Vertical, lateral and temporal structure in larval distributions at hydrothermal vents

Mullineaux, Lauren S.; Mills, Susan W.; Sweetman, Andrew K.; Beaudreau, Ann H.; Meta×as, Anna; Hunt, Heather L.

doi:10.3354/meps293001

Cited by 91 publications

(84 citation statements)

References 65 publications

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“…To consider temporal fluctuations in current patterns, we modeled releases and dispersal between 1998 and 2007 assuming a typical PLD of 6 months [54] and a maximum PLD of 1 year [16]. Initial particle positions were determined with a power function that considered entrainment of larvae in rising hydrothermal plumes up to 400 mab [17] (Supplemental Experimental Procedures). After release, larvae were allowed to drift passively at any depth with the ocean currents, and no assumptions about mortality were made at any time of the simulations.…”

Section: Larval Dispersal Modelingmentioning

confidence: 99%

“…Arellano and Young [16] concluded that larvae of the cold-seep mussel B. childressi are able to delay the timing of metamorphosis and extend their PLD to a maximum length of 13 months. Because Bathymodiolus veligers can be transported away from the seafloor by passive entrainment in hydrothermal plumes [17] and migrate vertically during their ontogenetic development [18], larvae may be dispersed over large distances in upper ocean currents. How the potential for long-distance dispersal actually shapes population structure and connectivity in these deep-sea organisms is not understood.…”

Section: Introductionmentioning

confidence: 99%

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Biophysical and Population Genetic Models Predict the Presence of “Phantom” Stepping Stones Connecting Mid-Atlantic Ridge Vent Ecosystems

et al. 2016

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Section: Larval Dispersal Modelingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Biophysical and Population Genetic Models Predict the Presence of “Phantom” Stepping Stones Connecting Mid-Atlantic Ridge Vent Ecosystems

et al. 2016

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“…The presence of free-living symbiotic bacteria at multiple spatial scales within a vent site suggests a potentially large environmental pool of symbionts. During host larval development and the colonization of new vents (17,20,21), an abundant free-living bacterial population would facilitate the initiation of the symbiosis. The environmental transmission of symbionts seems to be a risky strategy for obligate tube worm symbioses, as the survival of the mouthless and gutless adult host requires that developing larvae or juveniles successfully acquire their symbionts from a potentially unstable free-living source population.…”

Section: Sample Collectionmentioning

confidence: 99%

Free-Living Tube Worm Endosymbionts Found at Deep-Sea Vents

Harmer

Rotjan

Nussbaumer

et al. 2008

Appl Environ Microbiol

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Recent evidence suggests that deep-sea vestimentiferan tube worms acquire their endosymbiotic bacteria from the environment each generation; thus, free-living symbionts should exist. Here, free-living tube worm symbiont phylotypes were detected in vent seawater and in biofilms at multiple deep-sea vent habitats by PCR amplification, DNA sequence analysis, and fluorescence in situ hybridization. These findings support environmental transmission as a means of symbiont acquisition for deep-sea tube worms.

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“…Thus, Lepetodrilus spp. and 9 peltospirids are well suited for this assay, rather than sequencing, due to high abundance 10 in the benthos (Van Dover 2003;Dreyer et al 2005) and as larvae in the plankton 11 (Mullineaux et al 2005), and the ability for morphological assignment to a defined 12 species group (genus or family, respectively). 13…”

Section: Identification Of a Defined Group Of Species -Rflp Design 22mentioning

confidence: 99%

“…Micheli et al 2002;Mullineaux et al 2003;4 Govenar et al 2004;Mills et al 2007). High abundances of gastropod larvae in the 5 plankton (Metaxas 2004;Mullineaux et al 2005), multiple modes of development (Lutz 6 et al 1984;Lutz et al 1986), and relative ease of larval identification (Mullineaux et al 7 1996) allow researchers to address questions such as: how do larval development and 8 behavior, and hydrodynamics combine to disperse and/or retain individuals (Lutz et al 9 1980;Marsh et al 2001;Adams and Mullineaux 2008); and what is the impact of 10 dispersal and recruitment on community structure and dynamics? 11 Difficulty in identifying larval stages to the species level can limit studies of 12 larval dispersal (Metaxas 2004;Mullineaux et al 2005).…”

Section: Introduction 20mentioning

confidence: 99%

Expanding dispersal studies at hydrothermal vents through species identification of cryptic larval forms

et al. 2010

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15The rapid identification of hydrothermal vent-endemic larvae to the species level is a key 16 limitation to understanding the dynamic processes that control the abundance and 17 distribution of fauna in such a patchy and ephemeral environment. Many larval forms 18 collected near vents, even those in groups such as gastropods that often form a 19 morphologically distinct larval shell, have not been identified to species. We present a 20 staged approach that combines morphological and molecular identification to optimize 21 the capability, efficiency, and economy of identifying vent gastropod larvae from the 22 northern East Pacific Rise (NEPR). With this approach, 15 new larval forms can be 23 2 identified to species. A total of 33 of the 41 gastropod species inhabiting the NEPR, and 1 26 of the 27 gastropod species known to occur specifically in the 9° 50' N region, can be 2 identified to species. Morphological identification efforts are improved by new 3 protoconch descriptions for Gorgoleptis spiralis, Lepetodrilus pustulosus, Nodopelta 4 subnoda, and Echinopelta fistulosa. Even with these new morphological descriptions, the 5 majority of lepetodrilids and peltospirids require molecular identification. Restriction 6 fragment length polymorphism digests are presented as an economical method for 7 identification of five species of Lepetodrilus and six species of peltospirids. The 8 remaining unidentifiable specimens can be assigned to species by comparison to an 9 expanded database of 18S ribosomal DNA. The broad utility of the staged approach was 10 exemplified by the revelation of species-level variation in daily planktonic samples and 11 the identification and characterization of egg capsules belonging to a conid gastropod 12Gymnobela sp. A. The improved molecular and morphological capabilities nearly double 13 the number of species amenable to field studies of dispersal and population connectivity. 14 15

show abstract

Vertical, lateral and temporal structure in larval distributions at hydrothermal vents

Cited by 91 publications

References 65 publications

Biophysical and Population Genetic Models Predict the Presence of “Phantom” Stepping Stones Connecting Mid-Atlantic Ridge Vent Ecosystems

Biophysical and Population Genetic Models Predict the Presence of “Phantom” Stepping Stones Connecting Mid-Atlantic Ridge Vent Ecosystems

Free-Living Tube Worm Endosymbionts Found at Deep-Sea Vents

Expanding dispersal studies at hydrothermal vents through species identification of cryptic larval forms

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