Collection information of the genus Geodia from boreo-arctic North-Atlantic deep-sea sponge grounds

Boreo-arctic sponge grounds are essential deep-sea structural habitats that provide important services for the ecosystem. These large sponge aggregations are dominated by demosponges of the genus Geodia (order Tetractinellida, family Geodiidae). However, little is known about the basic biological fe...

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Bibliographic Details
Main Authors: Koutsouveli, Vasiliki, Cárdenas, Paco, Conejero, Maria, Rapp, Hans Tore, Riesgo, Ana
Format: Dataset
Language:English
Published: PANGAEA 2020
Subjects:
Agassiz Trawl
AGT
Area/locality
Campaign
DATE/TIME
Deep-sea Sponge Grounds Ecosystems of the North Atlantic
DEPTH
water
Device type
Dredge
triangle
Event label
G. O. Sars (2003)
Geodia
GS16A-202
GS2016109A
GS2016109A-06-ROV-01
GS2017110
GS2017110-09-ROV-6
GS2017110-23-ROV12
GS2017110-41-ROV-19
GS2017110-57-AGT-01
GS2017110-68-ROV-25
GS2017110-74-ROV-26
Hans Brattström
HB2016944
HB2016944_2
HB2016952
HB2016952_6
Histology
Investigator
KB2017610
KB2017610_DRG_43
Korsfjord
Kosterfjord
Kosterfjord_March_2019
Kristine Bonnevie
Latitude of event
Longitude of event
Nereus
Nereus20160405
Nereus20160405_ROV
Nsvalbard_2011-09-22
Porifera
Remote operated vehicle
Reproduction
Rosemary_Bank_2011-09-11
Rosemary_Bank_2012-09-19
Rosemary_Bank_2015-09-20
Rosemary_Bank_2016-09-19
Arctic
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.921626
https://doi.org/10.1594/PANGAEA.921626
Description
Summary:Boreo-arctic sponge grounds are essential deep-sea structural habitats that provide important services for the ecosystem. These large sponge aggregations are dominated by demosponges of the genus Geodia (order Tetractinellida, family Geodiidae). However, little is known about the basic biological features of these species, such as their life cycle and dispersal capabilities. Here, we surveyed five deep-sea species of Geodia from the North Atlantic Ocean and studied their reproductive cycle and strategy using light and electron microscopy. We confirmed that these five species were oviparous and gonochoristic and that their reproductive season spanned similar periods: from late spring to early autumn. Concerning their reproductive strategy, the high abundance of lipid yolk observed in the female gametes could indicate both a necessity for rapid fuel during embryogenesis in the water column and increased buoyancy for drifting over longer times. Overall, the investment in reproduction was lower for all the surveyed species compared to similar shallow-water species. Given the present hazards that threaten sponge grounds, it becomes crucial to understand the processes behind the maintenance and regeneration of populations of keystone deep-sea species in order to predict the magnitude of human impacts and estimate their ability to recover. The information provided in this study will be useful for developing adequate conservation strategies for these vulnerable deep-sea habitats.

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