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• W1555702925 abstract "Hydrological ProcessesVolume 27, Issue 5 p. 766-774 Special Issue Invited Commentary Catchments on the cusp? Structural and functional change in northern ecohydrology D. Tetzlaff, Corresponding Author D. Tetzlaff Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UK Correspondence to: Doerthe Tetzlaff, Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UK. E-mail: [email protected]Search for more papers by this authorC. Soulsby, C. Soulsby Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UKSearch for more papers by this authorJ. Buttle, J. Buttle Department of Geography, Trent University, Ontario, CanadaSearch for more papers by this authorR. Capell, R. Capell Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UKSearch for more papers by this authorS. K. Carey, S. K. Carey School of Geography and Earth Sciences, McMaster University, Ontario, CanadaSearch for more papers by this authorH. Laudon, H. Laudon Department of Forest Ecology and Management, Swedish University of Agricultural Sciences, 901 83 Umeå, SwedenSearch for more papers by this authorJ. McDonnell, J. McDonnell Global Institute for Water Security, National Hydrology Research Centre, University of Saskatchewan, Saskatchewan, Canada Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UKSearch for more papers by this authorK. McGuire, K. McGuire Virginia Water Resources Research Center and Department of Forest Resources and Environmental Conservation, Virginia Tech, VA, USASearch for more papers by this authorJ. Seibert, J. Seibert Department of Geography, University of Zurich, Zurich, Switzerland U.S. Geological Survey, Montpelier, VT, USASearch for more papers by this authorJ. Shanley, J. Shanley U.S. Geological Survey, Montpelier, VT, USASearch for more papers by this author D. Tetzlaff, Corresponding Author D. Tetzlaff Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UK Correspondence to: Doerthe Tetzlaff, Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UK. E-mail: [email protected]Search for more papers by this authorC. Soulsby, C. Soulsby Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UKSearch for more papers by this authorJ. Buttle, J. Buttle Department of Geography, Trent University, Ontario, CanadaSearch for more papers by this authorR. Capell, R. Capell Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UKSearch for more papers by this authorS. K. Carey, S. K. Carey School of Geography and Earth Sciences, McMaster University, Ontario, CanadaSearch for more papers by this authorH. Laudon, H. Laudon Department of Forest Ecology and Management, Swedish University of Agricultural Sciences, 901 83 Umeå, SwedenSearch for more papers by this authorJ. McDonnell, J. McDonnell Global Institute for Water Security, National Hydrology Research Centre, University of Saskatchewan, Saskatchewan, Canada Northern Rivers Institute, School of Geosciences, University of Aberdeen, Scotland, UKSearch for more papers by this authorK. McGuire, K. McGuire Virginia Water Resources Research Center and Department of Forest Resources and Environmental Conservation, Virginia Tech, VA, USASearch for more papers by this authorJ. Seibert, J. Seibert Department of Geography, University of Zurich, Zurich, Switzerland U.S. Geological Survey, Montpelier, VT, USASearch for more papers by this authorJ. Shanley, J. Shanley U.S. Geological Survey, Montpelier, VT, USASearch for more papers by this author First published: 02 January 2013 https://doi.org/10.1002/hyp.9700Citations: 50Read the full textAboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References Ali G, Tetzlaff D, Soulsby C, McDonnell JJ, Capell R. 2012. A comparison of similarity indices for catchment classification using a cross-regional dataset. Advances in Water Resources 40: 11– 22. Allen CD, et al. 2010. A global overview of drought and heat induced mortality reveals emerging climate change risks for forests. Forest Ecology and Management 259: 660– 684. Beven KJ. 2012. Rainfall-Runoff