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Articles

Fine-scale population genetic structure of sugar kelp, Saccharina latissima (Laminariales, Phaeophyceae), in eastern Maine, USA

Timothy S. BretonDivision of Natural Sciences, University of Maine at Farmington, 173 High Street, Farmington, ME04938, USACorrespondence[email protected]
,
Jeremy C. NettletonEnvironmental and Biological Sciences Division, University of Maine at Machias, 116 O'Brien Avenue, Machias, ME04654, USA
,
Brennah O'ConnellDivision of Natural Sciences, University of Maine at Farmington, 173 High Street, Farmington, ME04938, USA
&
Margaret BertocciDivision of Natural Sciences, University of Maine at Farmington, 173 High Street, Farmington, ME04938, USA
Pages 32-40 | Received 02 Jun 2017, Accepted 01 Aug 2017, Published online: 08 Mar 2019

REFERENCES

  • Adams J.M., Gallagher J.A. & Donnison I.S. 2009. Fermentation study on Saccharina latissima for bioethanol production considering variable pre-treatments. Journal of Applied Phycology 21: 569–574.
  • Alberto F., Raimondi P.T., Reed D.C., Coelho N.C., Leblois R., Whitmer A. & Serrão E.A. 2010. Habitat continuity and geographic distance predict population genetic differentiation in giant kelp. Ecology 91: 49–56.
  • Alberto F., Raimondi P.T., Reed D.C., Watson J.R., Siegel D.A., Mitarai S., Coelho N. & Serrão E.A. 2011. Isolation by oceanographic distance explains genetic structure for Macrocystis pyrifera in the Santa Barbara Channel. Molecular Ecology 20: 2543–2554.
  • Augyte S., Yarish C., Redmond S. & Kim J.K. 2017. Cultivation of a morphologically distinct strain of the sugar kelp, Saccharina latissima forma angustissima, from coastal Maine, USA, with implications for ecosystem services. Journal of Applied Phycology DOI: 10.1007/s10811-017-1102-x.
  • Bartsch I., Wiencke C., Bischof K., Buchholz C.M., Buck B.H., Eggert A., Feuerpfeil P., Hanelt D., Jacobsen S., Karez R., Karsten U., Molis M., Roleda M.Y., Schubert H., Schumann R., Valentin K., Weinberger F. & Wiese J. 2008. The genus Laminaria sensu lato: recent insights and developments. European Journal of Phycology 43: 1–86.
  • Belkhir K., Borsa P., Chikhi L., Raufaste N. & Bonhomme F. 1996–2004. GENETIX 4.05.2 logiciel sous Windows TM pour la génétique des populations. Laboratorie Génome, Populations, Interactions, CNRS UMR 5171, Université de Montpellier II, Montpellier, France.
  • Billot C., Engel C.R., Rousvoal S., Kloareg B. & Valero M. 2003. Current patterns, habitat discontinuities and population genetic structure: the case of kelp Laminaria digitata in the English Channel. Marine Ecology Progress Series 253: 111–121.
  • Bolton J.J. 2010. The biogeography of kelps (Laminariales, Phaeophyceae): a global analysis with new insights from recent advances in molecular phylogenetics. Helgoland Marine Research 64: 263–279.
  • Borum J., Pederson M.F., Krause-Jensen D., Christensen P.B. & Nielsen K. 2002. Biomass, photosynthesis and growth of Laminaria saccharina in a high-arctic fjord, NE Greenland. Marine Biology 141: 11–19.
  • Brinkhuis B.H., Mariani E.C., Breda V.A. & Brady-Campbell M.M. 1984. Cultivation of Laminaria saccharina in New York Marine Biomass Program. Hydrobiologia 116: 226–282.
  • Coombs J.A., Letcher B.H. & Nislow K.H. 2008. CREATE: a software to create input files from diploid genotypic data for 52 genetic software programs. Molecular Ecology Resources 8: 578–580.
  • Cornish M.L., Critchley A.T. & Mouritsen O.G. 2015. A role for dietary macroalgae in the amelioration of certain risk factors associated with cardiovascular disease. Phycologia 54: 649–666.
  • Coyer J.A., Haorau G., Costa J.F., Hogerdijk B., Serrão E.A., Billard E., Valero M., Pearson G.A. & Olsen J.L. 2011. Evolution and diversification within the intertidal brown macroalgae Fucus spiralis/F. vesiculosis species complex in the North Atlantic. Molecular Phylogenetics and Evolution 58: 283–296.
