Ciliates as the crucial food source of larval fish in a shallow eutrophic lake

Zingel, Priit; Paaver, Tiit; Karus, Katrit; Agasild, Helen; Nõges, Tiina

doi:10.4319/lo.2012.57.4.1049

Cited by 29 publications

(24 citation statements)

References 23 publications

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“…Planktonic ciliates form an especially important food for larval fish in Lake Võrtsjärv (Zingel et al ., ), accounting for c . 60% of the total carbon consumed by fish larvae, and the food requirements of larvae during first feeding stages in May and June could not be met without consumption of ciliates (Zingel et al ., ). Given the exogenous feeding (at the stage of growth when larval fish ingest live food) and the rapid carbon turnover rate of fast‐growing larval tissues (Weidel et al ., ), the low δ 13 C signatures of the smallest larval fish (δ 13 C ranged from −38.4 to −36.4‰) may reflect some use of methane‐derived carbon.…”

Section: Discussionmentioning

confidence: 89%

“…The most depleted carbon isotope signatures were measured for fish larvae ingesting ciliates and rotifers. Planktonic ciliates form an especially important food for larval fish in Lake Võrtsjärv (Zingel et al ., ), accounting for c . 60% of the total carbon consumed by fish larvae, and the food requirements of larvae during first feeding stages in May and June could not be met without consumption of ciliates (Zingel et al ., ).…”

Section: Discussionmentioning

confidence: 99%

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Biogenic methane contributes to the food web of a large, shallow lake

et al. 2013

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Summary Biogenic methane as an alternative carbon and energy source for freshwater organisms has been receiving increasing attention, but the phenomenon is still poorly understood for shallow lakes. We measured the carbon and nitrogen stable isotope signatures (δ13C, δ15N) for key groups of pelagic and benthic organisms, including crustacean zooplankton, chironomid larvae, young‐of‐the‐year and adult fish, to assess whether biogenic methane contributes to pelagic and benthic food webs in a large, shallow lake, Lake Võrtsjärv, Estonia. In the southern part of the lake, covered by macrophytes, crustacean zooplankton showed strong seasonal variation of δ13C, with the lowest values occurring in the period of oxygen depletion. Chironomid (Chironomus plumosus) larvae showed high isotopic variability within the lake, with strongly 13C‐depleted and 15N‐depleted signatures (down to δ13C −64.0‰ and δ15N −2.6‰) in the macrophyte‐covered area. Our results indicate that carbon derived from biogenic methane can contribute seasonally to the benthic food web and, to some extent, also to the pelagic food web, where the lake is covered by macrophytes. Moreover, δ13C values for roach (Rutilus rutilus), perch (Perca fluviatilis) and pike (Esox lucius) from the macrophyte‐dominated area were on average 3.5‰ lower than those for the same fish from the plankton‐dominated lake area, suggesting some carbon derived from methane is transferred up through the food web. Although no direct evidence is available, our results, together with previous studies of the lake, suggest that protozoans could be a potentially important link from methane‐oxidising bacteria to animals higher in the web.

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Section: Discussionmentioning

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Biogenic methane contributes to the food web of a large, shallow lake

et al. 2013

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“…; Zavala‐Leal, Dumas, Pena, Contreras‐Olguin & Hernandez‐Ceballos ; Hagiwara, Wullur, Marcial, Hirai & Sakakura ). Smaller prey such as ciliates and flagellates are used less often, and usually in experimental scale, although studies have revealed that they contribute substantially to larval fish diets in nature (De Figueiredo, Nash & Montagnes ; Friedenberg, Bollens & Rollwagen‐Bollens ; Zingel, Paaver, Karus, Agasild & Noges ). Several rearing experiments also revealed that ciliates and flagellates could enhance the survivorship of fish larvae, especially those with a smaller mouth (Nagano, Iwatsuki, Kamiyama & Nakata ; Tew et al .…”