Modelling: The Primer (2nd Edn) Wiley. Bewley D, Essery R, Pomeroy J, Menard C. 2010. Measurements and modelling of snowmelt and turbulent heat fluxes over shrub tundra. Hydrology And Earth System Sciences 14: 1331– 1340. Brooks R, Barnard H, Coulombe R, McDonnell JJ. 2010. Two water worlds paradox: trees and streams return different water pools to the hydrosphere. Nature Geoscience 3: 100– 104. DOI: 10.1038/NGEO722 Budyko MI. 1974. Climate and Life. Academic Press. Burt TP, Howden NJK, Worrall F, McDonnell JJ. 2011. On the value of long-term, low-frequency water quality sampling: avoiding throwing the baby out with the bathwater. Hydrological Processes 25(5): 828– 830. Campbell JL, Driscoll CT, Pourmokhtarian A, Hayhoe K. 2011. Streamflow responses to past and projected future changes in climate at the Hubbard Brook Experimental Forest, New Hampshire, United States. Water Resour Res. 47(2): W02514. Capell R, Tetzlaff D, Essery R, Soulsby C. 2013a. Projecting climate change impacts on stream flow regimes with tracer-aided runoff models – preliminary assessment of heterogeneity at the mesoscale. Hydrological Processes. DOI: 10.1002/hyp.9612 Capell R, Tetzlaff D, Soulsby C. 2013b. Will catchment characteristics moderate the projected effects of climate change on flow regimes in the Scottish Highlands. Hydrological Processes 27: 687– 699. DOI: 10.1002/hyp.9626 Carey SK, Tetzlaff D, Seibert J, Soulsby C, Buttle J, Laudon H, McDonnell J, McGuire K, Caissie D, Shanley J, Kennedy M, Devito K, Pomeroy JW. 2010. Inter-comparison of hydro-climatic regimes across northern catchments: synchronicity, resistance and resilience. Hydrological Processes 24: 3591– 3602. Carey SK, Tetzlaff D, Buttle J, Laudon H, McDonnell J, McGuire K, Seibert J, Soulsby C, Shanley J. Use of colormaps and wavelet coherence to discern short and longer-term climate influences on streamflow variability in northern catchments. Water Resources Research. In review. Christensen L, Christina L, Tague CL, Baron JS. 2008. Spatial patterns of simulated transpiration response to climate variability in a snow dominated mountain ecosystem. Hydrological Processes 22: 3576– 3588. Crouch CM, McKnight DM, Todd A. 2013. Quantifying sources of increasing zinc from acid rock drainage in an alpine catchment under a changing hydrologic regime. Hydrological Processes 27: 721– 733. DOI: 10.1002/hyp.9650 Cunjak R, Linnansaari T, Caissie D. 2013. The complex interaction of ecology and hydrology in a small catchment: a salmon's perspective. Hydrological Processes 27: 741– 749. DOI: 10.1002/hyp.9640 Danby RK, Hik DS. 2007. Evidence if recent treeline dynamics in southwest Yukon from aerial photographs. Arctic 60: 411– 420. Dawson JJC, Malcolm IA, Middlemas S, Tetzlaff D, Soulsby C. 2009. Is the composition of dissolved organic carbon changing in upland acidic streams? Environmental Science & Technology 43(20): 7748– 7753. Donohue RJ, Roderick ML, McVicar TR. 2007. On the importance of including vegetation dynamics in Budyko's hydrological model. Hydrology and Earth System Sciences 11: 983– 995. Essery R, Pomeroy J. 2004. Vegetation and topographic control of wind-blown snow distributions in distributed and aggregated simulations for an Arctic tundra basin. J. Hydrometeor 5: 735– 744. Friberg N, Bergfur J, Rasmussen J, Sandin L. 2013. Changing Northern catchments: is altered hydrology, temperature or both going to shape future stream communities and ecosystem processes? Hydrological Processes 27: 734– 740. DOI: 10.1002/hyp.9598 Goode JR, Buffington JM, Tonina D, Isaak DJ, Thurow RF, Wenger S, Nagel D, Luce C, Tetzlaff D, Soulsby C. 2013. Potential effects of climate change on streambed scour and risks to salmonid survival in snow-dominated mountain basins. Hydrological Processes 27: 750– 765. DOI: 10.1012/hyp9728 Haei M, Öquist MG, Buffam I, Ågren A, Blomkvist P, Bishop K, Ottosson Löfvenius M, Laudon H. 2010. Cold winter soils enhance dissolved organic carbon concentrations in soil and stream water. Geophysical Research Letters 