Mechanistic effects of low-flow hydrology on riverine ecosystems: ecological principles and consequences of alteration

Abstract.  Alterations to the natural flow regime affect the structure and function of rivers and wetlands and contribute to loss of biodiversity worldwide. Although the effects of flow regulation have been relatively well studied, a lack of synthesis of the ecological consequences of low flows and droughts impedes research progress and our grasp of the mechanistic effects of human-induced water reductions on riverine ecosystems. We identified 6 ecologically relevant hydrological attributes of low flow (antecedent conditions, duration, magnitude, timing and seasonality, rate of change, and frequency) that act within the temporal hierarchy of the flow regime and a spatial context. We synthesized the literature to propose 4 principles that outline the mechanistic links between these low-flow attributes and the processes and patterns within riverine ecosystems. First, low flows control the extent of physical aquatic habitat, thereby affecting the composition of biota, trophic structure, and carrying capacity. Second, low flows mediate changes in habitat conditions and water quality, which in turn, drive patterns of distribution and recruitment of biota. Third, low flows affect sources and exchange of material and energy in riverine ecosystems, thereby affecting ecosystem production and biotic composition. Last, low flows restrict connectivity and diversity of habitat, thereby increasing the importance of refugia and driving multiscale patterns in biotic diversity. These principles do not operate in isolation, and many of the ecological pathways that are affected by low flows are likely to overlap or occur simultaneously, potentially resulting in synergistic and complex effects. Last, we outlined major human-induced threats to low-flow hydrology and how they act upon the ecologically relevant hydrological attributes of low flow to affect potential changes in riverine ecosystem integrity. The mechanistic links described in this synthesis can be used to develop and test hypotheses of low-flow hydrological–ecological response relationships in a cause–effect framework that will have value for both research and river flow management. Continued experimental research and ongoing consolidation of ecological information will improve our understanding and ability to predict consequences of low-flow alteration on river, floodplain, and estuarine ecosystems.

[1]  C. Frissell,et al.  A hierarchical framework for stream habitat classification: Viewing streams in a watershed context , 1986 .

[2]  J. Cahoon,et al.  Assessment of Trout Passage through Culverts in a Large Montana Drainage during Summer Low Flow , 2009 .

[3]  David L. Strayer,et al.  Effects of Land Cover on Stream Ecosystems: Roles of Empirical Models and Scaling Issues , 2003 .

[4]  David A. Lytle,et al.  Severe drought drives novel community trajectories in desert stream pools , 2011 .

[5]  M. Benbow,et al.  Effect of water removal on introduced caddisflies from a tropical mountain stream , 2003 .

[6]  R. Kingsford,et al.  Small environmental flows, drought and the role of refugia for freshwater fish in the Macquarie Marshes, arid Australia , 2009 .

[7]  K. Nislow,et al.  Brook trout, Salvelinus fontinalis, microhabitat selection and diet under low summer stream flows , 2006 .

[8]  K. Walker,et al.  Effects of water level regulation on algal biofilms in the River Murray, South Australia , 2000 .

[9]  T. McMahon,et al.  Droughts and anti‐droughts: the low flow hydrology of Australian rivers , 2003 .

[10]  J. Richardson,et al.  RESPONSES OF SEVEN SPECIES OF NATIVE FRESHWATER FISH AND A SHRIMP TO LOW LEVELS OF DISSOLVED OXYGEN , 1999 .

[11]  K S McCann,et al.  The dynamics of spatially coupled food webs. , 2005, Ecology letters.

[12]  Barry L. Johnson,et al.  Responses of Bluegills and Black Crappies to Dissolved Oxygen, Temperature, and Current in Backwater Lakes of the Upper Mississippi River during Winter , 1995 .

[13]  B. Letcher,et al.  Size-dependent survival of brook trout Salvelinus fontinalis in summer: effects of water temperature and stream flow. , 2010, Journal of fish biology.

[14]  T. Kume,et al.  Changes in low flow with the conversion of a coniferous plantation to a broad‐leaved forest in a summer precipitation region, Japan , 2009 .

[15]  M. Magalhães,et al.  Functional heterogeneity of dry‐season fish refugia across a Mediterranean catchment: the role of habitat and predation , 2002 .

