Interactions between climate change and contaminants.

There is now general consensus that climate change is a global threat and a challenge for the 21st century. More and more information is available demonstrating how increased temperature may affect aquatic ecosystems and living resources or how increased water levels may impact coastal zones and their management. Many ecosystems are also affected by human releases of contaminants, for example from land based sources or the atmosphere, which also may cause severe effects. So far these two important stresses on ecosystems have mainly been discussed independently. The present paper is intended to increase awareness among scientists, coastal zone managers and decision makers that climate change will affect contaminant exposure and toxic effects and that both forms of stress will impact aquatic ecosystems and biota. Based on examples from different ecosystems, we discuss risks anticipated from contaminants in a rapidly changing environment and the research required to understand and predict how on-going and future climate change may alter risks from chemical pollution.

[1]  D. G. McDonald,et al.  Global warming: implications for freshwater and marine fish. , 1997 .

[2]  S. Baden,et al.  Manganese induced apoptosis in haematopoietic cells of Nephrops norvegicus (L.). , 2006, Aquatic toxicology.

[3]  R. Lim,et al.  The effects of three organic chemicals on the upper thermal tolerances of four freshwater fishes , 2007, Environmental toxicology and chemistry.

[4]  Russell P. Rykhus Satellite imagery maps Hurricane Katrina‐induced flooding and oil slicks , 2005 .

[5]  B. Morton,et al.  South China Sea. , 2001, Marine pollution bulletin.

[6]  A. Quintanilha,et al.  Hydrogen peroxide-induced carbonylation of key metabolic enzymes in Saccharomyces cerevisiae: the involvement of the oxidative stress response regulators Yap1 and Skn7. , 2002, Free radical biology & medicine.

[7]  R. Rosenberg,et al.  Marine benthic hypoxia: a review of its ecological effects and the behavioural responses of benthic macrofauna , 1995 .

[8]  P. Howard,et al.  Are there other persistent organic pollutants? A challenge for environmental chemists. , 2006, Environmental science & technology.

[9]  R. Wu,et al.  Aquatic hypoxia is a teratogen and affects fish embryonic development. , 2004, Environmental science & technology.

[10]  W. L. Lockhart,et al.  Brown snow : a long-range transport event in the Canadian arctic , 1991 .

[11]  Kang Tian,et al.  Assessment of pathogens and toxicants in New Orleans, LA following Hurricane Katrina. , 2006, Environmental science & technology.

[12]  N. M. Straalen,et al.  A Review of the Effects of Multiple Stressors on Aquatic Organisms and Analysis of Uncertainty Factors for Use in Risk Assessment , 2001, Critical reviews in toxicology.

[13]  Arctic Monitoring and Assessment Programme AMAP Assessment Report: Arctic Pollution Issues , 1998 .

[14]  S. Baden,et al.  Role, routes and effects of manganese in crustaceans , 2006 .

[15]  Andrew R. Cossins,et al.  Temperature Biology of Animals. , 1989 .

[16]  B. Tracy,et al.  Human health implications of environmental contaminants in Arctic Canada: a review. , 1999, The Science of the total environment.

[17]  D. Beare,et al.  An increase in the abundance of anchovies and sardines in the north‐western North Sea since 1995 , 2004 .

[18]  R. Wu,et al.  Hypoxia affects sex differentiation and development, leading to a male-dominated population in zebrafish (Danio rerio). , 2006, Environmental science & technology.

[19]  A. Konoplev,et al.  Mercury in the Arctic atmosphere: an analysis of eight years of measurements of GEM at Alert (Canada) and a comparison with observations at Amderma (Russia) and Kuujjuarapik (Canada). , 2005, The Science of the total environment.

[20]  Martijn Gough Climate change , 2009, Canadian Medical Association Journal.

[21]  Stephan Gollasch,et al.  Invasive Aquatic Species of Europe. Distribution, Impacts and Management , 2002, Springer Netherlands.

[22]  Dianne Dumanoski,et al.  Our stolen future: are we threatening our fertility, intelligence, and survival? : a scientific detective story , 1998 .

[23]  Thomas E McKone,et al.  Assessing the influence of climate variability on atmospheric concentrations of polychlorinated biphenyls using a global-scale mass balance model (BETR-global). , 2005, Environmental science & technology.

[24]  H. Meier Regional ocean climate simulations with a 3D ice-ocean model for the Baltic Sea. Part 1: model experiments and results for temperature and salinity , 2002 .