37: L08501, DOI: 10.1029/2010GL042821 Hardy JP, Groffmann PM, Fitzhugh RD, Henry KS, Welman AT, Demers JD, Fahey TJ, Driscoll CT, Tierney GL, Nolan S. 2001. Snow depth manipulation and its influence on soil frost and water dynamics in a northern hardwood forest. Biogeochemistry 56: 151– 174. Hinzman L, Bettez N, Bolton WR, Chapin III FS, Dyurgerov M, Fastie C, Griffith B, Hollister RD, Hope A, Huntington HP. 2005. Evidence and implications of recent climate change in terrestrial regions of the Arctic. Climate Change 72: 251– 298. Hrachowitz M, Soulsby C, Imholt C, Malcolm IA, Tetzlaff D. 2010. Thermal regimes in a large upland salmon river: a simple model to identify the influence of landscape controls and climate change on maximum temperatures. Hydrological Processes 24: 3374– 3391. Intergovernmental Panel on Climate Change (IPCC). 2007. Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Core Writing Team, Pachauri RK, Reisinger A (eds). IPCC: Geneva, Switzerland, 104. Istanbulluoglu E, Wang T, Wright OM, Lenters JD. 2012. Interpretation of hydrological trends from a water balance perspective: the role of groundwater storage in the Budyko hypothesis. Water Resources Research 48: W00H16. Jones J, Creed IF, Hatcher KL, Warren RJ, Adams MB, Benson MH, Boose E, Brown WA, Campbell JL, Covich A, Clow DW, Dahm CN, Elder K, Ford CR, Grimm NB, Henshaw DL, Larson KL, Miles ES, Miles KM, Sebestyen SD, Spargo AT, Stone AB, Vose JM, Williams MW. 2012. Ecosystem processes and human influences regulate streamflow response to climate change at long-term ecological research sites. BioScience 62: 390– 404. DOI:10.1525/bio.2012.62.4.10 Kruitbos LM, Tetzlaff D, Soulsby C, Buttle J, Carey S, Laudon H, McDonnell J, McGuire K, Seibert Cunjak R, Shanley J. 2012. Hydroclimatic and hydrochemical controls on Plecoptera (stonefly) diversity and distribution in northern freshwater ecosystems. Hydrobiologia. DOI: 10.1007/s10750-012-1085-1 Kundzewicz ZW, Mata LJ, Arnell NW, Döll P, Kabat P, Jiménez B, Miller KA, Oki T, Sen Z and Shiklomanov IA. 2007. Freshwater resources and their management. In Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, ML Parry, OF Canziani, JP Palutikof, PJ van der Linden, CE Hanson (eds). Cambridge University Press: Cambridge, UK, 173– 210. Kundzewicz ZW, Mata LJ, Arnell NW, Doell P, Jimenez B, Miller K, Oki T, Sen Z, Shiklomanov I. 2012. The implications of projected climate change for freshwater resources and their management. Hydrological Science Journal 53: 3– 10. Laudon H, Berggren M, Ågren A, Buffam I, Bishop K, Grabs T, Jansson M, Köhler S. 2011. Patterns and dynamics of dissolved organic carbon (DOC) in boreal streams: the role of processes. Connectivity, and Scaling Ecosystems 14: 880– 893. DOI: 10.1007/s10021-011-9452-8 Laudon H, Buttle J, Carey SK, McDonnel J, McGuire K, Seibert J, Shanley J, Soulsby C, Tetzlaff D. 2012. Cross-regional prediction of long-term trajectory of stream water DOC response to climate change. Geophysical Research Letters 39: L18404. DOI: 10.1029/2012GL053033 Laudon H, Tetzlaff D, Soulsby C, Carey S, Seibert J, Buttle J, Shanley J, McDonnell J, McGuire K. 2013. Change in winter climate will affect dissolved organic carbon and water fluxes in mid- to high latitude catchments. Hydrological Processes 27: 700– 709. DOI: 10.1002/hyp.9686 Loarie SR, Duffy PB, Hamilton H, Asner GP, Field CB, Ackerly DD. 2009. The velocity of climate change. Nature 462: 1052– 1054. Lovett GM, Burns DA, Driscoll CT, Jenkins JC, Mitchell MJ, Rustad L, Shanley JB, Likens GE, and Haeuber R. 2007. Who needs environmental monitoring? Frontiers in Ecology and the Environment 5(5): 253– 260. Manning AD, Fischer J, Felton A, Newell B, Steffen W, Lindenmayer DB. 2009. Landscape fluidity - a unifying perspective for understanding and adapting to globalchange. Jorunal of Biogeography 36: 193– 199. McClain ME, Boyer EW, Dent CL, Gergel SE, Grimm NB, Groffman PM, Hart SC, Harvey JW, Johnston CA, Mayorga E, McDowell WH, Pinay G. 2003. Biogeochemical hot spots and hot