Subject: atmospheric deposition and climate change / Subject term: Baltic Sea

Author:: H. E. M. Meier; K. Eilola; E. Almroth-Rosell; S. Schimanke; M. Kniebusch; A. Höglund; P. Pemberton; Y. Liu; G. Väli; S. Saraiva
Source:: Climate dynamics 2019 v.53 no.1-2 pp. 1145-1166
ISSN:: 0930-7575
Subject:: air temperature; atmospheric deposition; climate; climate change; ecosystems; environmental indicators; eutrophication; models; nutrient content; oxygen; pollution load; sea level; Baltic Sea; Ireland; North Sea
Abstract:: ... In the Baltic Sea hypoxia has been increased considerably since the first oxygen measurements became available in 1898. In 2016 the annual maximum extent of hypoxia covered an area of the sea bottom of about 70,000 km², comparable with the size of Ireland, whereas 150 years ago hypoxia was presumably not existent or at least very small. The general view is that the increase in hypoxia was caused b ...
DOI:: 10.1007/s00382-018-4296-y
: https://doi.org/10.1007/s00382-018-4296-y

Author:: Alena Bartosova; René Capell; Jørgen E. Olesen; Mohamed Jabloun; Jens Christian Refsgaard; Chantal Donnelly; Kari Hyytiäinen; Sampo Pihlainen; Marianne Zandersen; Berit Arheimer
Source:: Ambio 2019 v.48 no.11 pp. 1325-1336
ISSN:: 0044-7447
Subject:: atmospheric deposition; climate; climate change; dynamic models; emissions; eutrophication; issues and policy; land use; nitrogen; phosphorus; pollution load; socioeconomic factors; wastewater; Baltic Sea
Abstract:: ... The Baltic Sea is suffering from eutrophication caused by nutrient discharges from land to sea, and these loads might change in a changing climate. We show that the impact from climate change by mid-century is probably less than the direct impact of changing socioeconomic factors such as land use, agricultural practices, atmospheric deposition, and wastewater emissions. We compare results from dyn ...
DOI:: 10.1007/s13280-019-01243-5
PubMed:: 31542889
PubMed Central:: PMC6814641
: https://doi.org/10.1007/s13280-019-01243-5

Author:: Marianne Zandersen; Kari Hyytiäinen; H. E. Markus Meier; Maciej T. Tomczak; Barbara Bauer; Päivi E. Haapasaari; Jørgen Eivind Olesen; Bo G. Gustafsson; Jens Christian Refsgaard; Erik Fridell; Sampo Pihlainen; Martin D. A. Le Tissier; Anna-Kaisa Kosenius; Detlef P. Van Vuuren
Source:: Regional environmental change 2019 v.19 no.4 pp. 1073-1086
ISSN:: 1436-3798
Subject:: atmospheric deposition; climate; climate change; ecosystems; fisheries; human development; land use change; pollution; pollution control; shipping; socioeconomics; wastewater treatment; Baltic Sea; Northern European region
Abstract:: ... Long-term scenario analyses can be powerful tools to explore plausible futures of human development under changing environmental, social, and economic conditions and to evaluate implications of different approaches to reduce pollution and resource overuse. Vulnerable ecosystems like the Baltic Sea in North-Eastern Europe tend to be under pressure from multiple, interacting anthropogenic drivers bo ...
DOI:: 10.1007/s10113-018-1453-0
: https://doi.org/10.1007/s10113-018-1453-0

Author:: Urszula Kwasigroch; Magdalena Bełdowska; Agnieszka Jędruch; Dominka Saniewska
Source:: Environmental science and pollution research international 2018 v.25 no.28 pp. 28682-28694
ISSN:: 0944-1344
Subject:: atmospheric deposition; basins; cliffs; climate change; coasts; floods; marine environment; mercury; rain; rivers; sediments; storms; Baltic Sea
Abstract:: ... Mercury (Hg) can be introduced into the marine environment in many different ways. In the case of the Baltic Sea, rivers and atmospheric deposition are the predominant ones. However, in the face of ongoing climate change, a new potential source, coastal erosion, is starting to become more important and is currently considered to be the third largest source of Hg in the Gdansk Basin region. It is e ...
DOI:: 10.1007/s11356-018-2856-7
PubMed:: 30097984
PubMed Central:: PMC6153678
: https://doi.org/10.1007/s11356-018-2856-7

Author:: Terry Bidleman; Kathleen Agosta; Agneta Andersson; Eva Brorström-Lundén; Peter Haglund; Katarina Hansson; Hjalmar Laudon; Seth Newton; Olle Nygren; Matyas Ripszam; Mats Tysklind; Karin Wiberg
Source:: Ambio 2015 v.44 no.Supplement 3 pp. 472-483
ISSN:: 0044-7447
Subject:: HCH (pesticide); air; atmospheric deposition; biogeochemical cycles; bromine; climate change; endosulfan; gas exchange; ice; oceans; persistent organic pollutants; prediction; volatilization; water temperature; watersheds; Baltic Sea
Abstract:: ... Long-range atmospheric transport is a major pathway for delivering persistent organic pollutants to the oceans. Atmospheric deposition and volatilization of chlorinated pesticides and algae-produced bromoanisoles (BAs) were estimated for Bothnian Bay, northern Baltic Sea, based on air and water concentrations measured in 2011–2012. Pesticide fluxes were estimated using monthly air and water temper ...
DOI:: 10.1007/s13280-015-0666-4
PubMed:: 26022329
PubMed Central:: PMC4447703
: https://doi.org/10.1007/s13280-015-0666-4

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