Pathogen inferred to have dispersed thousands of kilometres at sea, infecting multiple keystone kelp species
Pathogen inferred to have dispersed thousands of kilometres at sea, infecting multiple keystone kelp species
Protistan pathogens have been found to infect populations of some large brown macroalgae. Infection could reduce the ability of macroalgae to withstand hydrodynamic pressures through weakening tissues and reducing flexibility. Widespread mortality of macroalgae if disease outbreaks were to occur could have important flow-on consequences for biodiversity and ecosystem function. Recent discoveries of the protistan pathogen Maullinia infecting the ecologically keystone southern bull kelp Durvillaea in Chile, Australia, and on Marion Island, raise the possibility that this pathogen is dispersing across ocean basins with buoyant hosts. To determine whether Maullinia also infects southern bull kelp in New Zealand, samples of gall-like tissue from Durvillaea antarctica, D. poha, and D. willana were collected from intertidal sites, and genetic analyses (sequencing of partial 18S rRNA) carried out. Maullinia infections were detected in all three species of Durvillaea. Phylogenetic analyses show a close relationship of New Zealand Maullinia to M. braseltonii previously detected in Chile and on Marion Island. Based on its genetic similarity to distant lineages and its presence on buoyant hosts that have been shown to drift long distances at seas, we infer that Maullinia has dispersed across the Southern Ocean through rafting of infected bull kelp. Understanding the capacity of pathogens to disperse across oceans is critical part of forecasting and managing ecosystem responses to environmental change.
1-7
Mabey, Abigail, Lisa
95abdef9-c780-4cee-ba13-961f855f17b3
Parvizi, Elahe
0ab52469-c365-4360-9bc7-d3fb4b018e13
Fraser, Ceridwen I.
2a752a8c-9233-4675-86ac-5951fb882500
18 March 2021
Mabey, Abigail, Lisa
95abdef9-c780-4cee-ba13-961f855f17b3
Parvizi, Elahe
0ab52469-c365-4360-9bc7-d3fb4b018e13
Fraser, Ceridwen I.
2a752a8c-9233-4675-86ac-5951fb882500
Mabey, Abigail, Lisa, Parvizi, Elahe and Fraser, Ceridwen I.
(2021)
Pathogen inferred to have dispersed thousands of kilometres at sea, infecting multiple keystone kelp species.
Marine Biology, 168 (47), , [47].
(doi:10.1007/s00227-021-03853-8).
Abstract
Protistan pathogens have been found to infect populations of some large brown macroalgae. Infection could reduce the ability of macroalgae to withstand hydrodynamic pressures through weakening tissues and reducing flexibility. Widespread mortality of macroalgae if disease outbreaks were to occur could have important flow-on consequences for biodiversity and ecosystem function. Recent discoveries of the protistan pathogen Maullinia infecting the ecologically keystone southern bull kelp Durvillaea in Chile, Australia, and on Marion Island, raise the possibility that this pathogen is dispersing across ocean basins with buoyant hosts. To determine whether Maullinia also infects southern bull kelp in New Zealand, samples of gall-like tissue from Durvillaea antarctica, D. poha, and D. willana were collected from intertidal sites, and genetic analyses (sequencing of partial 18S rRNA) carried out. Maullinia infections were detected in all three species of Durvillaea. Phylogenetic analyses show a close relationship of New Zealand Maullinia to M. braseltonii previously detected in Chile and on Marion Island. Based on its genetic similarity to distant lineages and its presence on buoyant hosts that have been shown to drift long distances at seas, we infer that Maullinia has dispersed across the Southern Ocean through rafting of infected bull kelp. Understanding the capacity of pathogens to disperse across oceans is critical part of forecasting and managing ecosystem responses to environmental change.
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Mabey2021_Article_PathogenInferredToHaveDisperse
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Published date: 18 March 2021
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Local EPrints ID: 452606
URI: http://eprints.soton.ac.uk/id/eprint/452606
ISSN: 0025-3162
PURE UUID: 8e2e6563-1696-4560-beda-0ffb1cfdc1bf
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Date deposited: 11 Dec 2021 11:29
Last modified: 16 Mar 2024 14:36
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Author:
Elahe Parvizi
Author:
Ceridwen I. Fraser
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