Transitions in Arctic ecosystems: Ecological implications of a changing hydrological regime

Numerous international scientific assessments and related articles have, during the last decade, described the observed and potential impacts of climate change as well as other related environmental stressors on Arctic ecosystems. There is increasing recognition that observed and projected changes in freshwater sources, fluxes, and storage will have profound implications for the physical, biogeochemical, biological, and ecological processes and properties of Arctic terrestrial and freshwater ecosystems. However, a significant level of uncertainty remains in relation to forecasting the impacts of an intensified hydrological regime and related cryospheric change on ecosystem structure and function. As the terrestrial and freshwater ecology component of the Arctic Freshwater Synthesis, we review these uncertainties and recommend enhanced coordinated circumpolar research and monitoring efforts to improve quantification and prediction of how an altered hydrological regime influences local, regional, and circumpolar‐level responses in terrestrial and freshwater systems. Specifically, we evaluate (i) changes in ecosystem productivity; (ii) alterations in ecosystem‐level biogeochemical cycling and chemical transport; (iii) altered landscapes, successional trajectories, and creation of new habitats; (iv) altered seasonality and phenological mismatches; and (v) gains or losses of species and associated trophic interactions. We emphasize the need for developing a process‐based understanding of interecosystem interactions, along with improved predictive models. We recommend enhanced use of the catchment scale as an integrated unit of study, thereby more explicitly considering the physical, chemical, and ecological processes and fluxes across a full freshwater continuum in a geographic region and spatial range of hydroecological units (e.g., stream‐pond‐lake‐river‐near shore marine environments).

[1]  Oar,et al.  Climate Change Effects , 2016 .

[2]  Thomas W. N. Haine,et al.  Freshwater and its role in the Arctic Marine System: Sources, disposition, storage, export, and physical and biogeochemical consequences in the Arctic and global oceans , 2016 .

[3]  L. Hinzman,et al.  Arctic terrestrial hydrology: A synthesis of processes, regional effects, and research challenges , 2016 .

[4]  K. Sand,et al.  Changes to freshwater systems affecting Arctic infrastructure and natural resources , 2016 .

[5]  Terry D. Prowse,et al.  The atmospheric role in the Arctic water cycle: A review on processes, past and future changes, and their impacts , 2016 .

[6]  M. Holland,et al.  Modeling the Arctic freshwater system and its integration in the global system: Lessons learned and future challenges , 2016 .

[7]  K. Christie,et al.  Novel wildlife in the Arctic: the influence of changing riparian ecosystems and shrub habitat expansion on snowshoe hares , 2016, Global change biology.

[8]  Isabelle Laurion,et al.  Reviews and syntheses: Effects of permafrost thaw on Arctic aquatic ecosystems , 2015 .

[9]  C. Nilsson,et al.  Extreme events in streams and rivers in arctic and subarctic regions in an uncertain future , 2015 .

[10]  Anne D. Bjorkman,et al.  Contrasting effects of warming and increased snowfall on Arctic tundra plant phenology over the past two decades , 2015, Global change biology.

[11]  Terry D. Prowse,et al.  Arctic Freshwater Synthesis: Introduction , 2015 .

[12]  E. Carmack,et al.  Arctic Freshwater Synthesis: Summary of key emerging issues , 2015 .

[13]  G. Destouni,et al.  Hydro-climatic and lake change patterns in Arctic permafrost and non-permafrost areas , 2015 .

[14]  S. MacIntyre,et al.  Oxygen dynamics in permafrost thaw lakes: Anaerobic bioreactors in the Canadian subarctic , 2015 .

[15]  E. Lévesque,et al.  Thermo-erosion gullies boost the transition from wet to mesic tundra vegetation , 2015 .

[16]  Colin J. Brislawn,et al.  Changes in microbial communities along redox gradients in polygonized Arctic wet tundra soils. , 2015, Environmental microbiology reports.

[17]  R. Holmes,et al.  Utilization of ancient permafrost carbon in headwaters of Arctic fluvial networks , 2015, Nature Communications.

[18]  Niels Martin Schmidt,et al.  Climate sensitivity of shrub growth across the tundra biome , 2015 .

[19]  R. Fensholt,et al.  Evaluating temporal consistency of long-term global NDVI datasets for trend analysis , 2015 .

[20]  I. Laurion,et al.  High Methylmercury in Arctic and Subarctic Ponds is Related to Nutrient Levels in the Warming Eastern Canadian Arctic. , 2015, Environmental science & technology.

[21]  Robert H. Fraser,et al.  Increased precipitation drives mega slump development and destabilization of ice-rich permafrost terrain, northwestern Canada , 2015 .

[22]  C. Lovejoy,et al.  Bacterial community structure across environmental gradients in permafrost thaw ponds: methanotroph-rich ecosystems , 2015, Front. Microbiol..

[23]  W. Vincent,et al.  Rapid disappearance of perennial ice on Canada's most northern lake , 2015 .

[24]  C. Andresen,et al.  Disappearing Arctic tundra ponds: Fine‐scale analysis of surface hydrology in drained thaw lake basins over a 65 year period (1948–2013) , 2015 .

[25]  M. Mauritz,et al.  Permafrost thaw and soil moisture driving CO2 and CH4 release from upland tundra , 2015 .

[26]  E. Nielsen,et al.  Arctic warming will promote Atlantic–Pacific fish interchange , 2015 .

[27]  B. Lindahl,et al.  Ectomycorrhizal fungi - potential organic matter decomposers, yet not saprotrophs. , 2015, The New phytologist.

[28]  Ian M. Howat,et al.  Supraglacial lakes on the Greenland ice sheet advance inland under warming climate , 2015 .

[29]  Trofim C. Maximov,et al.  Permafrost collapse after shrub removal shifts tundra ecosystem to a methane source , 2015 .

