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| Format: | Dataset Open Access |
| Language: | en |
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PANGAEA
2023
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| Online Access: | https://doi.org/10.1594/PANGAEA.951172 |
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| _version_ | 1867170116794318848 |
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| author | Niedzwiedz, Sarina Bischof, Kai |
| author_facet | Niedzwiedz, Sarina Bischof, Kai |
| collection | Datos científicos de ciencias marinas y ambientales |
| contents | Kelps act as ecosystem engineers and foundation species on many polar rocky shore coastlines. The main driver for their vertical and latitudinal distribution is the underwater light climate and temperature. Both are changing drastically in the Arctic in the course of global climate change. It was the aim of this study to analyse the effects of rising temperature and deteriorating underwater light climate on the potential habitat of kelps in the Arctic. A laboratory experiment, in which we determined temperature-related changes in the light-use characteristics of two temperate kelp species (Alaria esculenta, Saccharina latissima) at 3, 7, and 11 °C. Therefore, grown sporophytes were sampled in the field from a sampling depth of 6–9 m. Meristematic discs (Ø 2 cm) were cut and distributed between temperature treatments and replicates. The experiment ran for seven days, during which the treatment temperature was increased every two days by 4 °C until treatment temperature was reached, allowing for successive acclimation. The photosynthesis vs. irradiance curves were measured with a 4-channel optode set-up (FireStingO2 Fibre-Optic Oxygen Meter FSO2-01, PyroScience Sensor technology, Aachen, Germany) by analysing the oxygen evolution in response to different light intensities within a 25 mL Schott bottle, each containing three meristematic discs. Maximum photosynthetic quantum yield was measured using a pulse amplitude modulated fluorometer (Portable Chlorophyll Fluorometer PAM-2100, Heinz Walz GmbH, Effeltrich, Germany). Pigment analysis was analysed with a High-Performance Liquid Chromatograph (HPLC, LaChromElite® system, L-2200 autosampler (chilled), DA-detetctor L-2450; VWR-Hitachi International GmbH, Darmstadt, Germany). |
| format | Dataset Open Access |
| id | pangaea_https___doi_org_10_1594_PANGAEA_951172 |
| institution | PANGAEA |
| language | en |
| publishDate | 2023 |
| publisher | PANGAEA |
| record_format | pangaea |
| spellingShingle | Lab experiment on the effects of temperature on kelp respiration rates Niedzwiedz, Sarina Bischof, Kai Arctic Amplification; Arctic Biodiversity & Livelihoods; Area; biogeography; Biomass; Carbon; Carbon/Nitrogen ratio; Cauloid length; Chlorophyll a; Climate change; Compensation irradiance; Compensation point; Day of experiment; Deposit feeder, biomass; Dry mass; Elemental analyzer, EuroVector, EuroEA 3000; FACE-IT; Family; Genus, unique identification; Genus, unique identification (Semantic URI); Genus, unique identification (URI); Glacier; High performance liquid chromatography (HPLC), LaChromElite (L-2200) autosampler (chilled), DA-detector L-2450; Light; log-compensation point; Macroalgae; Maximum photochemical quantum yield of photosystem II; Nitrogen; Optical Oxygen Meter (FireSting, PyroScience GmbH, Germany); Oxygen concentration at 0 µmol photons; Oxygen concentration at 0 µmol photons per time and area; Oxygen concentration at 24 µmol photons; Oxygen concentration at 24 µmol photons per time and area; Photosynthesis; Phylloid length; Phylloid width; Pigments; Pigments/Chlorophyll a ratio; Portable Chlorophyll Flourometer, Heinz Walz GmbH, Effeltrich, Germany, PAM-2100; RAMSES-ACC hyperspectral radiometer, TriOS; Respiration; Species; Treatment: temperature; Type of study; Wet mass Kelps act as ecosystem engineers and foundation species on many polar rocky shore coastlines. The main driver for their vertical and latitudinal distribution is the underwater light climate and temperature. Both are changing drastically in the Arctic in the course of global climate change. It was the aim of this study to analyse the effects of rising temperature and deteriorating underwater light climate on the potential habitat of kelps in the Arctic. A laboratory experiment, in which we determined temperature-related changes in the light-use characteristics of two temperate kelp species (Alaria esculenta, Saccharina latissima) at 3, 7, and 11 °C. Therefore, grown sporophytes were sampled in the field from a sampling depth of 6–9 m. Meristematic discs (Ø 2 cm) were cut and distributed between temperature treatments and replicates. The experiment ran for seven days, during which the treatment temperature was increased every two days by 4 °C until treatment temperature was reached, allowing for successive acclimation. The photosynthesis vs. irradiance curves were measured with a 4-channel optode set-up (FireStingO2 Fibre-Optic Oxygen Meter FSO2-01, PyroScience Sensor technology, Aachen, Germany) by analysing the oxygen evolution in response to different light intensities within a 25 mL Schott bottle, each containing three meristematic discs. Maximum photosynthetic quantum yield was measured using a pulse amplitude modulated fluorometer (Portable Chlorophyll Fluorometer PAM-2100, Heinz Walz GmbH, Effeltrich, Germany). Pigment analysis was analysed with a High-Performance Liquid Chromatograph (HPLC, LaChromElite® system, L-2200 autosampler (chilled), DA-detetctor L-2450; VWR-Hitachi International GmbH, Darmstadt, Germany). |
| title | Lab experiment on the effects of temperature on kelp respiration rates |
| topic | Arctic Amplification; Arctic Biodiversity & Livelihoods; Area; biogeography; Biomass; Carbon; Carbon/Nitrogen ratio; Cauloid length; Chlorophyll a; Climate change; Compensation irradiance; Compensation point; Day of experiment; Deposit feeder, biomass; Dry mass; Elemental analyzer, EuroVector, EuroEA 3000; FACE-IT; Family; Genus, unique identification; Genus, unique identification (Semantic URI); Genus, unique identification (URI); Glacier; High performance liquid chromatography (HPLC), LaChromElite (L-2200) autosampler (chilled), DA-detector L-2450; Light; log-compensation point; Macroalgae; Maximum photochemical quantum yield of photosystem II; Nitrogen; Optical Oxygen Meter (FireSting, PyroScience GmbH, Germany); Oxygen concentration at 0 µmol photons; Oxygen concentration at 0 µmol photons per time and area; Oxygen concentration at 24 µmol photons; Oxygen concentration at 24 µmol photons per time and area; Photosynthesis; Phylloid length; Phylloid width; Pigments; Pigments/Chlorophyll a ratio; Portable Chlorophyll Flourometer, Heinz Walz GmbH, Effeltrich, Germany, PAM-2100; RAMSES-ACC hyperspectral radiometer, TriOS; Respiration; Species; Treatment: temperature; Type of study; Wet mass |
| url | https://doi.org/10.1594/PANGAEA.951172 |