[25]  Y. F. Li,et al.  Contaminants in the Canadian Arctic: 5 years of progress in understanding sources, occurrence and pathways. , 2000, The Science of the total environment.

[26]  S. Wise,et al.  Determination of HBCD, PBDEs and MeO-BDEs in California sea lions (Zalophus californianus) stranded between 1993 and 2003. , 2006, Marine pollution bulletin.

[27]  John S. Gray,et al.  Effects of hypoxia and organic enrichment on the coastal marine environment , 2002 .

[28]  Anders Bignert,et al.  Temporal trends of PFOS and PFOA in guillemot eggs from the Baltic Sea, 1968--2003. , 2005, Environmental science & technology.

[29]  C. Humborg,et al.  Second Assessment of Climate Change for the Baltic Sea Basin , 2008 .

[30]  B. MacKenzie,et al.  Long-term sea surface temperature baselines—time series, spatial covariation and implications for biological processes , 2007 .

[31]  P. Coles,et al.  Flying raft caught on red tape , 1989, Nature.

[32]  Enmin Zou,et al.  Acute exposure to naphthalene reduces oxyregulating capacity of the brown shrimp, Penaeus aztecus, subjected to progressive hypoxia , 2006 .

[33]  R. Eugene Turner,et al.  Coastal Hypoxia: consequences for living resources and ecosystems , 2001 .

[34]  B. MacKenzie,et al.  Impact of 21st century climate change on the Baltic Sea fish community and fisheries , 2007 .

[35]  R. Wu,et al.  Eutrophication, Water Borne Pathogens and Xenobiotic Compounds: Environmental Risks and Challenges , 1999 .

[36]  R. Harrison An introduction to pollution science , 2006 .

[37]  I. Sokolova,et al.  Effects of acclimation temperature and cadmium exposure on cellular energy budgets in the marine mollusk Crassostrea virginica: linking cellular and mitochondrial responses , 2006, Journal of Experimental Biology.

[38]  Rainer Knust,et al.  Climate Change Affects Marine Fishes Through the Oxygen Limitation of Thermal Tolerance , 2007, Science.

[39]  H. Meier Baltic Sea climate in the late twenty-first century: a dynamical downscaling approach using two global models and two emission scenarios , 2006 .

[40]  M. Verlaque,et al.  Biological pollution in the Mediterranean Sea: invasive versus introduced macrophytes. , 2002, Marine pollution bulletin.

[41]  R. Macdonald,et al.  Diagenetic separation of cadmium and manganese in suboxic continental margin sediments , 1997 .

[42]  Pnuma,et al.  State of the marine environment , 1991 .

[43]  Vincent R. Gray Climate Change 2007: The Physical Science Basis Summary for Policymakers , 2007 .

[44]  R. Rosenberg,et al.  Temporal and spatial large-scale effects of eutrophication and oxygen deficiency on benthic fauna in Scandinavian and Baltic waters - A review , 2002 .

[45]  D. McLusky,et al.  The effects of temperature and salinity on the toxicity of heavy metals to marine and estuarine invertebrates , 1986 .

[46]  Other,et al.  Environment of the Baltic Sea area: 1994-1998 , 2002 .

[47]  S. Luoma,et al.  Uptake and loss kinetics of Cd, Cr and Zn in the bivalves Potamocorbula amurensis and Macoma balthica: effects of size and salinity , 1998 .

[48]  R. Aller,et al.  The sedimentary Mn cycle in Long Island Sound: Its role as intermediate oxidant and the influence of bioturbation, O 2 , and C org flux on diagenetic reaction balances , 1994 .

[49]  C. Symon,et al.  Arctic climate impact assessment , 2005 .

[50]  G. Somero Linking biogeography to physiology: Evolutionary and acclimatory adjustments of thermal limits , 2005, Frontiers in Zoology.

[51]  D. Mackay,et al.  Mass balance for mercury in the San Francisco Bay area. , 2005, Environmental science & technology.

[52]  D. Schiedek,et al.  Monitoring biological effects of pollution in the Baltic Sea: neglected--but still wanted? , 2006, Marine pollution bulletin.

[53]  Jonathan H. Grabowski,et al.  Variation in marine benthic community composition allows discrimination of multiple stressors , 2003 .

[54]  Makiko Sato,et al.  Climate change and trace gases , 2007, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[55]  H. Dahlgaard Transfer of European coastal pollution to the arctic: Radioactive tracers , 1995 .