[30]  E. Lévesque,et al.  Thermo-erosion gullies boost the transition from wet to mesic vegetation , 2015 .

[31]  S. Oberbauer,et al.  Experiment, monitoring, and gradient methods used to infer climate change effects on plant communities yield consistent patterns , 2014, Proceedings of the National Academy of Sciences.

[32]  T. Prowse,et al.  Responses of Benthic Invertebrate Communities to Shoreline Retrogressive Thaw Slumps in Arctic Upland Lakes , 2014, Freshwater Science.

[33]  George W. Kling,et al.  Sunlight controls water column processing of carbon in arctic fresh waters , 2014, Science.

[34]  A. Baattrup‐Pedersen,et al.  Effects of warming on annual production and nutrient-use efficiency of aquatic mosses in a high Arctic lake , 2014 .

[35]  Chandana Gangodagamage,et al.  Extrapolating active layer thickness measurements across Arctic polygonal terrain using LiDAR and NDVI data sets , 2014, Water resources research.

[36]  S. Goetz,et al.  Vegetation productivity patterns at high northern latitudes: a multi-sensor satellite data assessment , 2014, Global change biology.

[37]  R. Fraser,et al.  Warming-Induced Shrub Expansion and Lichen Decline in the Western Canadian Arctic , 2014, Ecosystems.

[38]  M. Mack,et al.  Effects of thermo-erosional disturbance on surface soil carbon and nitrogen dynamics in upland arctic tundra , 2014 .

[39]  M. Mack,et al.  Effects of arctic shrub expansion on biophysical vs. biogeochemical drivers of litter decomposition. , 2014, Ecology.

[40]  Norman D. Yan,et al.  Forests fuel fish growth in freshwater deltas , 2014, Nature Communications.

[41]  Marco Luna-Guido,et al.  Methanogenesis and Methanotrophy in Soil: A Review , 2014 .

[42]  Gregory M. Ruiz,et al.  Arctic shipping and marine invaders , 2014 .

[43]  T. Christensen Climate science: Understand Arctic methane variability , 2014, Nature.

[44]  R. Reichle,et al.  Spring hydrology determines summer net carbon uptake in northern ecosystems , 2014 .

[45]  Malak M Tfaily,et al.  Changes in peat chemistry associated with permafrost thaw increase greenhouse gas production , 2014, Proceedings of the National Academy of Sciences.

[46]  S. Lamoureux,et al.  Seasonal fluxes and age of particulate organic carbon exported from Arctic catchments impacted by localized permafrost slope disturbances , 2014 .

[47]  G. Kling,et al.  Alaska's changing arctic : ecological consequences for tundra, streams, and lakes , 2014 .

[48]  David Bastviken,et al.  Methane fluxes show consistent temperature dependence across microbial to ecosystem scales , 2014, Nature.

[49]  Christiane Schmullius,et al.  Pan-Arctic Climate and Land Cover Trends Derived from Multi-Variate and Multi-Scale Analyses (1981-2012) , 2014, Remote. Sens..

[50]  S. Aris-Brosou,et al.  Microbial Community Structure in Lake and Wetland Sediments from a High Arctic Polar Desert Revealed by Targeted Transcriptomics , 2014, PloS one.

[51]  A. Persson,et al.  Influence of the permafrost boundary on dissolved organic matter characteristics in rivers within the Boreal and Taiga plains of western Canada , 2014 .

[52]  G. Gauthier,et al.  Effects of experimental warming on nitrogen concentration and biomass of forage plants for an arctic herbivore , 2014 .

[53]  P. Grogan,et al.  Topography as a key factor driving atmospheric nitrogen exchanges in arctic terrestrial ecosystems , 2014 .

[54]  L. Chasmer,et al.  Forests on thawing permafrost: fragmentation, edge effects, and net forest loss , 2014, Global change biology.

[55]  S. Natali,et al.  Permafrost degradation stimulates carbon loss from experimentally warmed tundra. , 2014, Ecology.

[56]  Lars J. Tranvik,et al.  Browning of Boreal Freshwaters Coupled to Carbon-Iron Interactions along the Aquatic Continuum , 2014, PloS one.

[57]  I. Laurion,et al.  Subarctic Thermokarst Ponds: Investigating Recent Landscape Evolution and Sediment Dynamics in Thawed Permafrost of Northern Québec (Canada) , 2014 .

[58]  Johanna Mård Karlsson,et al.  Temporal Behavior of Lake Size-Distribution in a Thawing Permafrost Landscape in Northwestern Siberia , 2014, Remote. Sens..

[59]  D. Walker,et al.  Regional and landscape-scale variability of Landsat-observed vegetation dynamics in northwest Siberian tundra , 2014 .

[60]  Georgia Destouni,et al.  Arctic Climate and Water Change: Model and Observation Relevance for Assessment and Adaptation , 2014, Surveys in Geophysics.

[61]  Dmitry A. Streletskiy,et al.  Isotropic thaw subsidence in undisturbed permafrost landscapes , 2013 .

[62]  R. Hall,et al.  Vulnerability of shallow subarctic lakes to evaporate and desiccate when snowmelt runoff is low , 2013 .

[63]  Georgia Destouni,et al.  Strategic environmental assessment and monitoring: Arctic key gaps and bridging pathways , 2013 .

[64]  J. Culp,et al.  Responses of Low Arctic Stream Benthic Macroinvertebrate Communities to Environmental Drivers at Nested Spatial Scales , 2013 .

[65]  M. Dumond,et al.  Invasion, establishment, and range expansion of two parasitic nematodes in the Canadian Arctic , 2013, Global change biology.

[66]  Steve W. Lyon,et al.  Subsurface release and transport of dissolved carbon in a discontinuous permafrost region , 2013 .

[67]  Eric Post,et al.  Advancing plant phenology and reduced herbivore production in a terrestrial system associated with sea ice decline , 2013, Nature Communications.

