Food-web dynamics and isotopic niches in deep-sea communities residing in a submarine canyon and on the adjacent open slopes

Examination of food webs and trophic niches provide insight into organisms’ functional ecology, yet few studies have examined the trophodynamics within submarine canyons, where the interaction of morphology and oceanography influences food deposition. Stable isotope analysis and Bayesian ellipses do...

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Bibliographic Details
Main Authors: Amanda W.J. Demopoulos, Jennifer McClain-Counts, Steve W. Ross, Sandra Brooke, Furu Mienis
Format: Dataset
Language:unknown
Published: USGS Science Data Catalog 2017
Subjects:
submarine canyon
deep-sea
stable isotopes
Baltimore Canyon
Bayesian ellipses
Atlantic Ocean
Anthothela
Paragorgia
Paramuricea
Primnoa
Halcurias
Bolocera
Actinoscyphia
Dasmosmilia
Desmophyllum
Lophelia
Unciola
Themisto
Bentheuphausia
Meganyctiphanes
Nyctiphanes
Thysanoessa
Acetes
Parapenaeus
Mesopenaeus
Aristeus
Homarus
Atlantopandalus
Pandalus
Dichelopandalus
Processa
Paguristes
Agononida
Munida
Eumunida
Latreillia
Rochinia
Chaceon
Hyalinoecia
Colus
Semirossia
Rossia
Bathyteuthis
Illex
Cidaris
Sclerasterias
Astropecten
Persephonaster
Amphiura
Myxine
Synaphobranchus
Nemichthys
Notacanthus
Argentina
Lophius
Chaunax
Dibranchus
Urophycis
Enchelyopus
Phycis
Merluccius
Malacocephalus
Nezumia
Lepophidium
Hoplostethus
Helicolenus
Peristedion
Lycenchelys
Lycodes
Monolene
Glyptocephalus
Symphurus
Citharichthys
Maurolicus
Argyropelecus
Polyipnus
Stomias
Polymetme
Chlorophthalmus
Parasudis
Arctozenus
Diaphus
Leucoraja
Scyliorhinus
Bathynectes
Brachioteuthis
Cancer
Coelorinchus
Hippoglossina
Echinus
Anthothela grandiflora
Paragorgia arborea
Paramuricea placomus
Primnoa resedaeformis
Dasmosmilia lymani
Desmophyllum dianthus
Lophelia pertusa
Bentheuphausia amblyops
Meganyctiphanes norvegica
Nyctiphanes couchii
Thysanoessa macrura
Acetes americanus
Parapenaeus politus
Mesopenaeus tropicalis
Aristeus antillensis
Homarus americanus
Atlantopandalus propinqvus
Pandalus borealis
Dichelopandalus leptocerus
Processa guyanae
Paguristes lymani
Agononida longipes
Munida iris
Munida valida
Eumunida picta
Latreillia elegans
Rochinia crassa
Chaceon quinquedens
Colus stimpsoni
Semirossia tenera
Rossia megaptera
Illex illecebrosus
Sclerasterias contorta
Astropecten alligator
Persephonaster echinulatus
Amphiura otteri
Myxine glutinosa
Synaphobranchus affinis
Synaphobranchus kaupii
Nemichthys scolopaceus
Nemichthys curvirostris
Notacanthus chemnitzii
Argentina striata
Lophius americanus
Chaunax suttkusi
Dibranchus atlanticus
Urophycis chuss
Urophycis regia
Enchelyopus cimbrius
Phycis chesteri
Merluccius albidus
Malacocephalus occidentalis
Nezumia bairdii
Lepophidium profundorum
Hoplostethus mediterraneus
Helicolenus dactylopterus
Peristedion miniatum
Peristedion truncatum
Lycenchelys verrillii
Lycodes terraenovae
Monolene sessilicauda
Glyptocephalus cynoglossus
Symphurus nebulosus
Symphurus billykrietei
Symphurus stigmosus
Citharichthys arctifrons
Maurolicus weitzmani
Argyropelecus aculeatus
Polyipnus asteroides
Stomias boa
Polymetme thaeocoryla
Chlorophthalmus agassizi
Parasudis truculenta
Arctozenus risso
Leucoraja garmani
Scyliorhinus retifer
Bathynectes maravigna
Brachioteuthis beanii
Cancer plebejus
Coelorinchus caelorhincus
Hippoglossina oblonga
Echinus tylodea
Boa
Online Access:https://search.dataone.org/view/1322f8e3-4ef9-4b9c-8bc7-ad551082029e
Description
Summary:Examination of food webs and trophic niches provide insight into organisms’ functional ecology, yet few studies have examined the trophodynamics within submarine canyons, where the interaction of morphology and oceanography influences food deposition. Stable isotope analysis and Bayesian ellipses documented deep-sea food web structure and trophic niches in Baltimore Canyon and the adjacent open slopes in the U.S. Mid-Atlantic Region. Results revealed isotopically diverse feeding groups, comprising approximately 5 trophic levels. Regression analysis indicated that consumer isotope data are structured by site (canyon vs. slope), feeding group, and depth. Benthic feeders were enriched in 13C and 15N relative to suspension feeders, consistent with consuming older, more refractory organic matter. In contrast, canyon suspension feeders had the largest and more distinct isotopic niche, indicating they consume an isotopically discrete food source, possibly fresher organic material. The wider isotopic niche observed for canyon consumers indicated the presence of feeding specialists and generalists. High dispersion in δ13C values for canyon consumers suggested that the isotopic composition of particulate organic matter changes, which is linked to the depositional dynamics, resulting in discrete zones of organic matter accumulation or resuspension. This heterogeneity results in higher trophic diversity in canyons. Hence, given their abundance in the world’s oceans, submarine canyons represent important havens for trophic diversity.

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