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Phycologia Volume 52, 2013 - Issue 6
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Articles

Endophyte presence as a potential stressor on growth and survival in Antarctic macroalgal hosts

Kathryn M. SchoenrockUniversity of Alabama at Birmingham, 1300 University Blvd., Rm. 464, Birmingham, AL35294Correspondence[email protected]
,
Charles D. AmslerUniversity of Alabama at Birmingham, 1300 University Blvd., Rm. 464, Birmingham, AL35294
,
James B. McClintockUniversity of Alabama at Birmingham, 1300 University Blvd., Rm. 464, Birmingham, AL35294
&
Bill J. BakerUniversity of South Florida, 4202 E. Fowler Ave., BSF 308, Tampa, FL33620
Pages 595-599 | Received 04 Jun 2013, Accepted 28 Aug 2013, Published online: 13 May 2019
 
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Abstract

Schoenrock K.M., Amsler C.D., McClintock J.B. and Baker B.J. 2013. Endophyte presence as a potential stressor on growth and survival in Antarctic macroalgal hosts. Phycologia 52: 595–599. DOI: 10:2216/13–188.1

Filamentous algal endophytes are common in many species of macroalgae along the Antarctic Peninsula, but their influence on host physiology is unknown. However, worldwide endophyte–macroalgae symbioses are known to be detrimental to vital functions of a host. The growth and survival of four Antarctic rhodophyte species were examined in situ under varying loads of endophyte infection. Growth was measured through relative growth rate and surface-area-corrected growth rate, and survivorship of individuals was documented throughout the experiment. The relationship between hosts and their endophytes was best described as innocuous in Myriogramme manginii, mildly pathogenic in Gymnogongrus turquetii and Trematocarpus antarcticus, and pathogenic in Iridaea cordata. Deterioration of thalli and decreased growth rates may be natural in the late austral summer when this experiment took place; however, the effects of increased infection probably expedited deterioration of the host. Endophytes in this study were pigmented green and brown filamentous algae, most of which are never seen as free-living thalli, and some of which may be obligate endophytes.

ACKNOWLEDGEMENTS

This work would not be possible without the Raytheon Polar Services staff of Palmer Station and the University of Alabama at Birmingham/University of South Florida field teams including Maggie Amsler, Alan Maschek, Jason Cuce, Julie Schram, Bill Dent, Jackie Salm, and Ruth McDowell. Support for this work was provided by National Science Foundation awards ANT- 0838773 (CDA, JBM) and ANT-0828776 (BJB) from the Antarctic Organisms and Ecosystems program.

SUPPLEMENTARY DATA

Supplementary data associated with this article can be found online at http://dx.doi.org/10.2216/13-188.1.s1.

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