[68]  I. Myers-Smith,et al.  Shrub canopies influence soil temperatures but not nutrient dynamics: An experimental test of tundra snow–shrub interactions , 2013, Ecology and evolution.

[69]  Ö. Gustafsson,et al.  Permafrost-carbon complexities , 2013 .

[70]  M. Hayashi,et al.  Geophysical imaging and thermal modeling of subsurface morphology and thaw evolution of discontinuous permafrost , 2013 .

[71]  Yuri Shur,et al.  Reorganization of vegetation, hydrology and soil carbon after permafrost degradation across heterogeneous boreal landscapes , 2013 .

[72]  J. Welker,et al.  Phenological response of tundra plants to background climate variation tested using the International Tundra Experiment , 2013, Philosophical Transactions of the Royal Society B: Biological Sciences.

[73]  G. Gauthier,et al.  Long-term monitoring at multiple trophic levels suggests heterogeneity in responses to climate change in the Canadian Arctic tundra , 2013, Philosophical Transactions of the Royal Society B: Biological Sciences.

[74]  E. Post,et al.  Capital and income breeding traits differentiate trophic match–mismatch dynamics in large herbivores , 2013, Philosophical Transactions of the Royal Society B: Biological Sciences.

[75]  Zhiheng Wang,et al.  Differential mobilization of terrestrial carbon pools in Eurasian Arctic river basins , 2013, Proceedings of the National Academy of Sciences.

[76]  Christopher B. Field,et al.  Changes in Ecologically Critical Terrestrial Climate Conditions , 2013, Science.

[77]  S. Finnegan,et al.  Climate Change and the Past, Present, and Future of Biotic Interactions , 2013, Science.

[78]  Claude R. Duguay,et al.  Response of ice cover on shallow lakes of the North Slope of Alaska to contemporary climate conditions (1950–2011): radar remote-sensing and numerical modeling data analysis , 2013 .

[79]  Steven J. Phillips,et al.  Shifts in Arctic vegetation and associated feedbacks under climate change , 2013 .

[80]  Ian D. Clark,et al.  Thawing of massive ground ice in mega slumps drives increases in stream sediment and solute flux across a range of watershed scales , 2013 .

[81]  Ranga B. Myneni,et al.  Temperature and vegetation seasonality diminishment over northern lands , 2013 .

[82]  Joshua P. Schimel,et al.  Long-term warming restructures Arctic tundra without changing net soil carbon storage , 2013, Nature.

[83]  P. Clausen,et al.  Earlier Arctic springs cause phenological mismatch in long-distance migrants , 2013, Oecologia.

[84]  D. Walker,et al.  Patterned-ground facilitates shrub expansion in Low Arctic tundra , 2013 .

[85]  Laurence C. Smith,et al.  New Trans-Arctic shipping routes navigable by midcentury , 2013, Proceedings of the National Academy of Sciences.

[86]  Craig E. Tweedie,et al.  Spatial and Temporal Variation in Primary Productivity (NDVI) of Coastal Alaskan Tundra: Decreased Vegetation Growth Following Earlier Snowmelt , 2013 .

[87]  F. Stuart Chapin,et al.  Fire Severity Filters Regeneration Traits to Shape Community Assembly in Alaska’s Boreal Forest , 2013, PloS one.

[88]  J. Smol,et al.  Biological responses to permafrost thaw slumping in Canadian Arctic lakes , 2013 .

[89]  Edward A G Schuur,et al.  Thawing permafrost increases old soil and autotrophic respiration in tundra: Partitioning ecosystem respiration using δ13C and ∆14C , 2013, Global change biology.

[90]  P. Crill,et al.  Environmental and physical controls on northern terrestrial methane emissions across permafrost zones , 2013, Global change biology.

[91]  Stanford B. Hooker,et al.  Pan-Arctic distributions of continental runoff in the Arctic Ocean , 2013, Scientific Reports.

[92]  R. Holmes,et al.  Summer CO2 evasion from streams and rivers in the Kolyma River basin, north-east Siberia , 2013 .

[93]  N. Matveyeva,et al.  Arctic Terrestrial Ecosystems , 2013 .

[94]  P. Legendre,et al.  Potential changes in forest composition could reduce impacts of climate change on boreal wildfires. , 2013, Ecological applications : a publication of the Ecological Society of America.

[95]  Tom Barry,et al.  Arctic biodiversity assessment : status and trends in arctic biodiversity , 2013 .

[96]  S. Godsey,et al.  An Integrated Assessment of the Influences of Upland Thermal-Erosional Features on Landscape Structure and Function in the Foothills of the Brooks Range , Alaska , 2013 .

[97]  Scott L. Painter,et al.  Permafrost degradation and subsurface-flow changes caused by surface warming trends , 2013, Hydrogeology Journal.

[98]  W. Quinton,et al.  The active-layer hydrology of a peat plateau with thawing permafrost (Scotty Creek, Canada) , 2013, Hydrogeology Journal.

[99]  C. Goldman,et al.  Climatic Change and Global Warming of Inland Waters : Impacts and Mitigation for Ecosystems and Societies , 2012 .

[100]  T. Prowse,et al.  Shifts in Plankton, Nutrient and Light Relationships in Small Tundra Lakes Caused by Localized Permafrost Thaw , 2012 .

[101]  John S. Kimball,et al.  Satellite Microwave remote sensing of contrasting surface water inundation changes within the Arctic-Boreal Region , 2012 .

[102]  G. Fiske,et al.  A land‐to‐ocean perspective on the magnitude, source and implication of DIC flux from major Arctic rivers to the Arctic Ocean , 2012 .

[103]  P. Raymond,et al.  Landscape‐level controls on dissolved carbon flux from diverse catchments of the circumboreal , 2012 .

[104]  S. Larsen,et al.  Recent Climate‐Induced Changes in Freshwaters in Denmark , 2012 .