[16]  A. Boulton,et al.  Aspects of the Hyporheic Zone below the Terminus of a South Australian Arid-zone Stream , 1993 .

[17]  Catherine Leigh,et al.  Hydrological changes and ecological impacts associated with water resource development in large floodplain rivers in the Australian tropics , 2008 .

[18]  B. Downes Back to the future: little‐used tools and principles of scientific inference can help disentangle effects of multiple stressors on freshwater ecosystems , 2010 .

[19]  B. Biggs,et al.  Benthic community dynamics during summer low‐flows in two rivers of contrasting enrichment 1. Periphyton , 2003 .

[20]  D. Baldwin,et al.  Influence of extreme drawdown on water quality downstream of a large water storage reservoir , 2009 .

[21]  P. S. Lake,et al.  Disturbance, patchiness, and diversity in streams , 2000, Journal of the North American Benthological Society.

[22]  T. Datry Benthic and hyporheic invertebrate assemblages along a flow intermittence gradient: effects of duration of dry events , 2012 .

[23]  D. Crook,et al.  Using biological information to support proactive strategies for managing freshwater fish during drought , 2010 .

[24]  R. Ryel,et al.  FLOW–SEDIMENT–BIOTA RELATIONS: IMPLICATIONS FOR RIVER REGULATION EFFECTS ON NATIVE FISH ABUNDANCE , 2002 .

[25]  S. W. Miller,et al.  Does species trait composition influence macroinvertebrate responses to irrigation water withdrawals: Evidence from the Intermountain West, USA , 2010 .

[26]  S. Bunn,et al.  Sources of organic carbon supporting the food web of an arid zone floodplain river , 2003 .

[27]  M. Delong,et al.  THE INFLUENCE OF HYDROLOGICAL CONNECTIVITY ON FOOD WEB STRUCTURE IN FLOODPLAIN LAKES , 2012 .

[28]  Andrew J. Boulton,et al.  Parallels and contrasts in the effects of drought on stream macroinvertebrate assemblages , 2003 .

[29]  Factors affecting fish assemblage structure during seasonal stream drying , 2007 .

[30]  Pd Baker,et al.  Major cyanobacterial bloom in the Barwon-Darling River, Australia, in 1991, and underlying limnological conditions , 1996 .

[31]  J. Gunn,et al.  Brook charr mortalities during extreme temperature events in Sutton River, Hudson Bay Lowlands, Canada , 2010, Hydrobiologia.

[32]  P. Wood,et al.  Benthic and hyporheic invertebrate community responses to seasonal flow recession in a groundwater‐dominated stream , 2011 .

[33]  R. Rader,et al.  Influence of mild to severe flow alterations on invertebrates in three mountain streams , 1999 .

[34]  A. Arthington,et al.  Sequential floods drive 'booms' and wetland persistence in dryland rivers: a synthesis , 2010 .

[35]  B. Biggs,et al.  HYDRAULIC HABITAT OF PLANTS IN STREAMS , 1996 .

[36]  C. Townsend,et al.  Long-term effects of local disturbance history on mobile stream invertebrates , 2000, Oecologia.

[37]  T. McMahon,et al.  The impact of land use change on catchment hydrology in large catchments: The Comet River, Central Queensland, Australia , 2006 .

[38]  V. Smakhtin Low flow hydrology: a review , 2001 .

[39]  M. Moore,et al.  Synergism and antagonism among multiple stressors , 1999 .

[40]  Simon Williams,et al.  Hydraulic microhabitats and the distribution of macroinvertebrate assemblages in riffles , 2005 .

[41]  C. Dahm,et al.  Coupled biogeochemical and hydrological responses of streams and rivers to drought , 2003 .

[42]  D. Lytle,et al.  Adaptation to natural flow regimes. , 2004, Trends in ecology & evolution.

[43]  S. W. Miller,et al.  Resistance and resilience of macroinvertebrates to irrigation water withdrawals , 2007 .

[44]  Hilary E. Berkman,et al.  Effect of siltation on stream fish communities , 1987, Environmental Biology of Fishes.

[45]  K. Hartman,et al.  Drought effect on stream morphology and brook trout (Salvelinus fontinalis) populations in forested headwater streams , 2004, Hydrobiologia.

[46]  B. Robson,et al.  Drought refuges affect algal recolonization in intermittent streams , 2004 .