[56]  Susan L. Williams,et al.  Erratum: The impacts of climate change in coastal marine systems (Ecology Letters (2006) 9 (228-241)) , 2006 .

[57]  E. Goldberg Emerging problems in the coastal zone for the twenty-first century , 1995 .

[58]  B. Sundelin,et al.  Impaired reproduction in the amphipods Monoporeia affinis and Pontoporeia femorata as a result of moderate hypoxia and increased temperature , 2001 .

[59]  R. Macdonald,et al.  Contaminant amplification in the environment. , 2002, Environmental science & technology.

[60]  P. Hodson,et al.  Influence of salinity and fish species on PAH uptake from dispersed crude oil. , 2006, Marine pollution bulletin.

[61]  U. Willén,et al.  European climate in the late twenty-first century: regional simulations with two driving global models and two forcing scenarios , 2004 .

[62]  P. Davies,et al.  Temperature-dependent physiological response of Carcinus maenas exposed to copper. , 2004, Marine environmental research.

[63]  E. Nielsen,et al.  The Danish fish fauna during the warm Atlantic period (ca. 7000-3900 bc): Forerunner of future changes? , 2007 .

[64]  John F. B. Mitchell,et al.  Causes of twentieth-century temperature change near the Earth's surface , 1999, Nature.

[65]  R. Macdonald,et al.  Killer whales (Orcinus orca) face protracted health risks associated with lifetime exposure to PCBs. , 2007, Environmental science & technology.

[66]  R. Burgess,et al.  Phototoxicity of individual polycyclic aromatic hydrocarbons and petroleum to marine invertebrate larvae and juveniles , 1997 .

[67]  R. Macdonald,et al.  Biologically mediated transport of contaminants to aquatic systems. , 2007, Environmental science & technology.

[68]  D. Wright Trace metal and major ion interactions in aquatic animals , 1995 .

[69]  H. Hung,et al.  How do climate fluctuations affect persistent organic pollutant distribution in North America? Evidence from a decade of air monitoring. , 2004, Environmental science & technology.

[70]  H. Hummel,et al.  Macoma balthica in Spain, a few decades back in climate history , 2007 .

[71]  Biomarker sensitivity to temperature and hypoxia—a seven year field study , 2004 .

[72]  F. Wania,et al.  A Multicompartmental, Multi-Basin Fugacity Model Describing the Fate of PCBs in the Baltic Sea , 2001 .

[73]  C. D. de Wit An overview of brominated flame retardants in the environment. , 2002, Chemosphere.

[74]  J. Widdows,et al.  Impact of biotic and abiotic processes on sediment dynamics and the consequences to the structure and functioning of the intertidal zone , 2002 .

[75]  R. Macdonald,et al.  Peer Reviewed: Contaminant Amplification in the Environment , 2002 .

[76]  Richard E Peterson,et al.  Interactions between 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and hypoxia signaling pathways in zebrafish: hypoxia decreases responses to TCDD in zebrafish embryos. , 2004, Toxicological sciences : an official journal of the Society of Toxicology.

[77]  J. Stull,et al.  Effects of Listriolobus pelodes (Echiura) on coastal shelf benthic communities and sediments modified by a major California wastewater discharge , 1986 .

[78]  G. Bachelet,et al.  The respiratory performance and survival of the bivalve Macoma balthica (L.) at the southern limit of its distribution area: a translocation experiment. , 2000, Journal of experimental marine biology and ecology.

[79]  W. Steffen The Anthropocene, global change and sleeping giants: where on Earth are we going? , 2006, Carbon Balance and Management.

[80]  A. Occhipinti‐Ambrogi Global change and marine communities: alien species and climate change. , 2007, Marine pollution bulletin.

[81]  C. Heip,et al.  Bioturbation: a fresh look at Darwin's last idea. , 2006, Trends in ecology & evolution.

[82]  B. MacKenzie,et al.  Daily ocean monitoring since the 1860s shows record warming of northern European seas , 2007 .

[83]  N. Woo,et al.  Aquatic Hypoxia Is an Endocrine Disruptor and Impairs Fish Reproduction , 2003 .

[84]  B. Worm,et al.  Rapid worldwide depletion of predatory fish communities , 2003, Nature.

[85]  R. Warrick,et al.  Climate change scenarios for the UK , 1991 .

[86]  E. Stadtman,et al.  Determination of carbonyl content in oxidatively modified proteins. , 1990, Methods in enzymology.

