Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/spatial-scale-dependence-of-ecohydrologically-mediated-water-balance-ur1PwoVak2
References (231)
-
N. Viney, M. Sivapalan (2001)
Scaling of hydrologic conceptualisations: approaches to handling subgrid variability -
G. Botter, F. Peratoner, A. Porporato, I. Rodríguez‐Iturbe, A. Rinaldo (2007)
Signatures of large‐scale soil moisture dynamics on streamflow statistics across U.S. climate regimesWater Resources Research, 43
-
Kochendorfer Kochendorfer, Ramirez Ramirez (2010)
Ecohydrologic controls on vegetation density and evapotranspiration partitioning across the climate gradients of the central United StatesHydrol. Earth Syst. Sci., 14
-
D. Odion, F. Davis (2000)
FIRE, SOIL HEATING, AND THE FORMATION OF VEGETATION PATTERNS IN CHAPARRALEcological Monographs, 70
-
J. Davis, C. Steefel, G. Curtis, G. Redden, L. Criscenti, Bruce Honey, Jeffrey Davis (2004)
Predictions in Ungauged Basins As a Catalyst for Multidisciplinary Hydrology -
T. McCarthy (2006)
Groundwater in the wetlands of the Okavango Delta, Botswana, and its contribution to the structure and function of the ecosystemJournal of Hydrology, 320
-
J. Ludwig, B. Wilcox, D. Breshears, D. Tongway, A. Imeson (2005)
VEGETATION PATCHES AND RUNOFF–EROSION AS INTERACTING ECOHYDROLOGICAL PROCESSES IN SEMIARID LANDSCAPESEcology, 86
-
Crockford (2000)
10.1002/1099‐1085(200011/12)14:16/17<2903::AID‐HYP126>3.0.CO;2‐6Hydrol. Processes, 14
-
G. Churkina, S. Running (1998)
Contrasting Climatic Controls on the Estimated Productivity of Global Terrestrial BiomesEcosystems, 1
-
Mei Yu, Q. Gao, H. Epstein, Xin-shi Zhang (2008)
An ecohydrological analysis for optimal use of redistributed water among vegetation patches.Ecological applications : a publication of the Ecological Society of America, 18 7
-
Anthony DeAngelis, Francina Dominguez, Ying Fan, A. Robock, M. Kustu, D. Robinson (2010)
Evidence of Enhanced Precipitation Due to Irrigation over the Great Plains of the United StatesJournal of Geophysical Research, 115
-
P. Eagleson (1978)
Climate, soil, and vegetation: 1. Introduction to water balance dynamicsWater Resources Research, 14
-
B. Ruddell, Praveen Kumar (2009)
Ecohydrologic process networks: 2. Analysis and characterizationWater Resources Research, 45
-
M. Sivapalan (2003)
Process complexity at hillslope scale, process simplicity at the watershed scale: is there a connection?Hydrological Processes, 17
-
T. Givnish (1986)
Optimal stomatal conductance, allocation of energy between leaves and roots, and the marginal cost of transpiration -
P. Thorburn, T. Hatton, G. Walker (1993)
Combining measurements of transpiration and stable isotopes of water to determine groundwater discharge from forestsJournal of Hydrology, 150
-
S. Kéfi, M. Rietkerk, C. Alados, Y. Pueyo, V. Papanastasis, Ahmed ElAich, P. Ruiter (2007)
Spatial vegetation patterns and imminent desertification in Mediterranean arid ecosystemsNature, 449
-
C. Valentin, J.-M. D’Herbes, J. Poesen (1999)
Soil and water components of banded vegetation patternsCatena, 37
-
Lefsky (2002)
10.1641/0006‐3568(2002)052[0019:LRSFES]2.0.CO;2BioScience, 52
-
Katul (2009)
10.1111/j.1365‐3040.2009.01977.xPlant Cell Environ., 32
-
Yu (2008)
10.1890/07‐0640.1Ecol. Appl., 18
-
T. Scanlon, Kelly Caylor, S. Levin, I. Rodríguez‐Iturbe (2007)
Positive feedbacks promote power-law clustering of Kalahari vegetationNature, 449
-
I. Rodríguez‐Iturbe, J. Valdes (1979)
The geomorphologic structure of hydrologic responseWater Resources Research, 15
-
S. Tamea, F. Laio, L. Ridolfi, P. D’Odorico, I. Rodríguez‐Iturbe (2009)
Ecohydrology of groundwater‐dependent ecosystems: 2. Stochastic soil moisture dynamicsWater Resources Research, 45
-
Smith D. (1996)
Measurement of sap flow in plant stemsJ. Exp. Biol., 47
-
G. Katul, S. Manzoni, S. Palmroth, R. Oren (2010)
A stomatal optimization theory to describe the effects of atmospheric CO2 on leaf photosynthesis and transpiration.Annals of botany, 105 3
-
M. Sivapalan, M. Yaeger, C. Harman, Xiangyu Xu, P. Troch (2011)
Functional model of water balance variability at the catchment scale: 1. Evidence of hydrologic similarity and space‐time symmetryWater Resources Research, 47
-
E. Istanbulluoglu, R. Bras (2004)
Vegetation-modulated landscape evolution: Effects of vegetation on landscape processes, drainage density, and topographyJournal of Geophysical Research, 110
-
D. Smith, S. Allen (1996)
Measurement of sap flow in plant stemsJournal of Experimental Botany, 47