  • Devit D.C. & Saunders G.W. 2010. A DNA barcode examination of the Laminariaceae (Phaeophyceae) in Canada reveals novel biogeographical and evolutionary insights. Phycologia 49: 235–248.
  • Earl D.A. & vonHoldt B.M. 2012. STRUCTURE HARVESTER: a website and program for visualizing STRUCTURE output and implementing the Evanno method. Conservation Genetics Resources 4: 359–361.
  • Evanno G., Regnaut S. & Goudet J. 2005. Detecting the number of clusters of individuals using the software STRUCTURE: a simulation study. Molecular Ecology 14: 2611–2620.
  • Excoffier L. & Lischer H.E.L. 2010. Arlequin suite version 3.5: a new series of programs to perform population genetics analyses under Linux and Windows. Molecular Ecology Resources 10: 564–567.
  • Faugeron S., Martínez E.A., Correa J.A., Cardenas L., Destombe C. & Valero M. 2004. Reduced genetic diversity and increased population differentiation in peripheral and overharvested populations of Gigartina skottsbergii (Rhodophyta, Gigartinales) in southern Chile. Journal of Phycology 40: 454–462.
  • Forbord S., Skjermo J., Arff J., Handå A., Reitan K.I., Bjerregaard R. & Lüning K. 2012. Development of Saccharina latissima (Phaeophyceae) hatcheries with year-round production of zoospores and juvenile sporophytes on culture ropes for kelp aquaculture. Journal of Applied Phycology 24: 393–399.
  • Freitas J.R.C., Salinas Morrondo J.M. & Cremades Ugarte J. 2016. Saccharina latissima (Laminariales, Ochrophyta) farming in an industrial IMTA system in Galicia (Spain). Journal of Applied Phycology 28: 377–385.
  • Garbary D.J., Kim K.Y., Klinger T. & Duggins D. 1999. Red algae as hosts for endophytic kelp gametophytes. Marine Biology 135: 35–40.
  • Goudet J. 1995. FSTAT (version 1.2): a computer program to calculate F-statistics. Journal of Heredity 86: 485–486.
  • Greco M., Sáez C.A., Brown M.T. & Bitonti M.B. 2014. A simple and effective method for high quality co-extraction of genomic DNA and total RNA from low biomass Ectocarpus siliculosus, the model brown alga. PLoS One 9: e96470.
  • Guiry M.D. & Guiry G.M. 2017. AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. http://www.algaebase.org; searched on 29 May 2017.
  • Hall-Arber M., Dyer C., Poggie J., McNally J. & Gagne R. 2005. New England's fishing communities. MIT Sea Grant College Program, Massachusetts. 426 pp.
  • Henkel S.K. & Hofmann G.E. 2008. Differing patterns of hsp70 gene expression in invasive and native kelp species: evidence for acclimation-induced variation. Journal of Applied Phycology 20: 915–924.
  • Hubisz M.J., Falush D., Stephens M. & Pritchard J.K. 2009. Inferring weak population structure with the assistance of sample group information. Molecular Ecology Resources 9: 1322–1332.
  • Jahan A., Ahmad I.Z., Fatima N., Ansari V.A. & Akhtar J. 2017. Algal bioactive compounds in the cosmeceutical industry: a review. Phycologia 56: 410–422.
  • Jakobsson M. & Rosenberg N.A. 2007. CLUMPP: a cluster matching and permutation program for dealing with label switching and multimodality in analysis of population structure. Bioinformatics 23: 1801–1806.
  • Johnson R.B., Kim J.-K., Armbruster L.C. & Yarish C. 2014. Nitrogen allocation of Gracilaria tikvahiae grown in urbanized estuaries of Long Island Sound and New York City, USA: a preliminary evaluation of ocean farmed Gracilaria for alternative fish feeds. Algae 29: 227–235.
  • Jormalainen V. & Honkanen T. 2004. Variation in natural selection for growth and phlorotannins in the brown alga, Fucus vesiculosis. Journal of Evolutionary Biology 17: 807–820.
  • Kim J.-K., Kraemer G.P. & Yarish C. 2014. Field scale evaluation of seaweed aquaculture as a nutrient bioextraction strategy in Long Island Sound and the Bronx River Estuary. Aquaculture 433: 148–156.