[105]  Robert H. Fraser,et al.  Modelling and mapping climate change impacts on permafrost at high spatial resolution for an Arctic region with complex terrain , 2012 .

[106]  Ö. Gustafsson,et al.  Soil organic matter transport along an sub-Arctic river–sea transect , 2012 .

[107]  Johanna Mård Karlsson,et al.  Thermokarst lake, hydrological flow and water balance indicators of permafrost change in Western Siberia , 2012 .

[108]  D. Muir,et al.  Perfluorinated Chemicals in Meromictic Lakes on the Northern Coast of Ellesmere Island, High Arctic Canada + Online Appendix 1 (See Article Tools) , 2012 .

[109]  Á. Borja,et al.  A comparative review of recovery processes in rivers, lakes, estuarine and coastal waters , 2013, Hydrobiologia.

[110]  M. Power,et al.  Developing a circumpolar monitoring framework for Arctic freshwater biodiversity , 2012 .

[111]  Kristopher D. Johnson,et al.  Field information links permafrost carbon to physical vulnerabilities of thawing , 2012 .

[112]  J. Canadell,et al.  The Northern Circumpolar Soil Carbon Database: spatially distributed datasets of soil coverage and soil carbon storage in the northern permafrost regions , 2012 .

[113]  Marc Macias-Fauria,et al.  Eurasian Arctic greening reveals teleconnections and the potential for structurally novel ecosystems , 2012 .

[114]  J. Bêty,et al.  Timing of breeding, peak food availability, and effects of mismatch on chick growth in birds nesting in the High Arctic , 2012 .

[115]  Peter Kuhry,et al.  Mapping the degree of decomposition and thaw remobilization potential of soil organic matter in discontinuous permafrost terrain , 2012 .

[116]  Julia Boike,et al.  Small ponds with major impact: The relevance of ponds and lakes in permafrost landscapes to carbon dioxide emissions , 2012 .

[117]  Steven F. Oberbauer,et al.  Plot-scale evidence of tundra vegetation change and links to recent summer warming. , 2012 .

[118]  C. Nilsson,et al.  How biotic interactions may alter future predictions of species distributions: future threats to the persistence of the arctic fox in Fennoscandia , 2012 .

[119]  J. Welker,et al.  Landscape Heterogeneity of Shrub Expansion in Arctic Alaska , 2012, Ecosystems.

[120]  D. Berteaux,et al.  Arctic fox versus red fox in the warming Arctic: four decades of den surveys in north Yukon , 2012, Polar Biology.

[121]  Y. Dibike,et al.  Simulation of North American lake‐ice cover characteristics under contemporary and future climate conditions , 2012 .

[122]  N. Roulet,et al.  Effects of permafrost and hydrology on the composition and transport of dissolved organic carbon in a subarctic peatland complex , 2012 .

[123]  Susan M. Natali,et al.  Increased plant productivity in Alaskan tundra as a result of experimental warming of soil and permafrost , 2012 .

[124]  T. Prowse Lake and River Ice in Canada , 2012 .

[125]  C. Tucker,et al.  Dynamics of aboveground phytomass of the circumpolar Arctic tundra during the past three decades , 2012 .

[126]  D. Walker,et al.  Environment, vegetation and greenness (NDVI) along the North America and Eurasia Arctic transects , 2012 .

[127]  Simon Wilson,et al.  How does climate change influence Arctic mercury? , 2012, The Science of the total environment.

[128]  Rüdiger Gerdes,et al.  Enhanced poleward moisture transport and amplified northern high-latitude wetting trend , 2012 .

[129]  W. Vincent,et al.  Cyanobacteria in High Latitude Lakes, Rivers and Seas , 2012 .

[130]  G. Roderick,et al.  Long-distance dispersal: a framework for hypothesis testing. , 2012, Trends in Ecology & Evolution.

[131]  David L. Verbyla,et al.  Twentieth century erosion in Arctic Alaska foothills: The influence of shrubs, runoff, and permafrost , 2011 .

[132]  S. Goetz,et al.  Shrub expansion in tundra ecosystems: dynamics, impacts and research priorities , 2011, Environmental Research Letters.

[133]  M. Sharp,et al.  Ecological Implications of Changes in the Arctic Cryosphere , 2011, AMBIO.

[134]  Eric F. Wood,et al.  Multiple Effects of Changes in Arctic Snow Cover , 2011, AMBIO.

[135]  D. Cairns,et al.  Relationships between Arctic shrub dynamics and topographically derived hydrologic characteristics , 2011 .

[136]  Scott J. Goetz,et al.  Satellite observations of high northern latitude vegetation productivity changes between 1982 and 2008: ecological variability and regional differences , 2011 .

[137]  H. Tuomenvirta,et al.  Boreal and subarctic soils under climatic change , 2011 .

[138]  P. Kuhry,et al.  Warming‐induced destabilization of peat plateau/thermokarst lake complexes , 2011 .

[139]  I. Laurion,et al.  Shallow Freshwater Ecosystems of the Circumpolar Arctic , 2011 .

[140]  T. Callaghan,et al.  Impacts of multiple extreme winter warming events on sub‐Arctic heathland: phenology, reproduction, growth, and CO2 flux responses , 2011 .

[141]  David L. Verbyla,et al.  Carbon loss from an unprecedented Arctic tundra wildfire , 2011, Nature.

[142]  Örjan Gustafsson,et al.  Widespread release of old carbon across the Siberian Arctic echoed by its large rivers , 2011 .

[143]  Guido Grosse,et al.  Modern thermokarst lake dynamics in the continuous permafrost zone, northern Seward Peninsula, Alaska , 2011 .

[144]  H. Harvey,et al.  Bacterial hopanoids as tracers of organic carbon sources and processing across the western Arctic continental shelf , 2011 .