[87]  M. Riddle,et al.  Marine introductions in the Southern Ocean: an unrecognised hazard to biodiversity. , 2003, Marine pollution bulletin.

[88]  A. Köhler,et al.  The BEEP project in the Baltic Sea: overview of results and outline for a regional biological effects monitoring strategy. , 2006, Marine pollution bulletin.

[89]  E. Bonsdorff Zoobenthic diversity-gradients in the Baltic Sea: Continuous post-glacial succession in a stressed ecosystem , 2006 .

[90]  L. Hall,et al.  The influence of salinity on the toxicity of various classes of chemicals to aquatic biota. , 1995, Critical reviews in toxicology.

[91]  I. Sokolova,et al.  Temperature-dependent effects of cadmium on mitochondrial and whole-organism bioenergetics of oysters (Crassostrea virginica). , 2006, Marine environmental research.

[92]  J. Widdows,et al.  Influence of cockle Cerastoderma edule bioturbation and tidal-current cycles on resuspension of sediment and polycyclic aromatic hydrocarbons , 2006 .

[93]  C. Kennedy,et al.  Global Warming: Effects of temperature on xenobiotic metabolism , 1997 .

[94]  S. Jensen,et al.  Temporal trends of organochlorines in Northern Europe, 1967-1995. Relation to global fractionation, leakage from sediments and international measures. , 1998, Environmental pollution.

[95]  D. Schiedek,et al.  The lugwormArenicola marina: A model of physiological adaptation to life in intertidal sediments , 1996, Helgoländer Meeresuntersuchungen.

[96]  H. Pörtner,et al.  Climate change and temperature-dependent biogeography: oxygen limitation of thermal tolerance in animals , 2001, Naturwissenschaften.

[97]  B. Lyons,et al.  Phototoxicity of pyrene and benzo[a]pyrene to embryo-larval stages of the Pacific oyster Crassostrea gigas. , 2002, Marine environmental research.

[98]  P. Jonsson Sediment Burial of PCBs in the Offshore Baltic Sea , 2000 .

[99]  G. Hegerl,et al.  Detection of human influence on twentieth-century precipitation trends , 2007, Nature.

[100]  B. Sundelin,et al.  Combined effects of temperature and a pesticide on the Baltic amphipod Monoporeia affinis , 2008 .

[101]  Yi-Fan Li,et al.  How Will Global Climate Change Affect Risks from Long-Range Transport of Persistent Organic Pollutants? , 2003 .

[102]  Simone Pfeifer,et al.  Effect of temperature and salinity on acetylcholinesterase activity, a common pollution biomarker, in Mytilus sp. from the south-western Baltic Sea , 2005 .

[103]  L. Levin Oxygen minimum zone Benthos: Adaptation and community response to hypoxia , 2003 .

[104]  K. Wan,et al.  Tolerance to, and avoidance of, hypoxia by the penaeid shrimp (Metapenaeus ensis). , 2002, Environmental pollution.

[105]  Nobuyoshi Yamashita,et al.  A global survey of perfluorinated acids in oceans. , 2005, Marine pollution bulletin.

[106]  F. Gagné,et al.  Implication of site quality on mitochondrial electron transport activity and its interaction with temperature in feral Mya arenaria clams from the Saguenay Fjord. , 2007, Environmental research.

[107]  D. Demaster,et al.  Observations and Predictions of Arctic Climatic Change: Potential Effects on Marine Mammals , 1997 .

[108]  D. Goolsby Mississippi Basin nitrogen flux believed to cause Gulf hypoxia , 2000 .

[109]  R. Macdonald,et al.  Recent climate change in the Arctic and its impact on contaminant pathways and interpretation of temporal trend data. , 2005, The Science of the total environment.

[110]  J. Ripley,et al.  Influence of estuarine hypoxia on feeding and sound production by two sympatric pipefish species (Syngnathidae). , 2007, Marine environmental research.

[111]  J. Reynolds,et al.  Climate Change and Distribution Shifts in Marine Fishes , 2005, Science.

[112]  B. Santer,et al.  Penetration of Human-Induced Warming into the World's Oceans , 2005, Science.

[113]  R. Wagemann,et al.  Concentrations of mercury in tissues of beluga whales (Delphinapterus leucas) from several communities in the Canadian Arctic from 1981 to 2002. , 2005, The Science of the total environment.

[114]  Richard J. Williams,et al.  Impacts of climate change on the fate and behaviour of pesticides in surface and groundwater--A UK perspective. , 2006, The Science of the total environment.