Abstract
Bioturbation, especially sediment reworking by the activities of macroinvertebrates, such as feeding and burrowing, is one of the major processes that affect the physical, chemical, and biological characteristics of marine sediments. Given the importance of sediment reworking, this study was designed to evaluate the sediment reworking rate of a polychaete, Perinereis aibuhitensis, which is dominant in the upper tidal flats on the west coast of Korea, based on quantification of pellet production during spring and fall surveys. The density of individuals was higher in fall than in spring, whereas, due to a difference in the proportion of adults between the two seasons, the morphometric dimensions of the worm and its pellets were significantly longer and heavier in the spring. Hourly pellet production per inhabitant and density were closely related, with pellet production gradually decreasing as density increased. Daily pellet production was much higher in spring than in fall, mostly due to an increase in daytime production. The sediment reworking rate of Perinereis was similar in the two seasons in which observations were made and depended on its density and the sediment reworking rate per individual. The overall sediment reworking rate of Perinereis was 31 mm yr−1 based on its density in the study area.
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Blankson ER, Adhikary NRD, Klerks PL (2017) The effect of lead contamination on bioturbation by Lumbriculus variegatus in a freshwater microcosm. Chemosphere 167:19–27
Chang JH, Choi JY (1998) Seasonal accumulation pattern and preservation potential of tidal-flat sediment: Gomso Bay, West Coast of Korea. J Korean Soc Oceanogr 3(3):149–157
Choi K (2011) Tidal rhythmites in a mixed-energy, macrotidal estudarine channel, Gomso Bay, west coast of Korea. Mar Geol 280:105–115
Duport E, Stora G, Tremblay P, Gilbert F (2006) Effects of population density on the sediment mixing induced by the gallery-diffusor Hediste (Nereis) diversicolor O.F. Müller, 1776. J Exp Mar Biol Ecol 336:33–41
Gerino M, Aller RC, Lee C, Cochran JK, Aller JY, Green MA, Hirschberg D (1998) Comparison of different tracers and methods used to quantify bioturbation during a spring bloom: 234- Thorium, luminophores and chlorophyll a. Estuar Coast Shelf S 46:531–547
Gilbert F, Hulth S, Grossi V, Poggiale JC, Desrosiers G, Rosenberg R, Gérino M, François-Caracaillet F, Michaud E, Stora G (2007) Sediement reworking by marine benthic species from the Gullmar Fjord (Western Sweden): importance of faunla biovolume. J Exp Mar Biol Ecol 348:133–144
Gordon DC (1966) The effects of the deposit feeding polychaete Pectinaria gouldi in the intertidal sediments of Barnstable Harbor. Limnol Oceanogr 11:327–332
Heip C, Herman R (1979) Production of Nereis diversicolor O. F. Müller (polychaeta) in a shallow-brackish-water pond. Estuar Coast Mar Sci 8:297–305
Hylleberg J (1975) Selective feeding by Abarenicola pacifica with notes on Abarenicola vagabunda and a concept of gardening in lugworms. Ophelia 21:159–166
Kang J, Woo HJ, Lee YK, Son YB (2014) Seasonal sedimentary processes of the macrotidal flat in Gomso Bay, Korea. J Coastal Res 70:157–163
Koo BJ, Kwon KK, Hyun JH (2005) The sediment-water interface increment due to the complex burrows of macrofauna in a tidal flat. Ocean Sci J 40(4):221–227
Koo BJ, Kwon KK, Hyun JH (2007) Effect of environmental conditions on variation in the sediment-water interface created by complex macrofaunal burrows on a tidal flat. J Sea Res 58:302–312
Koo BJ (2016) Burrow of macroinvertebrate in tidal flat. KIOST, Ansan, 72 p
Kristensen E (2001) Impact of polychaetes (Nereis spp. and Arenicola marina) on carbon biogeochemistry in coastal marine sediments. Geochem T 2(12):92
Kudenov JD (1982) Rates of seasonal sediment reworking in Axiothella rubrocincta (Polychaeta: Maldanidae). Mar Biol 70:181–186
Lecroart P, Schmidt S, Jouanneau JM, Weber O (2005) Be-7 and Th-234 as tracers of sediment mixing on seasonal time scale at the water-sediment interface of the Thau Lagoon. Radioprotection 40:661–667
Lee YH, Koh CH (1994) Biogenic sedimentary structures on a Korean mud flat: spring-neap variations. Neth J Sea Res 32(1): 81–90
Maire O, Duchêne JC, Grémare A, Malyuga VS, Meysman FJR (2007) A comparision of sediment reworking rates by the surface deposit-feeding bivalve Abra ovate during summertime and wintertime, with a comparison between two models of sediment reworking. J Exp Mar Biol Ecol 343:21–36
Mermillod-Blondin F, François-Caracaillet F, Rosenberg R (2005) Biodiversuty of benthic invertebrates and organic matter processing in shallow marine sediments: an experimental study. J Exp Mar Biol Ecol 315:187–209
Mugnia C, Gerino M, Frignani M, Sauvage S, Bellucci LG (2003) Bioturbation experiments in the Venice Lagoon. Hydrobiologia 464:245–250
Rice DL, Bianchi TS, Roper EH (1986) Experimental studies of sediment reworking and growth of Scoloplos spp. (Orbiniidae: Polychaeta). Mar Ecol-Prog Ser 30:9–19
Rhoads DC (1974) Organism-sediment relations on the muddy seafloor. Oceanogr Mar Biol 12:263–300
Rouabah A, Scaps P (2003) Life cycle and population dynamics of the polychaete Perinereis cultrifera from the Algerian Mediterranean coast. Mar Ecol 24(2):85–99
Ryu JH, Kim CH, Lee YK, Won JS, Chun SS, Lee S (2008) Detecting the intertidal morphologic change using satellite data. Estuar Coast Shelf S 78:623–632
Ryu J, Khim JS, Choi JW, Shin HC, An S, Park J, Kang D, Lee CH, Koh CH (2011) Environmentally associated spatial changes of a macrozoobenthic community in the Saemanheum tidal flat, Korea. J Sea Res 65:390–400
Sun F, Zhou Q, Wang M, An J (2009) Joint stress of copper and petroleum hydrocarbons on the polychaete Perinereis aibuhitensis at biochemical levels. Ecotox Environ Safe 72:1887–1892
Wang J, Zhou Q, Zhang Q, Zhang Y (2008) Single and joint effects of petroleum hydrocarbons and cadmium on the polychaete Perinereis aibuhitensis Grube. J Environ Sci 20:68–74
Yang D, Zhou Y, Zhao H, Zhou X, Sun N, Wang B, Yuan X (2012) Molecular cloning, sequencing, and expression analysis of cDNA encoding metalloprotein II (MP II) induced by single and combined metals (Cu(II), Cd(II)) in polychaeta Perinereis aibuhitensis. Environ Toxicol Phar 34:841–848
Yang D, Cao C, Chen F, Zhou Y, **u Z (2015) The nitrogen and phosphorus release in the sediment by the Perinereis aibuhitensis bioturbation effect. Bulg Chem Commun 47(4):1175–1181
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Koo, B.J., Seo, J. Sediment reworking by a polychaete, Perinereis aibuhitensis, in the intertidal sediments of the Gomso Bay, Korea. Ocean Sci. J. 52, 511–518 (2017). https://doi.org/10.1007/s12601-017-0037-0
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DOI: https://doi.org/10.1007/s12601-017-0037-0