[145]  Shohei Watanabe,et al.  Optical diversity of thaw ponds in discontinuous permafrost: A model system for water color analysis , 2011 .

[146]  A. Dolman,et al.  Methane emissions from permafrost thaw lakes limited by lake drainage , 2011 .

[147]  Bruce C. Forbes,et al.  Land use and land cover change in Arctic Russia: ecological and social implications of industrial development. , 2011 .

[148]  A. Donnelly,et al.  A review of climate-driven mismatches between interdependent phenophases in terrestrial and aquatic ecosystems , 2011, International journal of biometeorology.

[149]  S. Goetz,et al.  Tundra vegetation effects on pan-Arctic albedo , 2011 .

[150]  Garry D. Peterson,et al.  Opportunities and limitations to detect climate-related regime shifts in inland Arctic ecosystems through eco-hydrological monitoring , 2011 .

[151]  G. Henry,et al.  Responses of High Arctic wet sedge tundra to climate warming since 1980 , 2011 .

[152]  C. Duguay,et al.  Changing lake and river ice regimes: trends, effects and implications , 2011 .

[153]  F. Steenhuisen AMAP Assessment 2011, Mercury in the Arctic , 2011 .

[154]  M. Herold,et al.  Monitoring, reporting and verification for national REDD + programmes: two proposals , 2011 .

[155]  Philip Marsh,et al.  River‐to‐lake connectivities, water renewal, and aquatic habitat diversity in the Mackenzie River Delta , 2010 .

[156]  R. Hollister,et al.  Decadal variations of active-layer thickness in moisture-controlled landscapes, Barrow, Alaska , 2010 .

[157]  G. Likens,et al.  Improved probability of detection of ecological “surprises” , 2010, Proceedings of the National Academy of Sciences.

[158]  T. Prowse,et al.  Effects of retrogressive permafrost thaw slumping on sediment chemistry and submerged macrophytes in Arctic tundra lakes , 2010 .

[159]  A. Mysterud,et al.  Experimental evidence for herbivore limitation of the treeline. , 2010, Ecology.

[160]  Ke Zhang,et al.  Analysis of the Arctic System for Freshwater Cycle Intensification: Observations and Expectations , 2010 .

[161]  Toke Thomas Høye,et al.  The effects of phenological mismatches on demography , 2010, Philosophical Transactions of the Royal Society B: Biological Sciences.

[162]  R. Battarbee,et al.  Climate Change Impacts on Freshwater Ecosystems: Kernan/Climate Change Impacts on Freshwater Ecosystems , 2010 .

[163]  L. Lesack,et al.  Attenuation of in situ UV radiation in Mackenzie Delta lakes with varying dissolved organic matter compositions , 2010 .

[164]  A. Wade,et al.  Modelling Catchment Scale Responses to Climate Change , 2010 .

[165]  Sarah E. Gergel,et al.  Response of green alder (Alnus viridis subsp. fruticosa) patch dynamics and plant community composition to fire and regional temperature in north‐western Canada , 2010 .

[166]  David Bastviken,et al.  Temperature-controlled organic carbon mineralization in lake sediments , 2010, Nature.

[167]  G. Woodward,et al.  Climate change and freshwater ecosystems: impacts across multiple levels of organization , 2010, Philosophical Transactions of the Royal Society B: Biological Sciences.

[168]  D. Schindler,et al.  Comprehensive conservation planning to protect biodiversity and ecosystem services in Canadian boreal regions under a warming climate and increasing exploitation , 2010 .

[169]  James P. McNamara,et al.  Arctic Landscapes in Transition: Responses to Thawing Permafrost , 2010 .

[170]  F. Stuart Chapin,et al.  Fire, climate change, and forest resilience in interior Alaska. , 2010 .

[171]  M. Torre Jorgenson,et al.  Resilience and vulnerability of permafrost to climate change , 2010 .

[172]  B. V. van Dongen,et al.  Selective preservation of old organic carbon fluvially released from sub‐Arctic soils , 2010 .

[173]  S. Seneviratne,et al.  Investigating soil moisture-climate interactions in a changing climate: A review , 2010 .

[174]  B. Forbes,et al.  Russian Arctic warming and ‘greening’ are closely tracked by tundra shrub willows , 2010 .

[175]  G. Kling,et al.  Stream geochemistry as an indicator of increasing permafrost thaw depth in an Arctic watershed , 2010 .

[176]  F. Chapin,et al.  Changes in fire regime break the legacy lock on successional trajectories in Alaskan boreal forest , 2010 .

[177]  G. Schaepman‐Strub,et al.  Shrub expansion may reduce summer permafrost thaw in Siberian tundra , 2010 .

[178]  E. Jeppesen,et al.  Larger zooplankton in Danish lakes after cold winters: are winter fish kills of importance? , 2010, Hydrobiologia.

[179]  Erik Jeppesen,et al.  Impacts of climate warming on lake fish community structure and potential effects on ecosystem function , 2010, Hydrobiologia.

[180]  P. Crill,et al.  Implications of temperature and sediment characteristics on methane formation and oxidation in lake sediments , 2010 .

[181]  J. Smol,et al.  Environmental and spatial factors influencing the distribution of cladocerans in lakes across the central Canadian Arctic treeline region , 2010 .

[182]  Isabelle Laurion,et al.  Variability in greenhouse gas emissions from permafrost thaw ponds , 2010 .

[183]  Hironori Yabuki,et al.  Abrupt increases in soil temperatures following increased precipitation in a permafrost region, central Lena River basin, Russia , 2010 .

[184]  V. Romanovsky,et al.  Thermokarst lake drainage in the continuous permafrost zone of NW Alaska and climate feedbacks , 2010 .

[185]  W. Vincent,et al.  Effects of loss of perennial lake ice on mixing and phytoplankton dynamics: insights from High Arctic Canada , 2010, Annals of Glaciology.