[47]  N. Grimm,et al.  Responses of macroinvertebrate communities to long‐term flow variability in a Sonoran Desert stream , 2010 .

[48]  G. Petts,et al.  Assessing the ecological effects of groundwater abstraction on chalk streams: Three examples from Eastern England , 1993 .

[49]  Does Groundwater Abstraction Cause Degradation of Rivers and Wetlands? , 2000 .

[50]  T. C. Bjornn,et al.  Influence of Flow and Temperature on Survival of Wild Subyearling Fall Chinook Salmon in the Snake River , 2003 .

[51]  D. Magoulick,et al.  The role of refugia for fishes during drought: a review and synthesis , 2003 .

[52]  S. Sabater,et al.  Comparing fish assemblages and trophic ecology of permanent and intermittent reaches in a Mediterranean stream , 2010, Hydrobiologia.

[53]  D. Arscott,et al.  Aquatic invertebrate community structure along an intermittence gradient: Selwyn River, New Zealand , 2010, Journal of the North American Benthological Society.

[54]  R. Livingston Trophic response of estuarine fishes to long-term changes of river runoff , 1997 .

[55]  B. Chessman,et al.  Macroinvertebrate traits distinguish unregulated rivers subject to water abstraction , 2011, Journal of the North American Benthological Society.

[56]  B. Robson,et al.  The influence of reduced flow during a drought on patterns of variation in macroinvertebrate assemblages across a spatial hierarchy in two lowland rivers , 2006 .

[57]  P. Groffman,et al.  The urban stream syndrome: current knowledge and the search for a cure , 2005, Journal of the North American Benthological Society.

[58]  A. B. W. James,et al.  The response of invertebrates to a gradient of flow reduction - an instream channel study in a New Zealand lowland river. , 2009 .

[59]  A. Suren,et al.  The effects of plant growth on stream invertebrate communities during low flow: a conceptual model , 2010, Journal of the North American Benthological Society.

[60]  Jonathan M. Chase,et al.  Navigating the multiple meanings of β diversity: a roadmap for the practicing ecologist. , 2011, Ecology letters.

[61]  Robert J. Naiman,et al.  Disturbance regimes, resilience, and recovery of animal communities and habitats in lotic ecosystems , 1990 .

[62]  S. Townsend,et al.  The seasonal accrual and loss of benthic algae (Spirogyra) in the Daly River, an oligotrophic river in tropical Australia , 2005 .

[63]  S. Hamilton,et al.  Flow variability in dryland rivers: boom, bust and the bits in between , 2006 .

[64]  B. Preston,et al.  Screening climatic and non-climatic risks to Australian catchments , 2008 .

[65]  R. Kingsford,et al.  Long-term trends of shorebird populations in eastern Australia and impacts of freshwater extraction , 2008 .

[66]  P. Humphries,et al.  Fish, Flows and Flood Plains: Links between Freshwater Fishes and their Environment in the Murray-Darling River System, Australia , 1999, Environmental Biology of Fishes.

[67]  R. Death,et al.  Is structure or function a better measure of the effects of water abstraction on ecosystem integrity , 2009 .

[68]  R. Sparks,et al.  The Natural Flow Regime , 2006 .

[69]  Effects of residual flow and habitat fragmentation on distribution and movement of bullhead (Cottus gobio L.) in an alpine stream , 2000 .

[70]  M. V. Vliet,et al.  Impact of summer droughts on the water quality of the Meuse river , 2008 .

[71]  E. García‐Berthou,et al.  Assessing effects of water abstraction on fish assemblages in Mediterranean streams , 2010 .

[72]  D. Mayer,et al.  Does the quantity and timing of fresh water flowing into a dry tropical estuary affect year-class strength of barramundi (Lates calcarifer)? , 2004 .

[73]  K. Fausch,et al.  DYNAMICS OF INTERMITTENT STREAM HABITAT REGULATE PERSISTENCE OF A THREATENED FISH AT MULTIPLE SCALES , 2000 .

[74]  Hans W Paerl,et al.  Controlling harmful cyanobacterial blooms in a world experiencing anthropogenic and climatic-induced change. , 2011, The Science of the total environment.

