Spring bloom dynamics in the Baltic Sea : from the environment to macroelements and microbial interactions
The Baltic Sea is a substantial brackish water system, and due to its shallow average depth, physicochemical dynamics affecting, for instance, phytoplankton growth, are controlled by atmospheric forces. This unique ecosystem is threatened by environmental changes, with implications for the water qua...
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Other Authors: | , , , , , , , , , |
Format: | Doctoral or Postdoctoral Thesis |
Language: | English |
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Helsingin yliopisto
2020
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Subjects: | |
Online Access: | http://hdl.handle.net/10138/316698 |
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ftunivhelsihelda:oai:helda.helsinki.fi:10138/316698 |
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record_format |
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Open Polar |
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Helsingfors Universitet: HELDA – Helsingin yliopiston digitaalinen arkisto |
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ftunivhelsihelda |
language |
English |
topic |
marine Microbial Ecology (research field) Aquatic Sciences (U Helsinki) |
spellingShingle |
marine Microbial Ecology (research field) Aquatic Sciences (U Helsinki) Lipsewers, Tobias Spring bloom dynamics in the Baltic Sea : from the environment to macroelements and microbial interactions |
topic_facet |
marine Microbial Ecology (research field) Aquatic Sciences (U Helsinki) |
description |
The Baltic Sea is a substantial brackish water system, and due to its shallow average depth, physicochemical dynamics affecting, for instance, phytoplankton growth, are controlled by atmospheric forces. This unique ecosystem is threatened by environmental changes, with implications for the water quality. Eutrophication remains the major challenge for the Baltic Sea ecosystem. The increases in nitrogen (N) and phosphorus (P) are not proportional to the carbon (C) input, which might cause imbalances in seston C:N:P stoichiometry and affect biogeochemical cycles. In turn, plankton growth, food web dynamics, and nutrient- / C-cycling, which plays a pivotal role in climate change, will be affected. The ongoing eutrophication supports the formation of high phytoplankton biomass, enhancing the spreading of anoxic bottom waters, affecting benthic communities, which might be worsened by an extended annual growing season caused by increasing sea surface temperatures (SST). Higher SST and effects of eutrophication are known to support harmful algal blooms such as the occurrence of toxic dinoflagellates and cyanobacteria in the Baltic Sea during summer. The spring bloom is the most productive period of the year (~50 % annual C-fixation), driven by high inorganic nutrient concentrations and improving light conditions. The co-existence of cold-water diatoms and dinoflagellates during this period is characteristic of the Baltic Sea. Heterotrophic bacteria will become more abundant due to increased concentrations of allochthonous organic matter, which could reduce the phototrophic contribution already in spring. The health of arctic and sub-arctic ecosystems is highly dependent on environmental factors such as temperature affecting, for example, sea ice conditions. Climatically driven changes have already caused variations in the plankton community structure during the Baltic Sea spring bloom. These alterations have led to lower diatom-dinoflagellate-proportions (DDP), affecting food web dynamics and biogeochemical cycles. ... |
author2 |
Angela, Wulff University of Helsinki, Faculty of Biological and Environmental Sciences, Faculty of Biological and Environmental Sciences Doctoral Programme in Interdisciplinary Environmental Sciences Finnish Environment Institute (SYKE) - Marine Research CentreTvärminne Zoological Station (University of Helsinki) Helsingin yliopisto, bio- ja ympäristötieteellinen tiedekunta Ympäristöalan tieteidenvälinen tohtoriohjelma Helsingfors universitet, bio- och miljövetenskapliga fakulteten Doktorandprogrammet i tvärvetenskaplig miljöforskning Spilling, Kristian Kuosa, Harri |
format |
Doctoral or Postdoctoral Thesis |
author |
Lipsewers, Tobias |
author_facet |
Lipsewers, Tobias |
author_sort |
Lipsewers, Tobias |
title |
Spring bloom dynamics in the Baltic Sea : from the environment to macroelements and microbial interactions |
title_short |
Spring bloom dynamics in the Baltic Sea : from the environment to macroelements and microbial interactions |
title_full |
Spring bloom dynamics in the Baltic Sea : from the environment to macroelements and microbial interactions |
title_fullStr |
Spring bloom dynamics in the Baltic Sea : from the environment to macroelements and microbial interactions |
title_full_unstemmed |
Spring bloom dynamics in the Baltic Sea : from the environment to macroelements and microbial interactions |
title_sort |
spring bloom dynamics in the baltic sea : from the environment to macroelements and microbial interactions |
publisher |
Helsingin yliopisto |
publishDate |
2020 |
url |
http://hdl.handle.net/10138/316698 |