-
Baldocchi (2001)
10.1175/1520‐0477(2001)082<2415:FANTTS>2.3.CO;2Bull. Am. Meteorol. Soc., 82
-
M. Durocher (1990)
Monitoring spatial variability of forest interceptionHydrological Processes, 4
-
S. Palmroth, G. Katul, D. Hui, H. McCarthy, R. Jackson, R. Oren (2010)
Estimation of long‐term basin scale evapotranspiration from streamflow time seriesWater Resources Research, 46
-
J. Clark (1998)
Why Trees Migrate So Fast: Confronting Theory with Dispersal Biology and the PaleorecordThe American Naturalist, 152
-
R. Brolsma, M. Bierkens (2007)
Groundwater–soil water–vegetation dynamics in a temperate forest ecosystem along a slopeWater Resources Research, 43
-
A. Kleidon, S. Schymanski, M. Stieglitz (2009)
Thermodynamics, irreversibility and optimality in land surface hydrology -
F. Dominguez, Praveen Kumar, E. Vivoni (2008)
Precipitation recycling variability and ecoclimatological stability - A study using NARR data. Pa -
D. Baldocchi, E. Falge, L. Gu, R. Olson, D. Hollinger, S. Running, P. Anthoni, C. Bernhofer, K. Davis, R. Evans, J. Fuentes, A. Goldstein, G. Katul, B. Law, X. Lee, Y. Malhi, T. Meyers, W. Munger, W. Oechel, K. Paw, K. Pilegaard, H. Schmid, R. Valentini, S. Verma, T. Vesala, K. Wilson, S. Wofsy (2001)
FLUXNET: A New Tool to Study the Temporal and Spatial Variability of Ecosystem-Scale Carbon Dioxide, Water Vapor, and Energy Flux DensitiesBulletin of the American Meteorological Society, 82
-
Schymanski (2008)
10.5194/hess‐12‐913‐2008Hydrol. Earth Syst. Sci., 12
-
E. Naumburg, R. Mata-González, R. Hunter, T. Mclendon, D. Martin (2005)
Phreatophytic Vegetation and Groundwater Fluctuations: A Review of Current Research and Application of Ecosystem Response Modeling with an Emphasis on Great Basin VegetationEnvironmental Management, 35
-
Hopp (2009)
10.5194/hess‐13‐2105‐2009Hydrol. Earth Syst. Sci., 13
-
P. Holmes (2005)
Ninety Plus Thirty Years of Nonlinear Dynamics: Less is More and More is DifferentInt. J. Bifurc. Chaos, 15
-
(1981)
On the calculation of the evaporation from land surface -
Robert, B., Jackson (2002)
THE GLOBAL BIOGEOGRAPHY OF ROOTSEcological Monographs, 72
-
J. Kalma, M. Sivapalan (1995)
Scale issues in hydrological modelling -
J. Yeakley, W. Swank, L. Swift, G. Hornberger, H. Shugart (1998)
Soil moisture gradients and controls on a southern Appalachian hillslope from drought through rechargeHydrology and Earth System Sciences, 2
-
Z. Kaczmarek (1990)
On the Sensitivity of Runoff to Climate Change -
S. Schymanski, M. Sivapalan, M. Roderick, J. Beringer, L. Hutley (2008)
An optimality-based model of the coupled soil moisture and root dynamicsHydrology and Earth System Sciences, 12
-
A. Rango, S. Tartowski, A. Laliberte, J. Wainwright, A. Parsons (2006)
Islands of hydrologically enhanced biotic productivity in natural and managed arid ecosystemsJournal of Arid Environments, 65
-
A. Zerihun, K. Montagu, M. Hoffmann, S. Bray (2006)
Patterns of Below- and Aboveground Biomass in Eucalyptus populnea Woodland Communities of Northeast Australia along a Rainfall GradientEcosystems, 9
-
Tuzet (2003)
10.1046/j.1365‐3040.2003.01035.xPlant Cell Environ., 26
-
Putuhena (1996)
10.1016/0022‐1694(95)02883‐8J. Hydrol., 180
-
Rasmussen (2010)
10.1007/s10533‐010‐9476‐8Biogeochemistry, 102
-
W. Greeley (1925)
The Relation of Geography to Timber SupplyEconomic Geography, 1
-
A. Vajda, A. Venäläinen, P. Hänninen, R. Sutinen (2006)
Effect of vegetation on snow cover at the northern timberline: A case study in Finnish LaplandSilva Fennica, 40
-
J. Kochendorfer, J. Ramirez
Hydrology and Earth System Sciences Discussions Ecohydrologic Controls on Vegetation Density and Evapotranspiration Partitioning across the Climatic Gradients of the Central United States Hessd Hessd -
D. Drewry, Praveen Kumar, S. Long, C. Bernacchi, Xin‐Zhong Liang, M. Sivapalan (2010)
Ecohydrological responses of dense canopies to environmental variability: 2. Role of acclimation under elevated CO2Journal of Geophysical Research, 115
-
M. Loranty, D. Mackay, B. Ewers, J. Adelman, E. Kruger (2008)
Environmental drivers of spatial variation in whole‐tree transpiration in an aspen‐dominated upland‐to‐wetland forest gradientWater Resources Research, 44
-
C. Ford, R. Hubbard, Brian Kloeppel, J. Vose (2007)
A comparison of sap flux-based evapotranspiration estimates with catchment-scale water balanceAgricultural and Forest Meteorology, 145
-
M. Peel, T. McMahon, B. Finlayson, F. Watson (2002)