  • Kim J.-K., Kraemer G.P. & Yarish C. 2015. Use of sugar kelp aquaculture in Long Island Sound and the Bronx River Estuary for nutrient extraction. Marine Ecology Progress Series 531: 155–166.
  • Kim J.-K., Yarish C., Hwang E.K., Park M. & Kim Y. 2017. Seaweed aquaculture: cultivation technologies, challenges, and its ecosystem services. Algae 32: 1–13.
  • Kim S.-K. & Bhatnagar I. 2011. Physical, chemical, and biological properties of wonder kelp – Laminaria, vol. 64. In: Advances in food and nutrition research (Ed. by S.-K. Kim), pp 85–95. Academic Press, Waltham, Massachusetts.
  • Lane C.E. & Saunders G.W. 2005. Molecular investigation reveals epi/endophytic extrageneric kelp (Laminariales, Phaeophyceae) gametophytes colonizing Lessoniopsis littoralis thalli. Botanica Marina 48: 426–436.
  • Lewis P.O. & Zaykin D. 2001. Genetic data analysis: computer program for analysis of allelic data. Version 1.1. http://phylogeny.uconn.edu/software/.
  • Liu F., Yao J., Wang X., Repnikova A., Galanin D.A. & Duan D. 2012. Genetic diversity and structure within and between wild and cultivated Saccharina japonica (Laminariales, Phaeophyta) revealed by SSR markers. Aquaculture 358–359: 139–145.
  • Luikart G., Allendorf F.W., Cornuet J.-M. & Sherwin W.B. 1998. Distortion of allele frequency distributions provides a test for recent population bottlenecks. Journal of Heredity 89: 238–247.
  • Lüning K. 1979. Growth strategies of three Laminaria species (Phaeophyceae) inhabiting different depth zones in the sublittoral region of Helgoland (North Sea). Marine Ecology Progress Series 1: 195–207.
  • MacArtain P., Gill C.I.R., Brooks M., Campbell R. & Rowland I.R. 2007. Nutritional value of edible seaweeds. Nutrition Reviews 65: 535–543.
  • Maeda T., Kawai T., Nakaoka M. & Yotsukora N. 2013. Effective DNA extraction method for fragment analysis using capillary sequencer of the kelp, Saccharina. Journal of Applied Phycology 25: 337–347.
  • Marinho G.S., Holdt S.L., Birkeland M.J. & Angelidaki I. 2015. Commercial cultivation and bioremediation potential of sugar kelp, Saccharina latissima, in Danish waters. Journal of Applied Phycology 27: 1963–1973.
  • Mathieson A.C. & Dawes C.J. 2017. Seaweeds of the northwest Atlantic. University of Massachusetts Press, Amherst. 816 pp.
  • Mathieson A.C., Hehre E.J., Dawes C.J. & Neefus C.D. 2008. An historical comparison of seaweed populations from Casco Bay, Maine. Rhodora 110: 1–102.
  • Mathieson A.C., Dawes C.J., Hehre E.J. & Harris L.G. 2009. Floristic studies of seaweeds from Cobscook Bay, Maine. Northeastern Naturalist 16 (Monograph 5): 1–48.
  • Muhlin J.F. & Brawley S. 2009. Recent vs relic: discerning the genetic signature of Fucus vesiculosis (Heterokontophyta: Phaeophyceae) in the Northwestern Atlantic. Journal of Phycology 45: 828–837.
  • Nettleton J.C., Mathieson A.C., Thornber C., Neefus C.D. & Yarish C. 2013. Introduction of Gracilaria vermiculophylla (Rhodophyta, Gracilariales) to New England, USA: estimated arrival times and current distribution. Rhodora 115: 28–41.
  • Nielsen M.M., Paulino C., Neiva J., Krause-Jensen D., Bruhn A. & Serrão E.A. 2016. Genetic diversity of Saccharina latissima (Phaeophyceae) along a salinity gradient in the North Sea–Baltic Sea transition zone. Journal of Phycology 52: 523–531.
  • Paulino C., Neiva J., Coelho N.C., Aires T., Marbà N., Krause-Jensen D. & Serrão E.A. 2016. Characterization of 12 polymorphic microsatellite markers in the sugar kelp Saccharina latissima. Journal of Applied Phycology 28: 3071–3074.
