driven by the West Wind Drift? A synthesis of southern temperate marine biogeography, with new directions for dispersalism. Journal of Biogeography 35 (3): 417 - 427. https: // doi. org / 10.1111 / j. 1365 - 2699.2007.01724. x
WATERS J. M., FRASER C. I. & HEWITT G. M. 2013. - Founder takes all: density-dependent processes structure biodiversity. Trends in Ecology & Evolution 28: 78 - 85.
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