Implications of the relationship between catchment vegetation type and the variability of annual runoffHydrological Processes, 16
-
P. Eagleson (1982)
Ecological optimality in water‐limited natural soil‐vegetation systems: 1. Theory and hypothesisWater Resources Research, 18
-
Siqueira (2006)
10.1111/j.1365‐2486.2006.01158.xGlobal Change Biol., 12
-
C. Zwieb, J. Eichler (2002)
Getting on target: the archaeal signal recognition particle.Archaea, 1 1
-
Stephenson (1998)
10.1046/j.1365‐2699.1998.00233.xJ. Biogeogr., 25
-
Hupp (2000)
10.1002/1099‐1085(200011/12)14:16/17<2991::AID‐HYP131>3.0.CO;2‐HHydrol. Processes, 14
-
R. Brolsma, L. Beek, M. Bierkens (2010)
Vegetation competition model for water and light limitation. II: Spatial dynamics of groundwater and vegetationEcological Modelling, 221
-
Huang (2008)
10.1007/s11104‐008‐9620‐6Plant Soil, 308
-
Valentin (1999)
10.1016/S0341‐8162(99)00053‐3Catena, 37
-
W. Marlatt, M. Budyko, David Miller (1975)
Climate and lifeJournal of Range Management, 28
-
Dooge (1992)
10.1175/1520‐0477(1992)073<2013:SORTCC>2.0.CO;2Bull. Am. Meteorol. Soc., 73
-
N. Barbier, P. Couteron, J. Lejoly, V. Deblauwe, O. Lejeune (2006)
Self‐organized vegetation patterning as a fingerprint of climate and human impact on semi‐arid ecosystemsJournal of Ecology, 94
-
D. Levia, E. Frost (2003)
A review and evaluation of stemflow literature in the hydrologic and biogeochemical cycles of forested and agricultural ecosystemsJournal of Hydrology, 274
-
R. Nemani, S. Running (1989)
Testing a theoretical climate-soil-leaf area hydrologic equilibrium of forests using satellite data and ecosystem simulationAgricultural and Forest Meteorology, 44
-
R. Scott, W. Cable, K. Hultine (2008)
The ecohydrologic significance of hydraulic redistribution in a semiarid savannaWater Resources Research, 44
-
Schenk (2002)
10.1890/0012‐9615(2002)072[0311:TGBOR]2.0.CO;2Ecol. Monogr., 72
-
Feddes (1976)
10.1016/0022‐1694(76)90017‐2J. Hydrol., 31
-
G. Botter, S. Zanardo, A. Porporato, I. Rodríguez‐Iturbe, A. Rinaldo (2008)
Ecohydrological model of flow duration curves and annual minimaWater Resources Research, 44
-
R. Horton (1933)
The Rôle of infiltration in the hydrologic cycleEos, Transactions American Geophysical Union, 14
-
Ludwig (2005)
10.1890/03‐0569Ecology, 86
-
Odion (2000)
10.1890/0012‐9615(2000)070[0149:FSHATF]2.0.CO;2Ecol. Monogr., 70
-
Puigdefabregas (1999)
10.1016/S0012‐8252(99)00046‐XEarth Sci. Rev., 48
-
R. Valencia, R. Foster, Gorky Villa, R. Condit, J. Svenning, Consuelo Hernández, K. Romoleroux, E. Losos, Else Magård, H. Balslev (2004)
Tree species distributions and local habitat variation in the Amazon: large forest plot in eastern EcuadorJournal of Ecology, 92
-
Oliveira (2005)
10.1007/s00442‐005‐0108‐2Oecologia, 145
-
F. Laio, A. Porporato, L. Ridolfi, I. Rodríguez‐Iturbe (2001)
Plants in water-controlled ecosystems: active role in hydrologic processes and response to water stress: II. Probabilistic soil moisture dynamicsAdvances in Water Resources, 24
-
Nemani (1989)
10.1016/0168‐1923(89)90020‐8Agric. For. Meteorol., 44
-
V. Cramer, R. Hobbs (2002)
Ecological consequences of altered hydrological regimes in fragmented ecosystems in southern Australia: Impacts and possible management responsesAustral Ecology, 27
-
Gang Huang, Xueyong Zhao, Yan‐gui Su, Halin Zhao, Tonghui Zhang (2008)
Vertical distribution, biomass, production and turnover of fine roots along a topographical gradient in a sandy shrublandPlant and Soil, 308
-
William Putuhena, I. Cordery (1996)
Estimation of interception capacity of the forest floorJournal of Hydrology, 180
-
Jackson (2001)
10.1890/1051‐0761(2001)011[1027:WIACW]2.0.CO;2Ecol. Appl., 11
-
Laio (2001)
10.1016/S0309‐1708(01)00005‐7Adv. Water Resour., 24
-
I. Rodríguez‐Iturbe, P. D’Odorico, F. Laio, L. Ridolfi, S. Tamea (2007)
Challenges in humid land ecohydrology: Interactions of water table and unsaturated zone with climate, soil, and vegetationWater Resources Research, 43
-
Dooge (1986)
10.1029/WR022i09Sp0046SWater Resour. Res., 22
-
Ducharne Ducharne, Koster Koster, Suarez Suarez, Stieglitz Stieglitz, Kumar Kumar (2000)
A catchment‐based approach to modeling land surface processes in a general circulation model: 2. Parameter estimation and model demonstrationJ. Geophys. Res., 105
-
T. Franz, Kelly Caylor, J. Nordbotten, I. Rodríguez‐Iturbe, M. Celia (2010)
An ecohydrological approach to predicting regional woody species distribution patterns in dryland ecosystemsAdvances in Water Resources, 33
