Interactions between the invading ctenophores Mnemiopsis leidyi (A. Agassiz) and Beroe ovata Mayer 1912, and their influence on the Pelagic ecosystem of the Northeastern Black Sea

Shiganova, Tamara A.; Dumont, Henri J.; Mikaelyan, Alexander S.; Глазов, Д. М.; Bulgakova, Yulia V.; Musaeva, Eteri I; Sorokin, P.Yu.; Паутова, Л. А.; Mirzoyan, Zinaida A.; Studenikina, Ekaterina I.

doi:10.1007/1-4020-2152-6_2

Cited by 62 publications

(65 citation statements)

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“…The importance of Mnemiopsis leidyi as a planktonic predator has been documented by a large body of research on its feeding capabilities (Kremer 1975;Reeve et al 1978;Waggett and Costello 1999) and trophic impacts (Kremer 1979;Shiganova et al 2001;Sullivan et al 2001). These predatory capabilities underlie the importance of recent range expansion patterns for M. leidyi.…”

Section: Introductionmentioning

confidence: 99%

“…We propose that earlier occurrences of M. leidyi during recent years are due to amplification of pulsed spring warming events that permit early reproduction in the shallow embayments that serve as source regions for M. leidyi in Narragansett Bay. We further suggest that the source-sink perspective we describe is relevant not only to Narragansett Bay but other temperate regions of the world persistently occupied by M. leidyi.The importance of Mnemiopsis leidyi as a planktonic predator has been documented by a large body of research on its feeding capabilities (Kremer 1975;Reeve et al 1978;Waggett and Costello 1999) and trophic impacts (Kremer 1979;Shiganova et al 2001;Sullivan et al 2001). These predatory capabilities underlie the importance of recent range expansion patterns for M. leidyi.…”

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confidence: 99%

“…These predatory capabilities underlie the importance of recent range expansion patterns for M. leidyi. Invasion of regions outside its historical distributions have resulted in dramatic planktonic community alterations in regions such as the Black Sea (Shiganova et al 2003) and Sea of Azov (Studenikina et al 1991). Although perhaps less acclaimed than these spatial range expansions, records of temporal range expansion within its endemic range can also cause important changes in planktonic community dynamics (Sullivan et al unpubl.…”

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Seasonal refugia, shoreward thermal amplification, and metapopulation dynamics of the ctenophore Mnemiopsis leidyi in Narragansett Bay, Rhode Island

Costello

Sullivan

Gifford

et al. 2006

Limnology & Oceanography

107

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The lobate ctenophore Mnemiopsis leidyi occurs throughout Narragansett Bay, Rhode Island, during warm summer months but is often undetectable in the central portion of the bay during winter months. During 2 yr of weekly sampling, we found that M. leidyi populations in a shallow embayment, Greenwich Cove, either overwintered or were only briefly absent during winter. The Greenwich Cove population reproduced weeks earlier and reached higher average and peak population concentrations than open-bay populations. Shallow embayment populations such as that in Greenwich Cove probably serve as source populations that inoculate the main region of the bay by advective transport in the spring months. We propose that earlier occurrences of M. leidyi during recent years are due to amplification of pulsed spring warming events that permit early reproduction in the shallow embayments that serve as source regions for M. leidyi in Narragansett Bay. We further suggest that the source-sink perspective we describe is relevant not only to Narragansett Bay but other temperate regions of the world persistently occupied by M. leidyi.The importance of Mnemiopsis leidyi as a planktonic predator has been documented by a large body of research on its feeding capabilities (Kremer 1975;Reeve et al. 1978;Waggett and Costello 1999) and trophic impacts (Kremer 1979;Shiganova et al. 2001;Sullivan et al. 2001). These predatory capabilities underlie the importance of recent range expansion patterns for M. leidyi. Invasion of regions outside its historical distributions have resulted in dramatic planktonic community alterations in regions such as the Black Sea (Shiganova et al. 2003) and Sea of Azov (Studenikina et al. 1991). Although perhaps less acclaimed than these spatial range expansions, records of temporal range expansion within its endemic range can also cause important changes in planktonic community dynamics (Sullivan et al. unpubl. data). For example, within Narragansett Bay, peak occurrence of M. leidyi has shifted approximately 2 months earlier than the historic mean (Sullivan et al. 2001). However, the historically dominant summer copepod, Acartia tonsa, has not experienced a similar phenological shift, with the result that the seasonal timing of predator (M. leidyi) and prey (A. tonsa) overlap differently than during the past. One result of this change is that A. tonsa has been almost eliminated from the plankton during recent summers in Narragansett Bay as a result of predation pressure from M. leidyi (Sullivan et al. unpubl. data). The long-term trophic consequences of near removal of copepods from Narragansett Bay during summer months, historically a period of high copepod abundance, are not yet clear. However, there is evidence of reduction in numbers of some species of larval fish in recent years (Keller et al. 1999) and increases in summer values of chlorophyll a (Chl a) (Sullivan et al. unpubl. data).Despite the potentially important consequences of phenological shifts by M. leidyi, the mechanisms underlying M. leidyi...