[75]  A. Arthington,et al.  Basic Principles and Ecological Consequences of Altered Flow Regimes for Aquatic Biodiversity , 2002, Environmental management.

[76]  F. Sabater,et al.  Drought and postdrought recovery cycles in an intermittent Mediterranean stream: structural and functional aspects , 2005, Journal of the North American Benthological Society.

[77]  J. Cotton,et al.  The effects of seasonal changes to in-stream vegetation cover on patterns of flow and accumulation of sediment , 2006 .

[78]  M. Power,et al.  HOW FINE SEDIMENT IN RIVERBEDS IMPAIRS GROWTH AND SURVIVAL OF JUVENILE SALMONIDS , 2004 .

[79]  R. Death,et al.  Do stream macroinvertebrates use instream refugia in response to severe short‐term flow reduction in New Zealand streams? , 2008 .

[80]  A. Petry,et al.  Hydrological connectivity in coastal inland systems: lessons from a Neotropical fish metacommunity , 2010 .

[81]  G. Petts,et al.  The effects of water abstractions on invertebrate communities in U.K. streams , 1995, Hydrobiologia.

[82]  R. Death,et al.  Stream ecosystem functioning under reduced flow conditions. , 2007, Ecological applications : a publication of the Ecological Society of America.

[83]  R. Death Disturbance and riverine benthic communities: What has it contributed to general ecological theory? , 2010 .

[84]  N. Prat,et al.  Macroinvertebrate community structure and biological traits related to flow permanence in a Mediterranean river network , 2007, Hydrobiologia.

[85]  S. Bunn,et al.  Dynamic stability in dry season food webs within tropical floodplain rivers , 2010 .

[86]  T. Elsdon,et al.  Extensive drought negates human influence on nutrients and water quality in estuaries. , 2009, The Science of the total environment.

[87]  S. Larned,et al.  Invertebrate and microbial responses to inundation in an ephemeral river reach in New Zealand: effects of preceding dry periods , 2007, Aquatic Sciences.

[88]  Alison J. King,et al.  Potential ecological effects of water extraction in small, unregulated streams , 2006 .

[89]  M. Przybylska,et al.  Phytoplankton composition and constraints to biomass in the middle reaches of an Australian tropical river during base flow , 2012 .

[90]  Nico Salmaso,et al.  Factors controlling the seasonal development and distribution of the phytoplankton community in the lowland course of a large river in Northern Italy (River Adige) , 2008, Aquatic Ecology.

[91]  A. Arthington,et al.  Ecological roles and threats to aquatic refugia in arid landscapes: dryland river waterholes , 2010 .

[92]  Ramchand Oad,et al.  The role of groundwater pumping and drought in shaping ecological futures for stream fishes in a dryland river basin of the western Great Plains, USA , 2011 .

[93]  N. Loneragan,et al.  River flows and estuarine ecosystems: Implications for coastal fisheries from a review and a case study of the Logan River, southeast Queensland , 1999 .

[94]  T. Nhiwatiwa,et al.  Invertebrate communities in dry-season pools of a large subtropical river: patterns and processes , 2009, Hydrobiologia.

[95]  J. Vokoun,et al.  Evaluating effects of water withdrawals and impoundments on fish assemblages in southern New England streams, USA. , 2010 .

[96]  A. Butturini,et al.  Organic matter availability during pre- and post-drought periods in a Mediterranean stream , 2010, Hydrobiologia.

[97]  B. Biggs,et al.  Linking scales of flow variability to lotic ecosystem structure and function , 2005 .

[98]  J. Stromberg,et al.  Importance of low-flow and high-flow characteristics to restoration of riparian vegetation along rivers in arid south-western United States , 2007 .

[99]  James M. Vose,et al.  Long-term hydrologic and water quality responses following commercial clearcutting of mixed hardwoods on a southern Appalachian catchment , 2001 .

[100]  A. Boulton,et al.  Rivers as groundwater-dependent ecosystems: a review of degrees of dependency, riverine processes and management implications , 2006 .

[101]  P. S. Lake,et al.  Terrestrial detritus supports the food webs in lowland intermittent streams of south‐eastern Australia: a stable isotope study , 2008 .

[102]  M. J. Costa,et al.  Food Web Structure and Habitat Connectivity in Fish Estuarine Nurseries—Impact of River Flow , 2011 .