-
Rodríguez‐Iturbe Rodríguez‐Iturbe, Porporato Porporato, Ridolfi Ridolfi, Isham Isham, Cox Cox (1999)
Water balance at a point: The role of climate, soil and vegetationProc. R. Soc. London A, 455
-
R. Donohue, M. Roderick, T. McVicar (2010)
Can dynamic vegetation information improve the accuracy of Budyko's hydrological model?Journal of Hydrology, 390
-
M. Sankaran, N. Hanan, R. Scholes, J. Ratnam, D. Augustine, B. Cade, J. Gignoux, S. Higgins, X. Roux, F. Ludwig, J. Ardo, F. Banyikwa, Andries Bronn, G. Bucini, Kelly Caylor, M. Coughenour, A. Diouf, W. Ekaya, C.J.W. Feral, E. February, P. Frost, P. Hiernaux, H. Hrabar, K. Metzger, H. Prins, S. Ringrose, W. Sea, Jörg Tews, J. Worden, N. Zambatis (2005)
Determinants of woody cover in African savannasNature, 438
-
H. Schenk (2008)
The Shallowest Possible Water Extraction Profile: A Null Model for Global Root DistributionsVadose Zone Journal, 7
-
D. Angers, J. Caron (1998)
Plant-induced Changes in Soil Structure: Processes and FeedbacksBiogeochemistry, 42
-
Thorburn (1993)
10.1016/0022‐1694(93)90126‐TJ. Hydrol., 150
-
R. Koster, Praveen Kumar, M. Suárez, A. Ducharne, M. Stieglitz (2000)
A catchment-based approach to modeling land surface processes in a general circulation model -
G. Blöschl (2006)
Hydrologic synthesis: Across processes, places, and scalesWater Resources Research, 42
-
Yeakley (1998)
10.5194/hess‐2‐41‐1998Hydrol. Earth Syst. Sci., 2
-
L. Band, D. Peterson, S. Running, J. Coughlan, R. Lammers, J. Dungan, R. Nemani (1991)
Forest ecosystem processes at the watershed scale: basis for distributed simulationEcological Modelling, 56
-
L. Iverson (1991)
Forest Resources of Illinois: What Do We Have and What Are They Doing for Us? -
(2007)
Effects of Groundwater Decline on Riparian Vegetation of Semiarid Regions : The San Pedro , Arizona -
R. Koster, M. Suárez, A. Ducharne, M. Stieglitz, Praveen Kumar (2000)
A catchment‐based approach to modeling land surface processes in a general circulation model: 1. Model structureJournal of Geophysical Research, 105
-
Cramer (2002)
10.1046/j.1442‐9993.2002.01215.xAustral Ecol., 27
-
Falkenmark Falkenmark (1997)
Meeting water requirements of an expanding world populationPhilos. Trans. R. Soc. London, Ser. B, 352
-
Kelly Caylor, T. Scanlon, I. Rodríguez‐Iturbe (2006)
Ecohydrological optimization of pattern and processes in water‐limited ecosystems: A trade‐off‐based hypothesisWater Resources Research, 45
-
D. Drewry, Praveen Kumar, S. Long, C. Bernacchi, Xin‐Zhong Liang, M. Sivapalan (2010)
Ecohydrological responses of dense canopies to environmental variability: 1. Interplay between vertical structure and photosynthetic pathwayJournal of Geophysical Research, 115
-
Abrahams (1984)
10.1016/0022‐1694(84)90061‐1J. Hydrol., 75
-
Mario Siqueira, G. Katul, D. Sampson, P. Stoy, J. Juang, H. McCarthy, R. Oren (2006)
Multiscale model intercomparisons of CO2 and H2O exchange rates in a maturing southeastern US pine forestGlobal Change Biology, 12
-
M. L'vovich (1979)
World water resources and their future -
A. Tuzet, A. Perrier, R. Leuning (2003)
A coupled model of stomatal conductance, photosynthesis and transpirationPlant Cell and Environment, 26
-
T. Hatton, J. Ruprecht, R. George (2003)
Preclearing hydrology of the Western Australia wheatbelt: Target for the futurePlant and Soil, 257
-
E. Istanbulluoglu, O. Yetemen, E. Vivoni, H. Gutiérrez‐Jurado, R. Bras (2008)
Eco‐geomorphic implications of hillslope aspect: Inferences from analysis of landscape morphology in central New MexicoGeophysical Research Letters, 35
-
J. Stromberg, R. Tiller, B. Richter (1996)
Effects of Groundwater Decline on Riparian Vegetation of Semiarid Regions: The San Pedro, ArizonaEcological Applications, 6
-
S. Schymanski, M. Roderick, M. Sivapalan, L. Hutley, J. Beringer (2007)
A test of the optimality approach to modelling canopy properties and CO2 uptake by natural vegetation.Plant, cell & environment, 30 12
-
Z. Gribovszki, J. Szilágyi, P. Kalicz (2010)
Diurnal fluctuations in shallow groundwater levels and streamflow rates and their interpretation – A reviewJournal of Hydrology, 385
-
K. Farley, E. Jobbágy, R. Jackson (2005)
Effects of afforestation on water yield: a global synthesis with implications for policyGlobal Change Biology, 11
-
S. Burgess, M. Adams, N. Turner, C. Ong (1998)
The redistribution of soil water by tree root systemsOecologia, 115
-
D. Marks, A. Winstral, M. Seyfried (2002)
