Impacts of a recent storm surge on an Arctic delta ecosystem examined in the context of the last millennium

One of the most ominous predictions related to recent climatic warming is that low-lying coastal environments will be inundated by higher sea levels. The threat is especially acute in polar regions because reductions in extent and duration of sea ice cover increase the risk of storm surge occurrence. The Mackenzie Delta of northwest Canada is an ecologically significant ecosystem adapted to freshwater flooding during spring breakup. Marine storm surges during the open-water season, which move saltwater into the delta, can have major impacts on terrestrial and aquatic systems. We examined growth rings of alder shrubs (Alnus viridis subsp. fruticosa) and diatoms preserved in dated lake sediment cores to show that a recent marine storm surge in 1999 caused widespread ecological changes across a broad extent of the outer Mackenzie Delta. For example, diatom assemblages record a striking shift from freshwater to brackish species following the inundation event. What is of particular significance is that the magnitude of this recent ecological impact is unmatched over the > 1,000-year history of this lake ecosystem. We infer that no biological recovery has occurred in this lake, while large areas of terrestrial vegetation remain dramatically altered over a decade later, suggesting that these systems may be on a new ecological trajectory. As climate continues to warm and sea ice declines, similar changes will likely be repeated in other coastal areas of the circumpolar Arctic. Given the magnitude of ecological changes recorded in this study, such impacts may prove to be long lasting or possibly irreversible.

[1]  J. Harper,et al.  Maximum Storm Surge Elevations in the Tuktoyaktuk Region of the Canadian Beaufort Sea , 1988 .

[2]  Ingemar Renberg,et al.  A 12600 Year Perspective of the Acidification of Lilla Oresjon, Southwest Sweden , 1990 .

[3]  John Shaw,et al.  POTENTIAL IMPACTS OF GLOBAL SEA‐LEVEL RISE ON CANADIAN COASTS , 1998 .

[4]  R. Pienitz,et al.  Diatoms as quantitative paleodepth indicators in coastal areas of the southeastern Beaufort Sea, Arctic Ocean , 1999 .

[5]  John P. Smol,et al.  The diatoms: applications for the environmental and earth sciences , 2012 .

[6]  J. Smol,et al.  Diatom Changes in Lake Sediments from the Mackenzie Delta, N.W.T., Canada: Paleohydrological Applications , 2001 .

[7]  D. McNeil The Diatoms: Applications for the Environmental and Earth Sciences , 2001 .

[8]  John P. Smol,et al.  Tracking Environmental Change Using Lake Sediments: Data Handling and Numerical Techniques , 2001 .

[9]  Igor Krupnik,et al.  The Earth Is Faster Now: Indigenous Observations of Arctic Environmental Change. Frontiers in Polar Social Science. , 2002 .

[10]  J. Smol,et al.  Long-term environmental change in Arctic and Antarctic lakes , 2004 .

[11]  K. Hasselmann,et al.  Arctic climate change: observed and modelled temperature and sea-ice variability , 2004 .

[12]  J. Smol,et al.  Tracking Environmental Change Using Lake Sediments: Data Handling and Numerical Techniques , 2001 .

[13]  K. Hasselmann,et al.  Arctic climate change – observed and modeled temperature and sea ice , 2004 .

[14]  S. Solomon,et al.  Spatial and temporal variability of shoreline change in the Beaufort-Mackenzie region, northwest territories, Canada , 2005 .

[15]  David E. Atkinson,et al.  Observed storminess patterns and trends in the circum-Arctic coastal regime , 2005 .

[16]  Atte Korhola,et al.  Climate-driven regime shifts in the biological communities of arctic lakes. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[17]  Steven V. Kokelj,et al.  The influence of thermokarst disturbance on the water quality of small upland lakes, Mackenzie Delta region, Northwest Territories, Canada , 2005 .

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

[19]  B. Rivard,et al.  Recent primary production increases in arctic lakes , 2005 .

[20]  S. Solomon,et al.  Past and future forcing of Beaufort Sea coastal change , 2007 .

[21]  J. Smol,et al.  From controversy to consensus: making the case for recent climate change in the Arctic using lake sediments , 2007 .

[22]  Marika M. Holland,et al.  Perspectives on the Arctic's Shrinking Sea-Ice Cover , 2007, Science.

[23]  Josefino C. Comiso,et al.  Accelerated decline in the Arctic sea ice cover , 2008 .

[24]  Steven V. Kokelj,et al.  The environment and permafrost of the Mackenzie Delta area , 2009 .

[25]  J. Johnstone,et al.  Environmental Conditions and Vegetation Recovery at Abandoned Drilling Mud Sumps in the Mackenzie Delta Region, Northwest Territories, Canada , 2009 .

[26]  S. Ballent Pollution of lakes and rivers. A paleoenvironmental perspective , 2009 .

[27]  C. Burn,et al.  Near‐surface ground‐ice distribution, Kendall Island Bird Sanctuary, western Arctic coast, Canada , 2009 .

[28]  K. Keay,et al.  Extraordinary September Arctic sea ice reductions and their relationships with storm behavior over 1979–2008 , 2009 .

[29]  J. Speer Fundamentals of Tree Ring Research , 2010 .

[30]  A. Cazenave,et al.  Sea-Level Rise and Its Impact on Coastal Zones , 2010, Science.

[31]  J. Jaagus,et al.  Changes in the activity and tracks of Arctic cyclones , 2011 .

[32]  J. Reed J. P. Smol and E. F. Stoermer (eds): The diatoms: applications for the environmental and earth sciences , 2011 .

[33]  Corinne Le Quéré,et al.  Climate Change 2013: The Physical Science Basis , 2013 .