[103]  T. Battin Hydrodynamics is a major determinant of streambed biofilm activity: From the sediment to the reach scale , 2000 .

[104]  Klement Tockner,et al.  Emerging concepts in temporary‐river ecology , 2010 .

[105]  J. M. Elliott,et al.  Pools as refugia for brown trout during two summer droughts: trout responses to thermal and oxygen stress , 2000 .

[106]  Kelly H. Laycock,et al.  Disturbance and species displacement: different tolerances to stream drying and desiccation in a native and an invasive crayfish , 2009 .

[107]  P. Lake,et al.  The ecology of two intermittent streams in Victoria, Australia. I. Multivariate analyses of physicochemical features , 1990 .

[108]  A. Arthington,et al.  Extreme flow variability and the ‘boom and bust’ ecology of fish in arid‐zone floodplain rivers: a case history with implications for environmental flows, conservation and management , 2011 .

[109]  I. Cowx,et al.  The influence of drought on the fish and invertebrate populations of an upland stream in Wales , 1984 .

[110]  Martin C. Thoms,et al.  An assessment of the ecological impacts of inter‐basin water transfers, and their threats to river basin integrity and conservation , 1992 .

[111]  R. Kingsford,et al.  The Macquarie Marshes in Arid Australia and their waterbirds: A 50-year history of decline , 1995 .

[112]  L. Hughes Climate change and Australia: Trends, projections and impacts , 2003 .

[113]  N. Arnell The effect of climate change on hydrological regimes in Europe: a continental perspective , 1999 .

[114]  T. McMahon,et al.  Effects of regulation on the flow regime of the river Murray, Australia , 1995 .

[115]  R. Death,et al.  Invertebrate community responses to experimentally reduced discharge in small streams of different water quality , 2007, Journal of the North American Benthological Society.

[116]  Peggy A. Johnson,et al.  Stream hydrological and ecological responses to climate change assessed with an artificial neural network , 1996 .

[117]  M. Power,et al.  Effects of Disturbance on River Food Webs , 1996, Science.

[118]  B. Robson,et al.  Fish assemblage response to rehabilitation of a sand‐slugged lowland river , 2009 .

[119]  James T. Peterson,et al.  An Evaluation of the Influence of Seasonal Base Flow and Geomorphic Stream Characteristics on Coastal Plain Stream Fish Assemblages , 2010 .

[120]  K. Frank,et al.  Effects of river regulation and diversion on marine fish and invertebrates , 1994 .

[121]  P. Wood,et al.  Is the hyporheic zone a refugium for aquatic macroinvertebrates during severe low flow conditions , 2010 .

[122]  K. Sand‐Jensen,et al.  Vegetation and flow regime in lowland streams , 2008 .

[123]  A. Mckerchar,et al.  Shifts in flood and low-flow regimes in New Zealand due to interdecadal climate variations , 2003 .

[124]  S. Fischer,et al.  Effects of residual flow and habitat fragmentation on distribution and movement of bullhead (Cottus gobio L.) in an alpine stream , 2000, Hydrobiologia.

[125]  N. Reynard,et al.  The effects of climate change due to global warming on river flows in Great Britain , 1996 .

[126]  M. Rogers,et al.  Relationship between river surface level and fish assemblage in the Ocklawaha River, Florida , 2005 .

[127]  A. V. Vecchia,et al.  Global pattern of trends in streamflow and water availability in a changing climate , 2005, Nature.

[128]  Russell G. Death,et al.  Invertebrate responses to short‐term water abstraction in small New Zealand streams , 2007 .

[129]  Lawrence E. Band,et al.  Down by the riverside: urban riparian ecology , 2003 .

[130]  S. Blanchet,et al.  Competition, predation and flow rate as mediators of direct and indirect effects in a stream food chain , 2008, Oecologia.

[131]  N. Bond,et al.  Ecological Restoration and Large‐Scale Ecological Disturbance: The Effects of Drought on the Response by Fish to a Habitat Restoration Experiment , 2005 .

[132]  J. Feminella,et al.  Comparison of Benthic Macroinvertebrate Assemblages in Small Streams along a Gradient of Flow Permanence , 1996, Journal of the North American Benthological Society.

[133]  R. Stubbington The hyporheic zone as an invertebrate refuge: a review of variability in space, time, taxa and behaviour , 2012 .