Simulation of terrain and forest shelter effects on patterns of snow deposition, snowmelt and runoff over a semi‐arid mountain catchmentHydrological Processes, 16
-
J. Nippert, A. Knapp (2007)
Linking water uptake with rooting patterns in grassland speciesOecologia, 153
-
G. Segura, P. Balvanera, E. Duran, Alfredo Pérez (2002)
Tree community structure and stem mortality along a water availability gradient in a Mexican tropical dry forestPlant Ecology, 169
-
Naumburg (2005)
10.1007/s00267‐004‐0194‐7Environ. Manage. N. Y., 35
-
M. Mccabe, E. Wood (2006)
Scale influences on the remote estimation of evapotranspiration using multiple satellite sensorsRemote Sensing of Environment, 105
-
O. Vetaas (1992)
Micro‐site effects of trees and shrubs in dry savannasJournal of Vegetation Science, 3
-
Ponce (1995)
10.1016/0022‐1694(95)02745‐BJ. Hydrol., 173
-
C. Harman, P. Troch, M. Sivapalan (2011)
Functional model of water balance variability at the catchment scale: 2. Elasticity of fast and slow runoff components to precipitation change in the continental United StatesWater Resources Research, 47
-
A. Brown, Lu Zhang, T. McMahon, A. Western, R. Vertessy (2005)
A review of paired catchment studies for determining changes in water yield resulting from alterations in vegetationJournal of Hydrology, 310
-
A. Abrahams, John Ponczynski (1984)
Drainage density in relation to precipitation intensity in the U.S.A.Journal of Hydrology, 75
-
Schymanski (2007)
10.1111/j.1365‐3040.2007.01728.xPlant Cell Environ., 30
-
O. Yetemen, E. Istanbulluoglu, E. Vivoni (2010)
The implications of geology, soils, and vegetation on landscape morphology: Inferences from semi-arid basins with complex vegetation patterns in Central New Mexico, USAGeomorphology, 116
-
R. Scott, W. Cable, T. Huxman, P. Nagler, M. Hernández, D. Goodrich (2008)
Multiyear riparian evapotranspiration and groundwater use for a semiarid watershedJournal of Arid Environments, 72
-
(2006)
Dryland Ecohydrology, 1st ed., pp -
D. Collins, R. Bras (2010)
Climatic and ecological controls of equilibrium drainage density, relief, and channel concavity in dry landsWater Resources Research, 46
-
set8@duke.edu) THOMPSON ET AL.: SCALING OF VEGETATION AND CATCHMENT WATER BALANCE W00J03 W00J03 -
Thorsten Wagener, M. Sivapalan, P. Troch, B. McGlynn, C. Harman, H. Gupta, Praveen Kumar, P. Rao, N. Basu, Jennifer Wilson (2010)
The future of hydrology: An evolving science for a changing worldWater Resources Research, 46
-
B. Wilcox, Yun Huang (2009)
Woody plant encroachment paradox: Rivers rebound as degraded grasslands convert to woodlandsGeophysical Research Letters, 37
-
L. Descroix, D. Viramontes, Juan Estrada, J. Barrios, J. Asseline (2007)
Investigating the spatial and temporal boundaries of Hortonian and Hewlettian runoff in Northern MexicoJournal of Hydrology, 346
-
Oishi (2010)
10.1007/s10021‐010‐9328‐3Ecosystems, 13
-
Sperry (2000)
10.1016/S0168‐1923(00)00144‐1Agric. For. Meteorol., 104
-
S. Jackson, J. Overpeck (2000)
Responses of plant populations and communities to environmental changes of the late Quaternary, 26
-
C. Allen, D. Breshears (1998)
Drought-induced shift of a forest-woodland ecotone: rapid landscape response to climate variation.Proceedings of the National Academy of Sciences of the United States of America, 95 25
-
T. Huxman, Melinda Smith, Philip Fay, A. Knapp, M. Shaw, M. Loik, Stanley Smith, D. Tissue, John Zak, J. Weltzin, W. Pockman, Osvaldo Sala, Brent Haddad, J. Harte, George Koch, S. Schwinning, Eric Small, David Williams (2004)
Convergence across biomes to a common rain-use efficiencyNature, 429
-
Bin Li, R. Avissar (1994)
The impact of spatial variability of land-surface characteristics on land-surface heat fluxesJournal of Climate, 7
-
Hanbo Yang, Dawen Yang, Z. Lei, F. Sun (2008)
New analytical derivation of the mean annual water‐energy balance equationWater Resources Research, 44
-
L. Lesack, J. Melack (1995)
Flooding Hydrology and Mixture Dynamics of Lake Water Derived from Multiple Sources in an Amazon Floodplain LakeWater Resources Research, 31
-
Jackson (2000)
10.1666/0094‐8373(2000)26[194:ROPPAC]2.0.CO;2Paleobiology, 26
-
Levia (2003)
10.1016/S0022‐1694(02)00399‐2J. Hydrol., 274
-
A. Oishi, R. Oren, K. Novick, S. Palmroth, G. Katul (2010)
Interannual Invariability of Forest Evapotranspiration and Its Consequence to Water Flow DownstreamEcosystems, 13
-
C. Tague (2009)
Assessing climate change impacts on alpine stream‐flow and vegetation water use: mining the linkages with subsurface hydrologic processesHydrological Processes, 23