moments at the interface of terrestrial and aquatic ecosystems. Ecosystems 6: 301– 312. DOI: 10.1007/s10021-003-0161-9 McClelland JW, Déry SJ, Peterson BJ, Holmes RM, Wood EF. 2006. A pan-arctic evaluation of changes in river discharge during the latter half of the 20th century. Geophysical Research Letters 33: L06715, DOI: 10.1029/2006GL025753 McNamara JP, Tetzlaff D, Bishop K, Soulsby C, Seyfried M, Peters N, Hooper R. 2011. Storage as a metric of catchment comparison. Hydrological Processes 25: 3364– 3371. Mengistu SG, Creed IF, Kulperger RJ, Christopher G. 2013. Quick Russian nesting dolls effect – using wavelet analysis to reveal non-stationary and nested stationary signals in water yield from catchments on a northern forested landscape. Hydrological Processes 27: 669– 686. DOI: 10.1002/hyp.9552 Milly PCD, Betancourt J, Falkenmark M, Hirsch RM, Kundzewicz ZW, Lettenmaier DP, Stouffer, RJ. 2008. Stationarity is dead: whither water management? Science 319: 573– 574. DOI: 10.1126/science.1151915 Newman BD, Wilcox BP, Archer SR. 2006. Ecohydrology of water-limited environments: a scientific vision. Water Resources Research 42(6): W06302. Poff NL, Allan JD, Bain MB, Karr JR, Prestegaard KL, Richter B, Sparks R, Stromberg J. 1997. The natural flow regime: a new paradigm for riverine conservation and restoration. BioScience 47: 769– 784. Pomeroy JW, Bewley DS, Essery RLH, Hedstrom NR, Link T, Granger RJ, Sicart JE, Ellis CR, Janowicz JR. 2006. Shrub tundra snowmelt. Hydrological Processes 20: 923– 941. DOI: 10.1002/hyp.6124 Pourmokhtarian A, Driscoll CT, Campbell JL, Hayhoe K. 2012. Modeling potential hydrochemical responses to climate change and increasing CO2 at the Hubbard Brook Experimental Forest using a dynamic biogeochemical model (PnET-BGC). Water Resources Research 48(7): W07514. Rennermalm AK, Wood EF, Troy TJ. 2010. Observed changes in pan-arctic cold season minimum monthly river discharge. Climate Dynamics 35(6): 923– 939. DOI: 10.1088/1748-9326/4/2/024011 Schmidt MW, Torn MS, Abiven S, Dittmar T, et al. 2011. Persistence of soil organic matter as an ecosystem property. Nature 478: 49– 56. Sebestyen SD, Boyer EW, Shanley JB. 2009. Responses of stream nitrate and DOC loadings to hydrological forcing and climate change in an upland forest of the northeastern United States. Journal of Geophysical Research 114: G02002. DOI: 10.1029/2008JG000778 Shuttleworth WJ. 1983. Evaporation models in the global water budget. In Variations in the Global Water Budget. 147– 171. Sivapalan M. 2005. Pattern, Process and Function: Elements of a Unified Theory of Hydrology at the Catchment Scale. Encyclopedia of Hydrological Sciences, John Wiley & Sons, Ltd. Smith LC. 2011. The New North – the World in 2050. Profile Books: London. Soulsby C, Neal C, Laudon H, Burns DA, Merot P, Bonell M, Dunn SM, Tetzlaff D. 2008. Catchment data for process conceptualization: simply not enough? Hydrological Processes 22: 2057– 2061. Soulsby C, Piegat KG, Seibert J, Tetzlaff D. 2011. Catchment-scale estimates of flow path partitioning and water storage based on transit time and runoff modelling. Hydrological Processes 25: 3960– 3976. Spence C, Kokelj SV, Ehsanzadeh E. 2011. Precipitation trends contribute to streamflow regime shifts in northern Canada, Cold Region Hydrology in a Changing Climate Proceedings of a symposium held during IUGG 2011 at Melbourne, Australia, June, 2011, IAHS Publ. No. 346, 3– 8. Stephenson N. 1990. Climatic control of vegetation distribution: the role of the water balance. The American Naturalist 135: 649– 670. Tetzlaff D, Soulsby C, Gibbins CN, Bacon PJ, Youngson AF. 2005a. An approach to assessing hydrological influences on feeding opportunities of juvenile Atlantic salmon (Salmo salar): a case study of two contrasting years in a small, nursery stream. Hydrobiologia 549: 65– 77. Tetzlaff D, Soulsby C, Youngson AF, Gibbins CN, Bacon PJ, Malcolm IA, Langan SJ. 2005b. Variability in stream discharge and temperature: a preliminary assessment of the implications for juvenile and