Short-term competence in larvae of queen conch Strombus gigas: shifts in behavior, morphology and metamorphic response

Davis, Megan

doi:10.3354/meps104101

Cited by 20 publications

(7 citation statements)

References 18 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These results are consistent with the conceptual model of fish settlement that has been developed from research on invertebrate metamorphosis (e.g. Crisp 1974, Jackson & Strathmann 1981, Pecknick 1990, Davis 1994 and to date has largely been assumed I rather than demonstrated by fish ecologists. immediately upon capture…”

Section: Discussionsupporting

confidence: 79%

“…The paucity of evidence for demersal fishes contrasts with an extensive body of invertebrate literature, for which delays in settlement are well documented and experimentally examined (e.g. Richmond 1985, Lipcius et al 1990, Pechenik 1990, Pechenik et al 1993, Davis 1994, Harvey 1996, Stoner et al 1996. The present study is the first to experimentally examine in the field the capacity of a fish species to delay metamorphosis.…”

Section: Introductionmentioning

confidence: 70%

“…Thus in the laboratory, sequential preference experiments have enabled researchers to determine when larvae of a wide range of taxa are first competent to settle and how long they can subsequently postpone metamorphosis (Pechenik 1990, Davis 1994). The problem is that in culture, delays can only be demonstrated if we can ascertain when a larva becomes competent to metamorphose (Pechenik 1990).…”

Section: Defining Competencementioning

confidence: 99%

See 2 more Smart Citations

Delayed metamorphosis of a tropical reef fish (Acanthurus triostegus):a field experiment

McCormick¹

1999

Mar. Ecol. Prog. Ser.

110

View full text Add to dashboard Cite

ABSTRACT. Larval duration of a demersal fish is a product of its genotype, its larval environment and the capacity of the species to delay metamorphosis. Circumstantial evidence has led to the hypothesis that the lower age-limit for settlement is governed by the rate of larval development, while the upper age-limit is determined by the extent to which a delay of metamorphosis is possible. This study examined the capacity of a widely distributed reef fish, the manini Acanthurus triostegus, to extend its larval duration by delaying metamorphosis. Variation in larval duration was examined from 8 samples of manini collected in French Polynesia using crest nets over a 2 yr per~od. Variation in the overall age at colonisation determined from daily otolith increments was very low (CV 5.5%) given the pan-Pacific distribution pattern of the species A field experiment was conducted to determine whether manini could delay metamorphosis To enable its interpretation, the metamorphosis of the species was characterised morphologically Metamorphosis involved a loss of transparency, a shortening of fin spines and a migration of the mouth from a terminal to ventral position over a 5 d period. To experimentally examine the capacity of the species to delay metamorphosis manini were caught at night as they colonised a reef and placed in 1 of 2 treatments: benthic cages in the shallow backreef, or fine monofilament cages suspended between 3 and 6 m in a 50 m water column on the outer reef slope. Fish in benthic cages completed metamorphosis within 5 d. In contrast, 24 % of fish in pelagic cages (8 out of 34 fish) remained transparent (although some developed faint stripes) and retained the pelagic body shape. Fish that delayed metamorphosis still deposited a mark on their otoliths indistinguishable in structure from the settlement marks deposited on otoliths of their benthic-caged counterparts and reefcaught juveniles. This is the first experimental evidence that the settling stages of some demersal fish species can delay metamorphosis in the reef environment. As such it supports the conceptual model generally applied to the selective settlement of demersal fishes.

show abstract

Section: Discussionsupporting

confidence: 79%

Section: Introductionmentioning

confidence: 70%

Section: Defining Competencementioning

confidence: 99%

See 1 more Smart Citation

Delayed metamorphosis of a tropical reef fish (Acanthurus triostegus):a field experiment

McCormick¹

1999

Mar. Ecol. Prog. Ser.

110

View full text Add to dashboard Cite

show abstract

“…Variation in larval growth rates may be the result of food availability (found here), genetic variation (Hilbish et al 1993;Pechenik et al 1996), or temperature (Zimmerman & Pechenik 199 1). Geographic variation in response to settlement cues (Schubart et al 1995) may also result in variation in planktonic period, Some species, particularly those with a wide range of settlement cues and adult habitats, may have a short and relatively constant competent period (e.g., Davis 1994). However, most species seem to fit the pattern predicted by Jackson & Strathmann (198 1) that selection should favor flexibility in timing of metamorphosis and a large ratio of competent to precompetent period (Scheltema 1986b).…”

Section: Planktonic Periodmentioning

confidence: 99%

Life history of Littorina scutulata and L. plena, sibling gastropod species with planktotrophic larvae