geographic |
Arctic |
geographic_facet |
Arctic |
genre |
Arctic Climate change Phytoplankton Sea ice |
genre_facet |
Arctic Climate change Phytoplankton Sea ice |
op_relation |
URN:ISBN:978-951-51-6285-4 Hansaprint Oy, Vantaa: YEB dissertation series, 2020, Dissertationes Schola Doctoralis Scientiae Circumiectalis, Alimentariae, Biologicae. Universitatis Helsinkiensis. 2342-5423 Dissertationes Schola Doctoralis Scientiae Circumiectalis, Alimentariae, Biologicae. Universitatis Helsinkiensis URN:ISSN:2342-5431 http://hdl.handle.net/10138/316698 URN:ISBN:978-951-51-6286-1 |
op_rights |
Julkaisu on tekijänoikeussäännösten alainen. Teosta voi lukea ja tulostaa henkilökohtaista käyttöä varten. Käyttö kaupallisiin tarkoituksiin on kielletty. This publication is copyrighted. You may download, display and print it for Your own personal use. Commercial use is prohibited. Publikationen är skyddad av upphovsrätten. Den får läsas och skrivas ut för personligt bruk. Användning i kommersiellt syfte är förbjuden. |
_version_ |
1774714828031524864 |
spelling |
ftunivhelsihelda:oai:helda.helsinki.fi:10138/316698 2023-08-20T04:04:27+02:00 Spring bloom dynamics in the Baltic Sea : from the environment to macroelements and microbial interactions Lipsewers, Tobias Angela, Wulff University of Helsinki, Faculty of Biological and Environmental Sciences, Faculty of Biological and Environmental Sciences Doctoral Programme in Interdisciplinary Environmental Sciences Finnish Environment Institute (SYKE) - Marine Research CentreTvärminne Zoological Station (University of Helsinki) Helsingin yliopisto, bio- ja ympäristötieteellinen tiedekunta Ympäristöalan tieteidenvälinen tohtoriohjelma Helsingfors universitet, bio- och miljövetenskapliga fakulteten Doktorandprogrammet i tvärvetenskaplig miljöforskning Spilling, Kristian Kuosa, Harri 2020-06-23T04:24:09Z application/pdf http://hdl.handle.net/10138/316698 eng eng Helsingin yliopisto Helsingfors universitet University of Helsinki URN:ISBN:978-951-51-6285-4 Hansaprint Oy, Vantaa: YEB dissertation series, 2020, Dissertationes Schola Doctoralis Scientiae Circumiectalis, Alimentariae, Biologicae. Universitatis Helsinkiensis. 2342-5423 Dissertationes Schola Doctoralis Scientiae Circumiectalis, Alimentariae, Biologicae. Universitatis Helsinkiensis URN:ISSN:2342-5431 http://hdl.handle.net/10138/316698 URN:ISBN:978-951-51-6286-1 Julkaisu on tekijänoikeussäännösten alainen. Teosta voi lukea ja tulostaa henkilökohtaista käyttöä varten. Käyttö kaupallisiin tarkoituksiin on kielletty. This publication is copyrighted. You may download, display and print it for Your own personal use. Commercial use is prohibited. Publikationen är skyddad av upphovsrätten. Den får läsas och skrivas ut för personligt bruk. Användning i kommersiellt syfte är förbjuden. marine Microbial Ecology (research field) Aquatic Sciences (U Helsinki) Text Doctoral dissertation (article-based) Artikkeliväitöskirja Artikelavhandling doctoralThesis 2020 ftunivhelsihelda 2023-07-28T06:11:04Z The Baltic Sea is a substantial brackish water system, and due to its shallow average depth, physicochemical dynamics affecting, for instance, phytoplankton growth, are controlled by atmospheric forces. This unique ecosystem is threatened by environmental changes, with implications for the water quality. Eutrophication remains the major challenge for the Baltic Sea ecosystem. The increases in nitrogen (N) and phosphorus (P) are not proportional to the carbon (C) input, which might cause imbalances in seston C:N:P stoichiometry and affect biogeochemical cycles. In turn, plankton growth, food web dynamics, and nutrient- / C-cycling, which plays a pivotal role in climate change, will be affected. The ongoing eutrophication supports the formation of high phytoplankton biomass, enhancing the spreading of anoxic bottom waters, affecting benthic communities, which might be worsened by an extended annual growing season caused by increasing sea surface temperatures (SST). Higher SST and effects of eutrophication are known to support harmful algal blooms such as the occurrence of toxic dinoflagellates and cyanobacteria in the Baltic Sea during summer. The spring bloom is the most productive period of the year (~50 % annual C-fixation), driven by high inorganic nutrient concentrations and improving light conditions. The co-existence of cold-water diatoms and dinoflagellates during this period is characteristic of the Baltic Sea. Heterotrophic bacteria will become more abundant due to increased concentrations of allochthonous organic matter, which could reduce the phototrophic contribution already in spring. The health of arctic and sub-arctic ecosystems is highly dependent on environmental factors such as temperature affecting, for example, sea ice conditions. Climatically driven changes have already caused variations in the plankton community structure during the Baltic Sea spring bloom. These alterations have led to lower diatom-dinoflagellate-proportions (DDP), affecting food web dynamics and biogeochemical cycles. ... Doctoral or Postdoctoral Thesis Arctic Climate change Phytoplankton Sea ice Helsingfors Universitet: HELDA – Helsingin yliopiston digitaalinen arkisto Arctic |