-
Wassen Wassen, Barendregt Barendregt, Palcyzski Palcyzski, Desmidt Desmidt, Demars Demars (1990)
The relationship between fen vegetation gradients, groundwater‐flow and flooding in an undrained valley mire at BiebrzaPol. J. Ecol., 78
-
N. Viney, M. Sivapalan (2004)
A framework for scaling of hydrologic conceptualizations based on a disaggregation–aggregation approachHydrological Processes, 18
-
Ponce (1995)
10.1016/0022‐1694(95)02739‐CJ. Hydrol., 173
-
R. Crockford, D. Richardson (2000)
Partitioning of rainfall into throughfall, stemflow and interception: effect of forest type, ground cover and climate.Hydrological Processes, 14
-
Montanari A. (2010)
Getting on targetPublic Serv. Rev. Sci. Technol., 7
-
Barbier (2006)
10.1111/j.1365‐2745.2006.01126.xJ. Ecol., 94
-
J. Brooks, H. Barnard, R. Coulombe, J. McDonnell (2010)
Ecohydrologic separation of water between trees and streams in a Mediterranean climateNature Geoscience, 3
-
E. Martinez-Meza, W. Whitford (1996)
Stemflow, throughfall and channelization of stemflow by roots in three Chihuahuan desert shrubsJournal of Arid Environments, 32
-
G. Boggs (2010)
Assessment of SPOT 5 and QuickBird remotely sensed imagery for mapping tree cover in savannasInt. J. Appl. Earth Obs. Geoinformation, 12
-
Farley (2005)
10.1111/j.1365‐2486.2005.01011.xGlobal Change Biol., 11
-
Oscar Mesa, Edward Mifflin (1986)
On the Relative Role of Hillslope and Network Geometry in Hydrologic Response -
D. Mackay, B. Ewers, M. Loranty, Eric Kruger (2010)
On the representativeness of plot size and location for scaling transpiration from trees to a standJournal of Geophysical Research, 115
-
Thorsten Wagener, M. Sivapalan, J. McDonnell, R. Hooper, V. Lakshmi, Xu Liang, Praveen Kumar (2004)
Predictions in ungauged basins as a catalyst for multidisciplinary hydrologyEos, Transactions American Geophysical Union, 85
-
W. Shuttleworth, J. Gash, C. Lloyd, D. McNeill, C. Moore, J. Wallace (1988)
An integrated micrometeorological system for evaporation measurementAgricultural and Forest Meteorology, 43
-
M. Rietkerk, S. Dekker, P. Ruiter, J. Koppel (2004)
Self-Organized Patchiness and Catastrophic Shifts in EcosystemsScience, 305
-
Kochendorfer (2010)
10.5194/hess‐14‐2121‐2010Hydrol. Earth Syst. Sci., 14
-
D'Odorico (2006)
10.1007/1-4020-4260-4 -
L. Band, Pitman Patterson, R. Nemani, S. Running (1993)
Forest ecosystem processes at the watershed scale: incorporating hillslope hydrologyAgricultural and Forest Meteorology, 63
-
Valencia (2004)
10.1111/j.0022‐0477.2004.00876.xJ. Ecol., 92
-
L. Hopp, C. Harman, S. Desilets, C. Graham, J. McDonnell, P. Troch (2009)
Hillslope hydrology under glass: confronting fundamental questions of soil-water-biota co-evolution at Biosphere 2Hydrology and Earth System Sciences, 13
-
M. Wassen, A. Barendregt, A. Pałczyński, J. Smidt, H. Mars (1990)
The relationship between fen vegetation gradients groundwater flow and flooding in an undrained valley mire at biebrza, PolandJournal of Ecology, 78
-
V. Gupta, D. Dawdy (1995)
Physical interpretations of regional variations in the scaling exponents of flood quantilesHydrological Processes, 9
-
H. Meerveld, J. McDonnell (2006)
On the interrelations between topography, soil depth, soil moisture, transpiration rates and species distribution at the hillslope scaleAdvances in Water Resources, 29
-
R. Jackson, S. Carpenter, C. Dahm, D. McKnight, R. Naiman, S. Postel, S. Running (2001)
Water in a changing worldEcological Applications, 11
-
Shuttleworth (1988)
10.1016/0168‐1923(88)90056‐1Agric. For. Meteorol., 43
-
Campbell Webb, D. Peart (2000)
Habitat associations of trees and seedlings in a Bornean rain forestJournal of Ecology, 88
-
T. Hwang, L. Band, T. Hales (2009)
Ecosystem processes at the watershed scale: Extending optimality theory from plot to catchmentWater Resources Research, 45
-
Band (1991)
10.1016/0304‐3800(91)90199‐BEcol. Modell., 56
-
D. Genereux, Michael Jordan (2006)
Interbasin groundwater flow and groundwater interaction with surface water in a lowland rainforest, Costa Rica: A reviewJournal of Hydrology, 320
-
M. Kirkby, K. Beven (1979)
A physically based, variable contributing area model of basin hydrology, 24
-
F. Laio, S. Tamea, L. Ridolfi, P. D’Odorico, I. Rodríguez‐Iturbe (2009)
Ecohydrology of groundwater‐dependent ecosystems: 1. Stochastic water table dynamicsWater Resources Research, 45
-
(2008)