[134]  C. Scott Findlay,et al.  Meta-analysis of the impacts of water management on aquatic communities , 2008 .

[135]  Jeremy B. Jones,et al.  Transport and Retention of Particulate Organic Matter in Two Low-Gradient Headwater Streams , 1991, Journal of the North American Benthological Society.

[136]  A. Robock,et al.  Large-scale water cycle perturbation due to irrigation pumping in the US High Plains: A synthesis of observed streamflow changes , 2010 .

[137]  J. Lancaster,et al.  Effects of drought on stream insects and its ecological consequences , 2008 .

[138]  J. Rusak,et al.  Disturbance-driven changes in the variability of ecological patterns and processes. , 2008, Ecology letters.

[139]  P. Armitage,et al.  The response of perennial and temporary headwater stream invertebrate communities to hydrological extremes , 2009, Hydrobiologia.

[140]  Nicholas F. Hughes,et al.  Process-based modelling of invertebrate drift transport, net energy intake and reach carrying capacity for drift-feeding salmonids , 2007 .

[141]  L. Crowder,et al.  Hypoxia in the Neuse River Estuary: Responses of Blue Crabs and Crabbers , 2001 .

[142]  P. S. Lake Ecological effects of perturbation by drought in flowing waters , 2003 .

[143]  B. Biggs,et al.  HYDRAULIC HABITAT SUITABILITY FOR PERIPHYTON IN RIVERS , 1996 .

[144]  Sébastien Brosse,et al.  Hydrological disturbance benefits a native fish at the expense of an exotic fish. , 2005 .

[145]  Darren S. Baldwin,et al.  The effects of drying and re-flooding on the sediment and soil nutrient dynamics of lowland river-floodplain systems: A synthesis , 2000 .

[146]  Benthic community dynamics during summer low‐flows in two rivers of contrasting enrichment 2. Invertebrates , 2003 .

[147]  P. S. Lake,et al.  Benthic organic matter and detritivorous macroinvertebrates in two intermittent streams in south-eastern Australia , 1992, Hydrobiologia.

[148]  G. Kondolf,et al.  Surface water balance to evaluate the hydrological impacts of small instream diversions and application to the Russian River basin, California, USA , 2009 .

[149]  V. Acuña Flow regime alteration effects on the organic C dynamics in semiarid stream ecosystems , 2010, Hydrobiologia.

[150]  Jason L. White,et al.  Reduced Streamflow Lowers Dry-Season Growth of Rainbow Trout in a Small Stream , 2006 .

[151]  V. Resh,et al.  Benthic macroinvertebrate assemblages and macrohabitat connectivity in Mediterranean-climate streams of northern California , 2006, Journal of the North American Benthological Society.

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

[153]  R. Death,et al.  The effect of experimental flow reductions on macroinvertebrate drift in natural and streamside channels , 2008 .

[154]  N. Bond,et al.  Linking ecological theory with stream restoration , 2007 .

[155]  A. Finstad,et al.  Effects of discharge and local density on the growth of juvenile Atlantic salmon Salmo salar. , 2010, Journal of fish biology.

[156]  Rebecca M. B. Harris,et al.  Disturbance frequency influences patch dynamics in stream benthic algal communities , 2008, Oecologia.

[157]  Tenna Riis,et al.  Hydrologic and hydraulic control of macrophyte establishment and performance in streams , 2003 .

[158]  D. Post,et al.  An experimental disturbance alters fish size structure but not food chain length in streams. , 2008, Ecology.

[159]  J. Herrmann,et al.  Drought impact on stream detritivores: experimental effects on leaf litter breakdown and life cycles , 2010, Hydrobiologia.

[160]  B. Robson,et al.  Drought refuges, spatial scale and recolonisation by invertebrates in non‐perennial streams , 2011 .

[161]  G. Kondolf,et al.  Hydrologic impacts of small‐scale instream diversions for frost and heat protection in the California wine country , 2009 .

[162]  D. Hughes Hydrological issues associated with the determination of environmental water requirements of ephemeral rivers , 2005 .

[163]  S. Bunn,et al.  Sources of carbon fuelling production in an arid floodplain river , 2008 .

