Trophic structure of the macrofauna associated to deep-vents of the southern Gulf of California: Pescadero Basin and Pescadero Transform Fault

Newly discovered hydrothermal systems in the Pescadero Basin (PB) and the neighboring Pescadero Transform Fault (PTF) at the mouth of the Gulf of California disclosed a diverse macrofauna assemblage. The trophic structure of both ecosystems was assessed using carbon (δ13C), nitrogen (δ15N), and sulf...

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Bibliographic Details
Published in:PloS one 2019-11, Vol.14 (11), p.e0224698-e0224698
Main Authors: Salcedo, Diana L, Soto, Luis A, Paduan, Jennifer B
Format: Article
Language:English
Subjects:
Animals
Assimilation
Bacteria
Bearing
Biodiversity
Biology and Life Sciences
California
Carbon
Carbon Cycle
Carbon Isotopes - analysis
Carbon sources
Consumers
Detritivores
Earth Sciences
Ecological Parameter Monitoring - statistics & numerical data
Ecosystem assessment
Ecosystems
Energy resources
Feeders
Food Chain
Guilds
High temperature
Hydrocarbons
Hydrothermal systems
Hydrothermal systems (Geology)
Hydrothermal Vents - analysis
Isotopes
Low temperature
Macrofauna
Nitrogen Isotopes - analysis
Organic matter
Pacific Ocean
Photosynthesis
Physical Sciences
Polychaeta - physiology
Research and Analysis Methods
Social Sciences
Stable isotopes
Substrates
Sulfide
Sulfides
Sulfur
Sulfur compounds
Sulfur Isotopes - analysis
Vents
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Summary:Newly discovered hydrothermal systems in the Pescadero Basin (PB) and the neighboring Pescadero Transform Fault (PTF) at the mouth of the Gulf of California disclosed a diverse macrofauna assemblage. The trophic structure of both ecosystems was assessed using carbon (δ13C), nitrogen (δ15N), and sulfur (δ34S) stable isotopes. The δ13C ranged from -40.8 to -12.1‰, revealing diverse carbon sources and its assimilation via Calvin-Benson-Bassham and the reductive tricarboxylic acid cycles. The δ15N values were between -12.5 and 18.3‰, corresponding to primary and secondary consumers. The δ34S values fluctuated from -36.2 to 15.1‰, indicating the sulfide assimilation of biogenic, magmatic, and photosynthetic sources. In PB high-temperature vents, primary consumers including symbiont-bearing, bacterivores and filter-feeders predominated. The secondary consumers within the scavengers/detritivores and predator guilds were scarce. The siboglinid Oasisia aff alvinae dominated the macrofauna assemblage at PB, but rather than playing a trophic role, it provides a substrate to vent dwellers. In PTF low-temperature vents, only symbiont-bearing primary consumers were analyzed, displaying the lowest δ34S values. This assemblage was dominated by the coexisting siboglinids Lamellibrachia barhami and Escarpia spicata. δ34S values allowed to distinguish between PB and PTF vent communities, to exclude the presence of methanotrophic organisms, and the detection of photosynthetic organic matter input.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0224698