  • Peakall R. & Smouse P.E. 2012. GenAlEx 6.5: genetic analysis in Excel. Population genetic software for teaching and research – an update. Bioinformatics 28: 2537–2539.
  • Peteiro C. & O. Freire. 2013. Biomass yield and morphological features of the seaweed Saccharina latissima cultivated at two different sites in a coastal bay in the Atlantic coast of Spain. Journal of Applied Phycology 25: 205–213.
  • Pettigrew N.R., Churchill J.H., Janzen C.D., Mangum L.J., Signell R.P., Thomas A.C., Townsend D.W., Wallinga J.P. & Xue H. 2005. The kinematic and hydrographic structure of the Gulf of Maine Coastal Current. Deep-Sea Research II 52: 2369–2391.
  • Piry S., Luikart G. & Cornuet J.-M. 1999. BOTTLENECK: a computer program for detecting recent reductions in the effective population size using allele frequency data. Journal of Heredity 90: 502–503.
  • Piry S., Alapetite A., Cornuet J.-M., Paetkau D., Baudouin L. & Estoup A. 2004. GeneClass 2: a software for genetic assignment and first-generation migrant detection. Journal of Heredity 95: 536–539.
  • Pritchard J.K., Stephens M. & Donnelly P. 2000. Inference of population structure using multilocus genotype data. Genetics 155: 945–959.
  • Pritchard J.K., Wen X. & Falush D. 2010. Documentation for structure software: version 2.3. http://pritch.bsd.uchicago.edu/structure/html; searched on 18 May 2016.
  • Rannala B. & Mountain J.L. 1997. Detecting immigration by using multilocus genotypes. Proceedings of the National Academy of Sciences of the United States of America 94: 9197–9201.
  • Raymond M. & Rousset F. 1995. GENEPOP (version 1.2) population genetic software for exact tests and ecumenicism. Journal of Heredity 86: 248–249.
  • Redmond S., Green L., Yarish C., Kim J. & Neefus C. 2014. New England seaweed culture handbook. http://digitalcommons.uconn.edu/seagrant_weedcult/1; searched on 26 May 2017.
  • Rice W.R. 1989. Analyzing tables of statistical tests. Evolution 43: 223–225.
  • Robuchon M., Le Gall L., Mauger S. & Valero M. 2014. Contrasting genetic diversity patterns in two sister kelp species co-distributed along the coast of Brittany, France. Molecular Ecology 23: 2669–2685.
  • Rosenberg N.A. 2004. DISTRUCT: a program for graphical display of population structure. Molecular Ecology Notes 4: 137–138.
  • Rößner Y., Krost P. & Schulz C. 2014. Increasing seaweed crop yields through organic fertilisation at the nursery stage. Journal of Applied Phycology 26: 753–762.
  • Sanderson J.C., Dring M.J., Davidson K. & Kelly M.S. 2012. Culture, yield and bioremediation potential of Palmaria palmata (Linnaeus) Weber & Mohr and Saccharina latissima (Linnaeus). Aquaculture 354–355: 128–135.
  • Snirc A., Silberfeld T., Bonnet J., Tillier A., Tuffet S. & Sun J.-S. 2010. Optimization of DNA extraction from brown algae (Phaeophyceae) based on a commercial kit. Journal of Phycology 46: 616–621.
  • Thomas N.V. & Kim S.-K. 2011. Potential pharmacological applications of polyphenolic derivatives from marine brown algae. Environmental Toxicology and Pharmacology 32: 325–335.
  • Troell M., Joyce A., Chopin T., Neori A., Buschmann A.H. & Fang J.-G. 2009. Ecological engineering in aquaculture – potential for integrated multi-trophic aquaculture (IMTA) in marine offshore systems. Aquaculture 297: 1–9.
  • Van Oosterhoult C., Hutchinson W.F., Wills D.P.M. & Shipley P. 2004. MICRO-CHECKER: software for identifying and correcting genotyping errors in microsatellite data. Molecular Ecology Notes 4: 535–538.
  • Vilg J.V., Nylund, G.M., Werner T., Qvirist L., Mayers, J.J., Pavia H., Undeland I. & Albers E. 2015. Seasonal and spatial variation in biochemical composition of Saccharina latissima during a potential harvesting season for western Sweden. Botanica Marina 58: 435–447.

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