Elemental composition and residual water content of seven thaliacean (salps and pyrosomes) species from the world's oceans

Ecosystem models often use wet weights to parameterise biota disregarding their water content. This may be especially erroneous for gelatinous plankton, such as salps and pyrosomes, with high, compared to crustaceans, water content. Poorly quantified residual water should also be corrected when usin...

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Bibliographic Details
Main Authors: Lüskow, Florian, Balaji, Tanya, Pakhomov, Evgeny A
Format: Dataset
Language:English
Published: PANGAEA 2024
Subjects:
Analytical balance
Sartorius
BP211D
ANT-XXI/4
ANT-XXIII/2
ANT-XXIII/6
Ash free dry mass
Ash mass
BONGO
Bongo net
Calculated
Calculation according to Madin et al. (1981)
Carbon
per dry mass
Carbon/Hydrogen ratio
Carbon/Nitrogen ratio
Cobb trawl
Comment
Container
mass
Cruise/expedition
DATE/TIME
DEPTH
water
Elemental analyzer
Perkin Elmer
2400
Event label
Gear
Hydrogen
Hydrogen/Carbon ratio
IOS20210060
IOS20210060_A2
IOS20210060_JI22
IOS20210060_LB16
IOS20210060_LC09
IOS20210060_LD11
IOS20210060_LG07
IOS20210060_LG09
IOS20210060_LJ09
IOS20210060_NEWODAS
IOS20210060_P12-1
IOS20210060_P12-2
IOS20210060_P26
IOS20210060_P4
IOS20210060_P8
John P. Tully
LATITUDE
Southern Ocean
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.961147
Description
Summary:Ecosystem models often use wet weights to parameterise biota disregarding their water content. This may be especially erroneous for gelatinous plankton, such as salps and pyrosomes, with high, compared to crustaceans, water content. Poorly quantified residual water should also be corrected when using dry weights for parameterisation. We estimated the residual water content (as well as elemental and organic contents) for seven tunicate species, one pyrosome and six salps (N = 107). Specimens were collected during several research expeditions in the Southern Ocean, the Northeast Pacific, east of New Zealand, and around Hawaii between 2004 and 2021. The residual water content of tunicates was analyzed for inter- and intraspecific variability. The H-surplus method (Madin et al. 1981) was applied for the residual water content calculation. The dataset contains information about the life cycle stage (blastozooid versus oozooid), tissue type (tunic versus whole organism), drying method (oven versus freeze-drying), size, and the elemental and organic contents of the samples. The methods and results of the study are described in detail in Lüskow et al. (submitted).

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