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Section: Introductionmentioning

confidence: 99%

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Seasonal refugia, shoreward thermal amplification, and metapopulation dynamics of the ctenophore Mnemiopsis leidyi in Narragansett Bay, Rhode Island

Costello

Sullivan

Gifford

et al. 2006

Limnology & Oceanography

107

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“…It is largely recognised that when an alien species finds optimal conditions for its growth and reproduction (i.e. large availability of food and a suitable habitat for reproduction), the lack of an efficient control on it by competitors/predators could determine a collapse of the entire trophic web; well-known examples of such situations are the bioinvasion of the comb jelly Memniopsis leidyi in the Black Sea/Caspian Sea (Shiganova et al 2001;Shiganova et al 2003) or of the European green crab Carcinus maenas along the coasts of United States and Australia (Grosholz and Ruiz 1995;Walton et al 2002).…”

Section: Introductionmentioning

confidence: 99%

Consumption rates and prey preference of the invasive gastropod Rapana venosa in the Northern Adriatic Sea

Savini

Occhipinti‐Ambrogi

2006

Helgol Mar Res

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The alien Asian gastropod Rapana venosa (Valenciennes 1846) was first recorded in 1973 along the Italian coast of the Northern Adriatic Sea. Recently, this predator of bivalves has been spreading all around the world oceans, probably helped by ship traffic and aquaculture trade. A caging experiment in natural environment was performed during the summer of 2002 in Cesenatico (Emilia-Romagna, Italy) in order to estimate consumption rates and prey preference of R. venosa. The prey items chosen were the Mediterranean mussel Mytilus galloprovincialis (Lamarck 1819), the introduced carpet clam Tapes philippinarum (Adams and Reeve 1850), both supporting the local fisheries, and the Indo-Pacific invasive clam Anadara (Scapharca) inaequivalvis (Bruguie`re 1789). Results showed an average consumption of about 1 bivalve prey per day (or 1.2 g wet weight per day). Predation was species and size selective towards small specimens of A. inaequivalvis; consumption of the two commercial species was lower. These results might reduce the concern about the economical impact on the local bivalve fishery due to the presence of the predatory gastropod. On the other hand, selective predation might probably alter local community structure, influencing competition amongst filter feeder/suspension feeder bivalve species and causing long-term ecological impact. The large availability of food resource and the habitat characteristics of the Emilia-Romagna littoral makes this area an important breeding ground for R. venosa in the Mediterranean Sea, thus worthy of consideration in order to understand the bioinvasion ecology of this species and to control its likely further dispersal.

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“…However, he also estimated higher L ∞ (33.5 cm for males and 40.4 for females) and lower K (0.17 for males and 0.15 for females) than this study. Besides exploitation pressure for whiting stocks in the Black Sea, variations in the growth rates may be the result of biotic and abiotic factors such as temperature, food availability, competition, (Gerritsen et al, 2003;Shiganova et al, 2003). Different estimation of growth rates may be the results of length composition differences between years within a stock due to different fishing pressure or/and probably due to errors associated with estimates of mean length at age.…”

Section: Discussionmentioning

confidence: 99%

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Bilgin¹,

Bal²,

Taşçı³

2012

Turk. J. Fish. Aquat. Sci.

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Interactions between the invading ctenophores Mnemiopsis leidyi (A. Agassiz) and Beroe ovata Mayer 1912, and their influence on the Pelagic ecosystem of the Northeastern Black Sea

Cited by 62 publications

References 20 publications

Seasonal refugia, shoreward thermal amplification, and metapopulation dynamics of the ctenophore Mnemiopsis leidyi in Narragansett Bay, Rhode Island

Seasonal refugia, shoreward thermal amplification, and metapopulation dynamics of the ctenophore Mnemiopsis leidyi in Narragansett Bay, Rhode Island

Consumption rates and prey preference of the invasive gastropod Rapana venosa in the Northern Adriatic Sea

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