Hohenlohe

2002

Invertebrate Biology

View full text Add to dashboard Cite

The intertidal, sibling species Littorina scutulata and L. plena (Gastropoda, Prosobranchia) are sympatric throughout most of their ranges along the Pacific coast of North America. Both species release disc-shaped, planktonic egg capsules from which planktotrophic veliger larvae hatch. Here I review existing data and present new observations on these species' life history, including age at first reproduction, spawning season, maximum fecundity rates, capsule morphology, egg size and number, pre-hatching development, larval growth at three food concentrations, potential settlement cues, planktonic period, and protoconch size. Previous classification of egg capsule morphologies used to distinguish the species is inaccurate; instead, capsules can be categorized into three types of which each species may produce two. Females of L. scutulata produced capsules with either two rims of unequal diameter or one rim, while females of L. plena produced capsules with one rim or two rims of nearly equal diameter. Females of each species spawned sporadically from early spring to early fall in Puget Sound. Larvae of L. plena hatched one day earlier than those of L. scutulata, and both species grew fastest in the laboratory at intermediate food concentrations. Larvae metamorphosed i n the presence of a variety of materials collected from their adult habitat, including conspecific adults, algae, rocks, and barnacle tests. This is the first report of planktotrophic larvae in this genus metamorphosing in the laboratory. The total planktonic period of 8 larvae of L. scutulatu raised in the laboratory was 37-70 days, and a single larva of L. plena metamorphosed after 62 days. Protoconch diameter of shells collected from the field was 256-436 km and did not differ significantly between the species, Previous allozyme and mitochondria1 DNA work has suggested high levels of genetic variability in both species and greater genetic population structure in L. plena, despite the long spawning season and long-lived larvae in both species. The interspecific life history differences described here appear insufficient to produce consistent differences in gene flow patterns.Additional key words: development, dispersal, gene flow, metamorphosis, larval settlement Thorson (1946Thorson ( , 1950 classified modes of development among marine invertebrates into several types depending on their nutritional mode and site of development. Planktotrophic larvae feed as they develop, while lecithotrophic larvae depend on maternal yolk in the egg for nutrition. Planktotrophic larvae are typically planktonic, developing in the water column, while lecithotrophic larvae may be planktonic or benthic, developing in attached egg masses or brooded by a parent. With a few qualifications, these major categories remain useful (Jablonski & Lutz 1983;Levin & Bridges 1995). The marine gastropod genus Littorina

show abstract

“…The experiment was run with batches of larvae at different stages of development: the day of hatching (day 0), 10 days post hatching (dph) (day 10), 20 dph (day 20) and at 30 dph (day 30). The number of larvae responding to settlement cues in each batch was monitored for 10 min h −1 for the first 7 h and again at 18, 24, 48, 36, 60 and 72 h. Settlement observations focused on pre‐metamorphic cues, such as sinking and creeping behaviour, which have been noted in other species of gastropod larvae prior to metamorphosis (Di Salvo ; Davis ; Naegel, Rodríguez‐Astudillo, Hernández‐Ceballos & Cáceres‐Martínez ). Five settlement cues were trialled in this study: KCl, live and dead (carrion) prey ( Xenostrobus pulex Lamarck), an algal biofilm of Ulvella lens Crouan & Crouan and the mucus of adult conspecifics.…”

Section: Methodsmentioning

confidence: 99%

Growth, settlement and survival ofDicathais orbita(Neogastropoda, Mollusca) larvae in response to temperature, diet and settlement cues

2013

View full text Add to dashboard Cite

The southern Australian whelk, Dicathais orbita, is a potential candidate for aquaculture, as both seafood and for bioactive compound production. Larval rearing experiments to determine the effects of temperature and diet on the growth and survival of D. orbita larvae under laboratory conditions comprised five different unicellular algal diets of two brown algal species; Isochysis galbana and Chaetoceros muelleri, two green algae; Tetraselmis seucica and Nannochloropsis oculata, and a mixture of all four strains for larvae maintained at 16 and 22°C. Absolute growth, specific growth rate (SGR) and survival were determined regularly. Larvae reared at 22°C on a mixed diet, or brown algae, performed significantly better than those reared on green algal diets alone. Preliminary trials with settlement cues were undertaken on different aged larvae to determine when larvae become competent. An array of natural cues (carrion, Xenostrobus pulex, adult mucus and Ulvella lens), as well as concentrations of KCl was tested. KCl(concentration of 20 mM) induced the greatest settlement, however, no larvae metamorphosed under the conditions provided. This study confirms long-lived planktotrophic larval development for Dicathais orbita with higher development rates at the higher water temperatures. Further studies will optimize culture conditions and cues for settlement and metamorphosis.

show abstract

Short-term competence in larvae of queen conch Strombus gigas: shifts in behavior, morphology and metamorphic response

Cited by 20 publications

References 18 publications

Delayed metamorphosis of a tropical reef fish (Acanthurus triostegus):a field experiment

Delayed metamorphosis of a tropical reef fish (Acanthurus triostegus):a field experiment

Life history of Littorina scutulata and L. plena, sibling gastropod species with planktotrophic larvae

Growth, settlement and survival ofDicathais orbita(Neogastropoda, Mollusca) larvae in response to temperature, diet and settlement cues

Contact Info

Product

Resources

About