spawning Atlantic salmon. Hydrology and Earth Systems Science 9: 193– 208. Tetzlaff D, Soulsby C, Bacon PJ, Youngson AF, Gibbins CN, Malcolm IA. 2007. Connectivity between landscapes and riverscapes – a unifying theme in integrating hydrology and ecology in catchment science? Hydrological Processes 21: 1385– 1389. Tetzlaff D, Gibbins CN, Bacon PJ, Youngson AF, Soulsby C. 2008. Influence of hydrological regimes on the pre-spawning entry of Atlantic salmon (Salmo salar L.) into an upland river. Rivers Research and Application 24: 528– 542. Wagener T, Sivapalan M, Troch P, Woods R. 2007. Catchment classification and hydrologic similarity. Geography Compass DOI: 10.1111/j.1749-8198.2007.00039.x. Whitehead PG, Wilby RL, Battarbee RW, Kernan M, Wade AJ. 2009. A review of the potential impacts of climate change on surface water quality. Hydrological Sciences Journal 54: 101– 123. Wookey PA, Aerts R, Bardgett RD, Baptist F, Bråthen KA, Cornelissen JHC, Gough L, Hartley IP, Hopkins DW, Lavorel S, Shaver GR. 2009. Ecosystem feedbacks and cascade processes: understanding their role in the responses of arctic and alpine ecosystems to environmental change. Global Change Biology 15: 1153– 1172. Yates DN, Kittel TG, Figge CR. 2000. Comparing the correlative Holdridge model to mechanistic biogeographical models for assessing vegetation distribution response to climate change. Climatic Change 44: 59– 87. Zhang Y, Carey SK, Quinton WL, Janowicz JR, Flerchinger GN. 2010. Comparison of algorithms and parameterizations for infiltration into organic-covered permafrost soils. Hydrological and Earth System Science 14: 729– 750. DOI: 10.5194/hess-14-729-2010 Citing Literature Volume27, Issue5Special Issue: Catchments in the future North: interdisciplinary science for sustainable management in the 21st Century28 February 2013Pages 766-774 ReferencesRelatedInformation" @default.
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• W1555702925 cites W1501745007 @default.
• W1555702925 cites W1505551852 @default.
• W1555702925 cites W1528667054 @default.
• W1555702925 cites W1596447791 @default.
• W1555702925 cites W1632455722 @default.
• W1555702925 cites W1670351676 @default.
• W1555702925 cites W1769821113 @default.
• W1555702925 cites W1788527181 @default.
• W1555702925 cites W1864605974 @default.
• W1555702925 cites W1917364388 @default.
• W1555702925 cites W1953981693 @default.
• W1555702925 cites W1957552617 @default.
• W1555702925 cites W1967938832 @default.
• W1555702925 cites W1968378512 @default.
• W1555702925 cites W1973478069 @default.
• W1555702925 cites W1978811540 @default.
• W1555702925 cites W1979583227 @default.
• W1555702925 cites W1980661581 @default.
• W1555702925 cites W1995553387 @default.
• W1555702925 cites W2008741880 @default.
• W1555702925 cites W2008877191 @default.
• W1555702925 cites W2020886924 @default.
• W1555702925 cites W2022934840 @default.
• W1555702925 cites W2058677644 @default.
• W1555702925 cites W2078127323 @default.
• W1555702925 cites W2081026543 @default.
• W1555702925 cites W2090919214 @default.
• W1555702925 cites W2096113236 @default.
• W1555702925 cites W2109692532 @default.
• W1555702925 cites W2113671666 @default.
• W1555702925 cites W2113791829 @default.
• W1555702925 cites W2117617809 @default.
• W1555702925 cites W2123994744 @default.
• W1555702925 cites W2126473499 @default.
• W1555702925 cites W2126800465 @default.
• W1555702925 cites W2129721863 @default.
• W1555702925 cites W2130091784 @default.
• W1555702925 cites W2132484323 @default.
• W1555702925 cites W2137486629 @default.
• W1555702925 cites W2140131090 @default.
• W1555702925 cites W2143003459 @default.
• W1555702925 cites W2152323927 @default.
• W1555702925 cites W2157049518 @default.
• W1555702925 cites W2162986469 @default.
• W1555702925 cites W2163901442 @default.
• W1555702925 cites W2164037477 @default.
• W1555702925 cites W2166897237 @default.
• W1555702925 cites W2170674867 @default.
• W1555702925 cites W2254518750 @default.
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