Multiyear riparian evapotranspiration and groundwater use for a semiarid watershed -
J. Dooge (1992)
Sensitivity of Runoff to Climate Change: A Hortonian ApproachBulletin of the American Meteorological Society, 73
-
Boisvenue (2006)
10.1111/j.1365‐2486.2006.01134.xGlobal Change Biol., 12
-
P. Milly (1994)
Climate, soil water storage, and the average annual water balanceWater Resources Research, 30
-
B. Bond, Julia Jones, G. Moore, N. Phillips, D. Post, J. McDonnell (2002)
The zone of vegetation influence on baseflow revealed by diel patterns of streamflow and vegetation water use in a headwater basinHydrological Processes, 16
-
R. Freeze, P. Witherspoon (1967)
Theoretical analysis of regional groundwater flow: 2. Effect of water‐table configuration and subsurface permeability variationWater Resources Research, 3
-
(2005)
Co‐evolution of climate, vegetation, soil and air -
M. Lefsky, W. Cohen, G. Parker, D. Harding (2002)
Lidar Remote Sensing for Ecosystem Studies, 52
-
A. Rinaldo, I. Rodríguez‐Iturbe, R. Rigon, R. Bras, E. Ijjász-Vásquez, A. Marani (1992)
Minimum energy and fractal structures of drainage networksWater Resources Research, 28
-
Nippert (2007)
10.1007/s00442‐007‐0745‐8Oecologia, 153
-
J. Puigdefabregas, A. Solé, L. Gutiérrez, G. Barrio, M. Boer (1999)
Scales and processes of water and sediment redistribution in drylands: results from the Rambla Honda field site in Southeast SpainEarth-Science Reviews, 48
-
(1998)
World water resources: A new appraisal and assessment for the twenty-first century: A summary of the monograph -
V. Poncea, A. Shetty (1995)
A conceptual model of catchment water balance: 2. Application to runoff and baseflow modelingJournal of Hydrology, 173
-
R. Oliveira, T. Dawson, S. Burgess, D. Nepstad (2005)
Hydraulic redistribution in three Amazonian treesOecologia, 145
-
N. Stephenson (1998)
Actual evapotranspiration and deficit: biologically meaningful correlates of vegetation distribution across spatial scalesJournal of Biogeography, 25
-
B. Ruddell, Praveen Kumar (2009)
Ecohydrologic process networks: 1. IdentificationWater Resources Research, 45
-
R. Feddes, P. Kowalik, Krystina Kolinska-Malinka, H. Zaradny (1976)
Simulation of field water uptake by plants using a soil water dependent root extraction functionJournal of Hydrology, 31
-
A. Guswa, M. Celia, I. Rodríguez‐Iturbe (2002)
Models of soil moisture dynamics in ecohydrology: A comparative studyWater Resources Research, 38
-
M. Falkenmark (1997)
Meeting water requirements of an expanding world populationPhilosophical Transactions of the Royal Society B, 352
-
Kelly Caylor, S. Manfreda, I. Rodríguez‐Iturbe (2003)
On the coupled geomorphological and ecohydrological organization of river basinsAdvances in Water Resources, 28
-
Horton Horton (1933)
The role of infiltration in the hydrologic cycleEos Trans. AGU, 14
-
J. Clark, C. Fastie, G. Hurtt, S. Jackson, Carter Johnson, G. King, M. Lewis, J. Lynch, S. Pacala, C. Prentice, E. Schupp, T. Webb,, P. Wyckoff (1998)
Reid's Paradox of Rapid Plant Migration Dispersal theory and interpretation of paleoecological recordsBioScience, 48
-
Dominguez Dominguez, Kumar Kumar (2008)
Precipitation recycling variability and ecoclimatological stability—A study using NARR data. Part I: Central U.S. Plains ecoregionJ. Clim., 21
-
Zerihun (2006)
10.1007/s10021‐005‐0155‐xEcosystems, 9
-
J. Dooge (1986)
Looking for hydrologic lawsJournal of Hydrology, 96
-
I. Rodríguez‐Iturbe, A. Porporato, L. Ridolfi, V. Isham, D. Coxi (1999)
Probabilistic modelling of water balance at a point: the role of climate, soil and vegetationProceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, 455
-
V. Poncea, A. Shetty (1995)
A conceptual model of catchment water balance: 1. Formulation and calibrationJournal of Hydrology, 173
-
Dominguez (2008)
10.1175/2008JCLI1756.1J. Clim., 21
-
G. Katul, S. Palmroth, R. Oren (2008)
Leaf stomatal responses to vapour pressure deficit under current and CO(2)-enriched atmosphere explained by the economics of gas exchange.Plant, cell & environment, 32 8
-
Li (1994)
10.1175/1520‐0442(1994)007<0527:TIOSVO>2.0.CO;2J. Clim., 7
-
C. Hupp (2000)
Hydrology, geomorphology and vegetation of Coastal Plain rivers in the south-eastern USA.Hydrological Processes, 14
-
Band (1993)
10.1016/0168‐1923(93)90024‐CAgric. For. Meteorol., 63
-
J. Sperry (2000)
Hydraulic constraints on plant gas exchangeAgricultural and Forest Meteorology, 104
-
P. Weiskel, R. Vogel, P. Steeves, Philip Zarriello, L. Desimone, Kernell Ries (2007)