[164]  B. Chessman Climatic changes and 13‐year trends in stream macroinvertebrate assemblages in New South Wales, Australia , 2009 .

[165]  G. Closs,et al.  Behavioural responses of a south‐east Australian floodplain fish community to gradual hypoxia , 2007 .

[166]  R. Naiman,et al.  The challenge of providing environmental flow rules to sustain river ecosystems. , 2006, Ecological applications : a publication of the Ecological Society of America.

[167]  A. J. Stewart,et al.  Grazing Minnows, Piscivorous Bass, and Stream Algae: Dynamics of a Strong Interaction , 1985 .

[168]  W. Salomons,et al.  Fine‐grained sediment in river systems: environmental significance and management issues , 2005 .

[169]  M. Power,et al.  Effects of Fish in River Food Webs , 1990, Science.

[170]  K. Lafferty,et al.  Extirpation and Recolonization in a Metapopulation of an Endangered Fish, the Tidewater Goby , 1999 .

[171]  W. Dietrich,et al.  SEASONAL REASSEMBLY OF A RIVER FOOD WEB: FLOODS, DROUGHTS, AND IMPACTS OF FISH , 2008 .

[172]  R. Death,et al.  A review of the consequences of decreased flow for instream habitat and macroinvertebrates , 2007, Journal of the North American Benthological Society.

[173]  B. Chessman,et al.  Ecological responses to artificial drought in two Australian rivers with differing water extraction , 2009 .

[174]  B. Chessman,et al.  Some effects of the 1982-83 drought on water quality and macroinvertebrate fauna in the lower La Trobe River, Victoria , 1987 .

[175]  B. R. Davies,et al.  A preliminary assessment of the effects of a small south african inter‐basin water transfer on discharge and invertebrate community structure , 1998 .

[176]  J. Ward,et al.  The macroinvertebrates and fish of a Colorado stream during a period of fluctuating discharge , 1984 .

[177]  John Douglas,et al.  Flow-related patterns in abundance and composition of the fish fauna of a degraded Australian lowland river , 2008 .

[178]  C. Townsend,et al.  Multiple stressors in agricultural streams: interactions among sediment addition, nutrient enrichment and water abstraction , 2010 .

[179]  Francis H. S. Chiew,et al.  Modelling the impacts of climate change on Australian streamflow , 2002 .

[180]  P. S. Lake,et al.  Drought, differential mortality and the coexistence of a native and an introduced fish species in a south east Australian intermittent stream , 1996, Environmental Biology of Fishes.

[181]  P. Armitage,et al.  The response of the macroinvertebrate community to low-flow variability and supra-seasonal drought within a groundwater dominated stream , 2004 .

[182]  Richard Johnson,et al.  The forest cycle and low river flows: a review of UK and international studies , 1998 .

[183]  J. Meyer,et al.  Flow regime alterations under changing climate in two river basins: implications for freshwater ecosystems , 2005 .

[184]  Charles P. Hawkins,et al.  Role of refugia in recovery from disturbances: Modern fragmented and disconnected river systems , 1990 .

[185]  Paul S. Kemp,et al.  The impacts of fine sediment on riverine fish , 2011 .

[186]  R. Sparks,et al.  THE NATURAL FLOW REGIME. A PARADIGM FOR RIVER CONSERVATION AND RESTORATION , 1997 .

[187]  G. Closs Feeding of Galaxias olidus (Guenther) (Pisces: Galaxiidae) in an intermittent Australian stream , 1994 .

[188]  J. Suen Potential impacts to freshwater ecosystems caused by flow regime alteration under changing climate conditions in Taiwan , 2008, Hydrobiologia.

[189]  James E. Cloern,et al.  Trophic interactions and direct physical effects control phytoplankton biomass and production in an estuary , 1992 .

[190]  S. Lek,et al.  Effects of reduced flow on brown trout (Salmo trutta L.) populations downstream dams in French Pyrenees , 1995 .

[191]  D. Lodge,et al.  Scenarios of freshwater fish extinctions from climate change and water withdrawal , 2005 .

[192]  J. Sabo,et al.  River drying lowers the diversity and alters the composition of an assemblage of desert riparian arthropods , 2012 .

[193]  P. Llorens,et al.  Modelling the hydrological response of a Mediterranean medium-sized headwater basin subject to land cover change: The Cardener River basin (NE Spain) , 2010 .