Section: Discussionmentioning

confidence: 99%

Towards sustainable exhibits - application of an inorganic fertilization method in coral reef fish larviculture in an aquarium

et al. 2015

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Coral reef fish are collected from the wild and exhibited in aquaria worldwide. Some of the fish spawn in captivity; however, the eggs are usually neglected. In this study, we collected the eggs spawned naturally in the exhibit tanks, hatched and cultured them indoor in 2000-L fibreglass tanks (initial density = 18 000 egg tank À1 ). We applied an inorganic fertilization method commonly used in freshwater fish culture in raising these coral reef fish larvae. We maintained inorganic phosphorus concentration at 100 lg P L À1 and inorganic nitrogen at 700 lg N L À1 daily in the fertilized group (n = 4), while the control tanks (n = 4) were fed with rotifers (10 ind mL À1 ). Chlorophyll a at particle sizes of both 0.45-20 lm and >20 lm, as well as NH 3 -N, NO 3 -N, and PO 4 -P concentrations were significantly higher in the fertilized group than the control. Zooplankton in the size groups of 10-50 lm (mainly flagellates) and 50-100 lm (mainly ciliates) were abundant (about 10~60 ind mL À1 ) during 3-7 days in fertilized tanks. The average larval fish survival rate at 21 day after hatch in fertilized group was consistently higher than the control in two trials. The experiments demonstrated that the inorganic fertilization approach can be successfully adapted for coral reef fish culture in an aquarium to achieve sustainable exhibits.

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“…Ciliate are adequate as food sources for first-feeding fish larvae because feeding success is related to non-armoured prey, whereas feeding failure occurs with armoured dinoflagellates because these organisms may pass unaltered through the larval gut (Scura and Jerde, 1977;Lasker, 1981). Ciliates have been found to sustain the survival and growth of first-feeding larvae at other eutrophic shallow lakes (Zingel, 2012), and at Catemaco, they similarly sustain the threadfin shad fishery.…”

Section: Environmental Background For Ciliatesmentioning

confidence: 99%

“…Plankton ciliates drive biomass from autotrophic and heterotrophic picoplankton to upper trophic levels; therefore, the abundance of autotrophic and heterotrophic picoplankton abundance was simultaneously recorded. Based on their size and other features, plankton ciliates are the most likely food source for first-feeding larvae of fish species that support local fisheries, and because this stage is considered critical in fish life cycles, the maintenance of fish stocks depends on ciliates (Zingel et al, 2012). The selective filter-feeding activity of these fish species is believed to be at least partially responsible for Catemaco's plankton composition (Kormákova and Tavera, 2003).…”

Section: Introductionmentioning

confidence: 99%

The trophic role and impact of plankton ciliates in the microbial web structure of a tropical polymictic lake dominated by filamentous cyanobacteria

Esquivel¹,

Barani²,

Macek³

et al. 2016

J Limnol

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The recent interest in the plankton structures and dynamics in tropical and subtropical lakes has revealed important trends that set these lakes apart from temperate lakes, and one of the main differences is ); however, significant differences were observed between seasons for both variables. Nano-sized filamentous cyanobacteria were the most abundant component of the plankton, and their abundance was assessed through epifluorescence microscopy counts. The autotrophic and heterotrophic picoplankton abundance was measured through epifluorescence, and their abundance and biomass were higher at the study site relative to other shallow freshwater ecosystems. The total ciliate biomass distribution patterns were similar to those of filamentous cyanobacteria and autotrophic or heterotrophic picoplankton, although the nanociliate biomasses peaked when the picoplankton and filamentous cyanobacteria were least abundant. The consequences of this increased importance of ciliates on the structure of the plankton at Lake Catemaco will be discussed along with the probable causes.

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Ciliates as the crucial food source of larval fish in a shallow eutrophic lake

Cited by 29 publications

References 23 publications

Biogenic methane contributes to the food web of a large, shallow lake

Biogenic methane contributes to the food web of a large, shallow lake

Towards sustainable exhibits - application of an inorganic fertilization method in coral reef fish larviculture in an aquarium

The trophic role and impact of plankton ciliates in the microbial web structure of a tropical polymictic lake dominated by filamentous cyanobacteria

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