[186]  R. Macdonald,et al.  Increasing contaminant burdens in an arctic fish, Burbot ( Lota lota ), in a warming climate. , 2010, Environmental science & technology.

[187]  J. Welker,et al.  Decomposition of old organic matter as a result of deeper active layers in a snow depth manipulation experiment , 2010, Oecologia.

[188]  Terry D. Prowse,et al.  Hydroclimatic controls on the occurrence of break-up and ice-jam flooding in the Mackenzie Delta, NWT, Canada. , 2009 .

[189]  I. Myers-Smith Shrub Line Advance in Alpine Tundra of the Kluane Region: Mechanisms of Expansion and Ecosystem Impacts , 2009 .

[190]  D. Walker,et al.  Vegetation greening in the Canadian Arctic related to decadal warming. , 2009, Journal of environmental monitoring : JEM.

[191]  H. Toivonen,et al.  Predicting distribution patterns and recent northward range shift of an invasive aquatic plant: Elodea canadensis in Europe , 2009 .

[192]  Randy Showstack,et al.  Arctic Report Card , 2009 .

[193]  Alan Jenkins,et al.  Handbook of catchment management. , 2009 .

[194]  D. Schindler Lakes as sentinels and integrators for the effects of climate change on watersheds, airsheds, and landscapes , 2009 .

[195]  P. Hulme,et al.  Herbivores inhibit climate‐driven shrub expansion on the tundra , 2009 .

[196]  John P. Smol,et al.  Lakes and reservoirs as sentinels, integrators, and regulators of climate change , 2009 .

[197]  J. Corbeil,et al.  Arctic microbial ecosystems and impacts of extreme warming during the International Polar Year , 2009, Polar Science.

[198]  Martin Kernan,et al.  Climate Change and the Future of Freshwater Biodiversity in Europe: A Primer for Policy-Makers , 2009 .

[199]  R. Rhew,et al.  Impact of terrestrial carbon input on methane emissions from an Alaskan Arctic lake , 2009 .

[200]  Eric F. Wood,et al.  Observational evidence of an intensifying hydrological cycle in northern Canada , 2009 .

[201]  A. Rigling,et al.  Treeline shifts in the Ural mountains affect soil organic matter dynamics , 2009 .

[202]  T. E. Osterkamp,et al.  The effect of permafrost thaw on old carbon release and net carbon exchange from tundra , 2009, Nature.

[203]  J. Cornelissen,et al.  Ecosystem feedbacks and cascade processes: understanding their role in the responses of Arctic and alpine ecosystems to environmental change , 2009 .

[204]  S. Kokelj,et al.  The impacts of thawing permafrost on the chemistry of lakes across the subarctic boreal‐tundra transition, Mackenzie Delta region, Canada , 2009 .

[205]  C. Lovejoy,et al.  Vertical structure of archaeal communities and the distribution of ammonia monooxygenase A gene variants in two meromictic High Arctic lakes. , 2009, Environmental microbiology.

[206]  Jan Åge Riseth,et al.  Above ground biomass changes in the mountain birch forests and mountain heaths of Finnmarksvidda, northern Norway, in the period 1957-2006 , 2009 .

[207]  Lee E. Brown,et al.  Hydroecological response of river systems to shrinking glaciers , 2009 .

[208]  Philip Marsh,et al.  Changes in thaw lake drainage in the Western Canadian Arctic from 1950 to 2000 , 2009 .

[209]  L. Copland,et al.  Examining Arctic Ice Shelves Prior to the 2008 Breakup , 2008 .

[210]  W. Vincent,et al.  Bacterial production and microbial food web structure in a large arctic river and the coastal Arctic Ocean , 2008 .

[211]  W. Vincent,et al.  Arctic epishelf lakes as sentinel ecosystems: Past, present and future , 2008 .

[212]  Claude R. Duguay,et al.  Contemporary (1951–2001) Evolution of Lakes in the Old Crow Basin, Northern Yukon, Canada: Remote Sensing, Numerical Modeling, and Stable Isotope Analysis , 2008 .

[213]  D. O. Hessen,et al.  Light and spectral properties as determinants of C:N:P-ratios in phytoplankton , 2008 .

[214]  S. Hagemann,et al.  Vulnerability of Permafrost Carbon to Climate Change: Implications for the Global Carbon Cycle , 2008 .

[215]  F. Chapin,et al.  Methane production and bubble emissions from arctic lakes: Isotopic implications for source pathways and ages , 2008 .

[216]  E. Post,et al.  Opposing plant community responses to warming with and without herbivores , 2008, Proceedings of the National Academy of Sciences.

[217]  D. Marcogliese The impact of climate change on the parasites and infectious diseases of aquatic animals. , 2008, Revue scientifique et technique.

[218]  A. Rigling,et al.  Expanding forests and changing growth forms of Siberian larch at the Polar Urals treeline during the 20th century , 2008 .

[219]  Margaret A. Palmer,et al.  Lakes and streams as sentinels of environmental change in terrestrial and atmospheric processes , 2008 .

[220]  John H. Bradford,et al.  Sediment and nutrient delivery from thermokarst features in the foothills of the North Slope, Alaska: Potential impacts on headwater stream ecosystems , 2008 .

[221]  F. Rahel,et al.  Assessing the Effects of Climate Change on Aquatic Invasive Species , 2008, Conservation biology : the journal of the Society for Conservation Biology.

[222]  Trevor C. Lantz,et al.  Increasing rates of retrogressive thaw slump activity in the Mackenzie Delta region, N.W.T., Canada , 2008 .

[223]  L. Lesack,et al.  Mackenzie River nutrient delivery to the Arctic Ocean and effects of the Mackenzie Delta during open water conditions , 2008 .

[224]  C. Lovejoy,et al.  Microbial community diversity and heterotrophic production in a coastal Arctic ecosystem: A stamukhi lake and its source waters , 2008 .