[194]  C. Leigh,et al.  Hydrological connectivity drives patterns of macroinvertebrate biodiversity in floodplain rivers of the Australian wet /dry tropics , 2009 .

[195]  R. McDowall Seasonal pulses in migrations of New Zealand diadromous fish and the potential impacts of river mouth closure , 1995 .

[196]  I. Growns,et al.  Hydraulic assessment of environmental flow regimes to facilitate fish passage through natural riffles: Shoalhaven river below Tallowa Dam, New South Wales, Australia , 2010 .

[197]  S. Thomaz,et al.  Floods increase similarity among aquatic habitats in river-floodplain systems , 2007, Hydrobiologia.

[198]  C. Magadza,et al.  The influence of habitat structure and flow permanence on macroinvertebrate assemblages in temporary rivers in northwestern Zimbabwe , 2008, Hydrobiologia.

[199]  N. LeRoy Poff,et al.  The ecological limits of hydrologic alteration (ELOHA): a new framework for developing regional environmental flow standards , 2007 .

[200]  J. Richardson,et al.  Relationship between flow regime and fish abundances in a gravel-bed river, New Zealand , 2005 .

[201]  F. Sheldon,et al.  Water quality in two Australian dryland rivers: spatial and temporal variability and the role of flow , 2010 .

[202]  R. Kingsford,et al.  Destruction of Wetlands and Waterbird Populations by Dams and Irrigation on the Murrumbidgee River in Arid Australia , 2004, Environmental management.

[203]  H. Paerl,et al.  Blooms Like It Hot , 2008, Science.

[204]  Andrew J. H. Davey,et al.  Fish community responses to drying disturbances in an intermittent stream: a landscape perspective , 2007 .

[205]  A. Boulton,et al.  The ecology of two intermittent streams in Victoria, Australia.: III. Temporal changes in faunal composition , 1992 .

[206]  Water resource management in Japan: Forest management or dam reservoirs? , 2010, Journal of environmental management.

[207]  Thomas Hein,et al.  The significance of side‐arm connectivity for carbon dynamics of the River Danube, Austria , 2007 .

[208]  A. Arthington,et al.  Freshwater Fishes of North-Eastern Australia , 2004 .

[209]  V. Resh,et al.  Resilience of fishes and invertebrates to prolonged drought in two California streams , 2009 .

[210]  Andrew J. Boulton,et al.  Hyporheic rehabilitation in rivers: restoring vertical connectivity , 2007 .

[211]  G. Closs,et al.  Spatial and Temporal Variation in the Structure of an Intermittent-Stream Food Web , 1994 .

[212]  A. McIntosh,et al.  Low river flow alters the biomass and population structure of a riparian predatory invertebrate , 2010 .

[213]  W. Hubert,et al.  Changes in Habitat Availability and Habitat Use and Movements by Two Trout Species in Response to Declining Discharge in a Regulated River during Winter , 2002 .

[214]  M. Bradford An experimental study of stranding of juvenile salmonids on gravel bars and in sidechannels during rapid flow decreases , 1997 .

[215]  W. Dodds,et al.  Harshness: characterisation of intermittent stream habitat over space and time , 2005 .

[216]  E. Larson,et al.  Imperiled crayfishes use hyporheic zone during seasonal drying of an intermittent stream , 2009, Journal of the North American Benthological Society.

[217]  G. Huxel,et al.  Shifts in the trophic base of intermittent stream food webs , 2009, Hydrobiologia.

[218]  D. Post,et al.  How low can you go? Impacts of a low-flow disturbance on aquatic insect communities. , 2011, Ecological applications : a publication of the Ecological Society of America.

[219]  Refuge-use strategies of stream fishes in response to extreme low flows , 2006 .

[220]  W. Riley,et al.  The effects of low summer flow on wild salmon (Salmo salar), trout (Salmo trutta) and grayling (Thymallus thymallus) in a small stream , 2009 .

[221]  J. M. Elliott,et al.  Variable effects of droughts on the density of a sea-trout Salmo trutta population over 30 years , 1997 .

[222]  K. Tockner,et al.  Hydrological connectivity, and the exchange of organic matter and nutrients in a dynamic river–floodplain system (Danube, Austria) , 1999 .