Water use regimes: Characterizing direct human interaction with hydrologic systemsWater Resources Research, 43
-
A. Western, R. Grayson, G. Blöschl, G. Willgoose, T. McMahon (1999)
Observed spatial organization of soil moisture and its relation to terrain indicesWater Resources Research, 35
-
G. Blöschl, M. Sivapalan (1995)
Scale issues in hydrological modelling: A reviewHydrological Processes, 9
-
C. Boisvenue, S. Running (2006)
Impacts of climate change on natural forest productivity – evidence since the middle of the 20th centuryGlobal Change Biology, 12
-
P. Vitousek (1994)
Beyond Global Warming: Ecology and Global ChangeEcology, 75
-
A. Porporato, F. Laio, L. Ridolfi, I. Rodríguez‐Iturbe (2001)
Plants in water-controlled ecosystems: active role in hydrologic processes and response to water stress: III. Vegetation water stressAdvances in Water Resources, 24
-
P. Troch, G. Martinez, V. Pauwels, M. Durcik, M. Sivapalan, C. Harman, P. Brooks, H. Gupta, T. Huxman (2009)
Climate and vegetation water use efficiency at catchment scalesHydrological Processes, 23
-
S. Thompson, C. Harman, P. Heine, G. Katul (2010)
Vegetation-infiltration relationships across climatic and soil type gradientsJournal of Geophysical Research, 115
-
Dooge Dooge (1986)
Looking for hydrologic lawsWater Resour. Res., 22
-
J. McDonnell, M. Sivapalan, K. Vaché, S. Dunn, G. Grant, R. Haggerty, Christoph Hinz, R. Hooper, J. Kirchner, M. Roderick, J. Selker, M. Weiler (2007)
Moving beyond heterogeneity and process complexity: A new vision for watershed hydrologyWater Resources Research, 43
-
Webb (2000)
10.1046/j.1365‐2745.2000.00462.xJ. Ecol., 88
-
R. Grayson, A. Western, F. Chiew, G. Blöschl (1997)
Preferred states in spatial soil moisture patterns: Local and nonlocal controlsWater Resources Research, 33
-
C. Rasmussen, P. Troch, J. Chorover, P. Brooks, J. Pelletier, T. Huxman (2011)
An open system framework for integrating critical zone structure and functionBiogeochemistry, 102
-
R. Muneepeerakul, Andrea Rinaldo, I. Rodríguez‐Iturbe (2007)
Effects of river flow scaling properties on riparian width and vegetation biomassWater Resources Research, 43
-
Lu Zhang, W. Dawes, G. Walker (2001)
Response of mean annual evapotranspiration to vegetation changes at catchment scaleWater Resources Research, 37
- Publisher
- Wiley
- Copyright
- Copyright © 2011 by the American Geophysical Union.
- ISSN
- 0043-1397
- eISSN
- 1944-7973
- DOI
- 10.1029/2010WR009998
- Publisher site
- See Article on Publisher Site
Abstract
The difficulties in predicting whole catchment water balance from observations at patch scales motivate a search for theories that can account for the complexity of interactions in catchments. In this paper we suggest that the spatial patterns of vegetation may offer a lens through which to investigate scale dependence of hydrology within catchments. Vegetation patterns are attractive because they are observable drivers of evapotranspiration, often a dominant component in catchment water balance, and because the spatial distribution of vegetation is often driven by patterns of water availability. We propose that nontrivial, scale‐dependent spatial patterns in both vegetation distribution and catchment water balance are generated by the presence of a convergent network of flow paths and a two‐way feedback between vegetation as a driver of evapotranspiration and vegetation distribution as a signature of water availability. Implementing this hypothesis via a simple network model demonstrated that such organization was controlled by catchment properties related to aridity, the network topology, the sensitivity of the vegetation response to water availability, and the point‐scale controls on partitioning between evapotranspiration and lateral drainage. The resulting self‐organization generated spatial dependence in areally averaged hydrologic variables, water balance, and parameters describing hydrological partitioning. This spatial scale dependence provides a theoretical approach to connect water balance at patch and catchment scales. Theoretical and empirical studies for understanding the controls of vegetation spatial distribution, point‐scale hydrological partitioning, and the implications of complex flow network topologies on the spatial scale dependence of catchment water balance are proposed as a research agenda for catchment ecohydrology.
Journal
Water Resources Research – Wiley
Published: Oct 1, 2011