[225]  Warwick F. Vincent,et al.  Polar Lakes and Rivers - Limnology of Arctic and Antarctic Aquatic Ecosystems , 2008 .

[226]  K. Ranson,et al.  Tree vegetation of the forest-tundra ecotone in the Western Sayan mountains and climatic trends , 2008, Russian Journal of Ecology.

[227]  はやのん,et al.  What are the polar regions , 2008 .

[228]  E. Post,et al.  Climate change reduces reproductive success of an Arctic herbivore through trophic mismatch , 2008, Philosophical Transactions of the Royal Society B: Biological Sciences.

[229]  P. Marsh,et al.  Lengthening plus shortening of river‐to‐lake connection times in the Mackenzie River Delta respectively via two global change mechanisms along the arctic coast , 2007 .

[230]  Andrew Kliskey,et al.  The Arctic freshwater system: Changes and impacts , 2007 .

[231]  Donald A. Jackson,et al.  Will northern fish populations be in hot water because of climate change? , 2007 .

[232]  John P. Smol,et al.  Crossing the final ecological threshold in high Arctic ponds , 2007, Proceedings of the National Academy of Sciences.

[233]  R. Macdonald,et al.  Mobilization pathways of organic carbon from permafrost to arctic rivers in a changing climate , 2007 .

[234]  L. Smith,et al.  Methane bubbling from northern lakes: present and future contributions to the global methane budget , 2007, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[235]  Sharon L. Smith,et al.  Climate warming and active layer thaw in the boreal and tundra environments of the Mackenzie Valley1 , 2007 .

[236]  P. Hamilton,et al.  Evidence for control of mercury accumulation rates in Canadian High Arctic lake sediments by variations of aquatic primary productivity. , 2007, Environmental science & technology.

[237]  Laurence C. Smith,et al.  A first pan‐Arctic assessment of the influence of glaciation, permafrost, topography and peatlands on northern hemisphere lake distribution , 2007 .

[238]  P. Frenzel,et al.  Methanogenesis and methanogenic pathways in a peat from subarctic permafrost. , 2007, Environmental microbiology.

[239]  L. Smith,et al.  Geochemistry of west Siberian streams and their potential response to permafrost degradation , 2007 .

[240]  R. Macdonald,et al.  The delivery of mercury to the Beaufort Sea of the Arctic Ocean by the Mackenzie River. , 2007, The Science of the total environment.

[241]  S. Solomon The Physical Science Basis : Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change , 2007 .

[242]  Martin Melles,et al.  Sedimentary geochemistry of core PG1351 from Lake El’gygytgyn—a sensitive record of climate variability in the East Siberian Arctic during the past three glacial–interglacial cycles , 2006 .

[243]  Nickolay A. Krotkov,et al.  Photomineralization of terrigenous dissolved organic matter in Arctic coastal waters from 1979 to 2003: Interannual variability and implications of climate change , 2006 .

[244]  David L. Verbyla,et al.  Shrinking ponds in subarctic Alaska based on 1950–2002 remotely sensed images , 2006 .

[245]  Tim R. Moore,et al.  Environmental chemistry: Browning the waters , 2006, Nature.

[246]  Garry D. Peterson,et al.  Policy strategies to address sustainability of Alaskan boreal forests in response to a directionally changing climate , 2006, Proceedings of the National Academy of Sciences.

[247]  M. Power,et al.  An Overview of Effects of Climate Change on Selected Arctic Freshwater and Anadromous Fishes , 2006, Ambio.

[248]  M. Power,et al.  General Effects of Climate Change on Arctic Fishes and Fish Populations , 2006, Ambio.

[249]  Frederick J. Wrona,et al.  Climate Change Effects on Aquatic Biota, Ecosystem Structure and Function , 2006, Ambio.

[250]  John E Hobbie,et al.  Climate Change Effects on Hydroecology of Arctic Freshwater Ecosystems , 2006, Ambio.

[251]  J. Hobbie,et al.  General Features of the Arctic Relevant to Climate Change in Freshwater Ecosystems , 2006, Ambio.

[252]  R. Macdonald,et al.  Effects of Ultraviolet Radiation and Contaminant-related Stressors on Arctic Freshwater Ecosystems , 2006, Ambio.

[253]  Ross D. Brown,et al.  Future Projections of Landfast Ice Thickness and Duration in the Canadian Arctic , 2006 .

[254]  John E. Walsh,et al.  Integrated regional changes in arctic climate feedbacks: Implications for the global climate system , 2006 .

[255]  F. Chapin,et al.  Methane bubbling from Siberian thaw lakes as a positive feedback to climate warming , 2006, Nature.

[256]  J. Walsh,et al.  Trajectory Shifts in the Arctic and Subarctic Freshwater Cycle , 2006, Science.

[257]  M. Sturm,et al.  The evidence for shrub expansion in Northern Alaska and the Pan‐Arctic , 2006 .

[258]  E. Mccauley,et al.  Freshwater food webs control carbon dioxide saturation through sedimentation , 2006 .

[259]  Claude R. Duguay,et al.  Recent trends in Canadian lake ice cover , 2006 .

[260]  M. Torre Jorgenson,et al.  Abrupt increase in permafrost degradation in Arctic Alaska , 2006 .

[261]  P. Badiou,et al.  Northern Range Expansion and Invasion by the Common Carp, Cyprinus carpio , of the Churchill River System in Manitoba , 2006 .

[262]  R. DeFries,et al.  Anthropogenic Drivers of Ecosystem Change: an Overview , 2006 .

[263]  R. Borgstrøm,et al.  Accumulated snow and summer temperature – critical factors for recruitment to high mountain populations of brown trout (Salmo trutta L.) , 2005 .

[264]  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 .

[265]  G. Liston,et al.  Changing snow and shrub conditions affect albedo with global implications , 2005 .

