Salinity as a tool for strain selection in recirculating land-based production of Ulva spp. as adults

In the paper "Salinity as a tool for strain selection in recirculating land-based production of Ulva spp. from germlings to adults" (Cardoso et al. 2023) the relative growth rates of adult thalli of different Ulva species and strains were measured to evaluate the impact of different salini...

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Bibliographic Details
Main Authors: Cardoso, Isabel, Meissner, Anneke, Sawicki, Anja, Bartsch, Inka, Valentin, Klaus, Steinhagen, Sophie, Buck, Bela Hieronymus, Hofmann, Laurie C
Format: Dataset
Language:English
Published: PANGAEA 2023
Subjects:
Accession number
genetics
Algae cultivation
Analytical Balance
Sartorius
LA310S
Antioxidant activity
Artificial seawater
AWI_Bremerhaven_FunctEcologyLab
Biomass
wet mass
Bremerhaven
Germany
Concentration
DATE/TIME
Date/time end
Date/time start
DEPTH
water
Event label
Experiment duration
Industrietaugliche Verfahrensoptimierung zur Herstellung einer nachhaltigen Verpackungslösung aus Makroalgen für den Lebensmittel-Handel
Laboratory
Laboratory experiment
laboratory study
LATITUDE
Light intensity
Light meter
LI-COR Biosciences GmbH
LI-250A
LONGITUDE
Mak-Pak_Scale-Up
Mediterranean Sea
MedSea_Ulva_1986
MedSea_Ulva_1987
NEAtlantic_Ulva_2021
North East Atlantic
Number of measurements
Nutrient
Origin
Recirculating Aquaculture System
Refractometer
Atago
S-10E
Replicate
Salinity
Sample code/label
Sampling date
Species
Temperature
Mak
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.956990
https://doi.org/10.1594/PANGAEA.956990
Description
Summary:In the paper "Salinity as a tool for strain selection in recirculating land-based production of Ulva spp. from germlings to adults" (Cardoso et al. 2023) the relative growth rates of adult thalli of different Ulva species and strains were measured to evaluate the impact of different salinity treatments. We hypothesised that salinity impacts the of the seaweeds and that different strains are adapted to different salinities. With this data we aimed to use salinity as a tool for selecting the strain with the highest and determine the optimal salinity to grow it in the future in a recirculating land-based system. Four strains were tested (U. lacinulata and U. linza from the NE-Atlantic and U. lacinulata and U. flexuosa from the Mediterranean). The NE- Atlantic strains were collected in the Óbidos Lagoon, Portugal in January 2021 and were cultivated in laboratory conditions in the Alfred Wegener Institute (AWI), Bremerhaven, Germany. The Mediterranean strains belong to an AWI collection and were isolated in 1986 and 1987 (U. flexuosa and U. lacinulata, respectively). The cultivation of the Mediterranean species with the purpose of using them for experiments started in June 2021. To recreate the conditions of a large-scale system, the strains were grown previously and during the experiment in a medium of artificial seawater (Seequasal-Salz, Seequasal Salz Production and Trade GmbH, Münster, Germany) enriched with a cheaper commercial fertilizer Blaukorn (COMPO SANA®, Germany). A uniform amount of fresh thalli from each species and population were placed into 1 L glass beakers with salinities of 10, 15, 20 and 30 PSU (each condition n = 3) and cultivated over 3 weeks. The fresh weight was measured once a week by collecting the seaweed and removing the excess water with absorbent paper three times before weighing the samples (Sartorius, Germany). Every time, each sample was measured 3 times. Based on the fresh weight measured each week, it was possible to calculate the of each strain throughout the experiment.

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