[266]  Roger G. Barry,et al.  Spatial and temporal variability in active layer thickness over the Russian Arctic drainage basin , 2005 .

[267]  A. Huryn,et al.  Landscape heterogeneity and the biodiversity of Arctic stream communities: a habitat template analysis , 2005 .

[268]  L. D. Hinzman,et al.  Disappearing Arctic Lakes , 2005, Science.

[269]  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.

[270]  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.

[271]  F. Chapin,et al.  EFFECTS OF BIODIVERSITY ON ECOSYSTEM FUNCTIONING: A CONSENSUS OF CURRENT KNOWLEDGE , 2005 .

[272]  A. Milner,et al.  20 – RIVERS OF ARCTIC NORTH AMERICA , 2005 .

[273]  J. Welker,et al.  Winter Biological Processes Could Help Convert Arctic Tundra to Shrubland , 2005 .

[274]  F. Chapin,et al.  Evidence and Implications of Recent Climate Change in Northern Alaska and Other Arctic Regions , 2004 .

[275]  W. Oechel,et al.  Biodiversity, Distributions and Adaptations of Arctic Species in the Context of Environmental Change , 2004, Ambio.

[276]  Marco Caccianiga,et al.  Accelerated thawing of subarctic peatland permafrost over the last 50 years , 2004 .

[277]  J. Elser,et al.  CARBON SEQUESTRATION IN ECOSYSTEMS: THE ROLE OF STOICHIOMETRY , 2004 .

[278]  Mark C. Serreze,et al.  Modeling evidence for recent warming of the Arctic soil thermal regime , 2004 .

[279]  Donald A. Walker,et al.  The Circumpolar Arctic vegetation map , 2005 .

[280]  S. Carpenter,et al.  Catastrophic regime shifts in ecosystems: linking theory to observation , 2003 .

[281]  D. Walker,et al.  Greening of arctic Alaska, 1981–2001 , 2003 .

[282]  David M. Lodge,et al.  From Greenland to green lakes : Cultural eutrophication and the loss of benthic pathways in lakes , 2003 .

[283]  R. Macdonald,et al.  AMAP Assessment 2002: The Influence of Global Change on Contaminant Pathways to, within, and from the Arctic. , 2003 .

[284]  Kenji Yoshikawa,et al.  Shrinking thermokarst ponds and groundwater dynamics in discontinuous permafrost near council, Alaska , 2003 .

[285]  P. Camill,et al.  Permafrost Thaw Accelerates in Boreal Peatlands During Late-20th Century Climate Warming , 2003 .

[286]  Richard B. Lammers,et al.  Increasing River Discharge to the Arctic Ocean , 2002, Science.

[287]  M. Jansson,et al.  Bacterioplankton Production in Lakes along an Altitude Gradient in the Subarctic North of Sweden , 2001, Microbial Ecology.

[288]  B. Forbes,et al.  Anthropogenic Disturbance and Patch Dynamics in Circumpolar Arctic Ecosystems , 2001 .

[289]  D. Marcogliese Implications of climate change for parasitism of animals in the aquatic environment , 2001 .

[290]  M. Sturm,et al.  Climate change: Increasing shrub abundance in the Arctic , 2001, Nature.

[291]  M. Torre Jorgenson,et al.  Permafrost Degradation and Ecological Changes Associated with a WarmingClimate in Central Alaska , 2001 .

[292]  Dennis D. Baldocchi,et al.  Climate and vegetation controls on boreal zone energy exchange , 2000, Global change biology.

[293]  F. Chapin,et al.  Global Warming and Terrestrial Ecosystems: A Conceptual Framework for Analysis , 2000 .

[294]  J. Magnuson,et al.  Historical trends in lake and river ice cover in the northern hemisphere , 2000, Science.

[295]  Yuri Shur,et al.  Observations of Thermokarst and Its Impact on Boreal Forests in Alaska, U.S.A. , 2000 .

[296]  W. Vincent,et al.  Effect of climate change relative to ozone depletion on UV exposure in subarctic lakes , 2000, Nature.

[297]  J. Bale,et al.  Hydrology, water availability and tundra ecosystem function in a changing climate: the need for a closer integration of ideas? , 1999 .

[298]  Tim R. Moore,et al.  Uncertainty in Predicting the Effect of Climatic Change on the Carbon Cycling of Canadian Peatlands , 1998 .

[299]  André F. Lotter,et al.  The relationship between air and water temperatures in lakes of the Swiss Plateau: a case study with pal\sgmaelig;olimnological implications , 1998 .

[300]  F. Chapin,et al.  Response of tundra CH4 and CO2 flux tomanipulation of temperature and vegetation , 1998 .

[301]  Philip Marsh,et al.  EFFECTS OF CLIMATE CHANGE ON THE FRESHWATERS OF ARCTIC AND SUBARCTIC NORTH AMERICA , 1997 .

[302]  T. V. Madsen,et al.  Growth, photosynthesis and acclimation by two submerged macrophytes in relation to temperature , 1997, Oecologia.

[303]  Isabelle Laurion,et al.  UNDERWATER ULTRAVIOLET RADIATION : DEVELOPMENT OF SPECTRAL MODELS FOR NORTHERN HIGH LATITUDE LAKES , 1997 .

[304]  James F. Reynolds,et al.  Arctic ecosystems in a changing climate : an ecophysiological perspective , 1993 .

[305]  L. Hinzman,et al.  3 – Arctic Hydrology and Climate Change , 1992 .

[306]  T. G. Northcote,et al.  Freshwater ecosystems , 1992 .

[307]  G. Kling,et al.  Arctic Lakes and Streams as Gas Conduits to the Atmosphere: Implications for Tundra Carbon Budgets , 1991, Science.

[308]  G. Minshall,et al.  The River Continuum Concept , 1980 .

[309]  C. S. Holling Resilience and Stability of Ecological Systems , 1973 .