Multiple stressors on water availability at global to catchment scales: understanding human impact on nutrient cycles to protect water quality and water availability in the long term

1. Freshwater systems are subject to multiple stressors that include changing climate, changing land use, changing demands on water resources and changing nutrient cycles. Global trends suggest these stressors that impact on water availability will increase over the coming decades, and - without act...

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Bibliographic Details
Published inFreshwater biology Vol. 55; no. 1; pp. 241 - 257
Main Author HEATHWAITE, A.L
Format Journal Article
LanguageEnglish
Published Oxford, UK Oxford, UK : Blackwell Publishing Ltd 2010
Blackwell Publishing Ltd
Subjects
anthropogenic activities
biogeochemical cycles
climate change
diffuse pollution
ecosystem services
food security
freshwater
freshwater ecosystems
land use
nutrients
pollution load
prediction
rivers
water quality
water resources
watersheds
Online AccessGet full text
ISSN0046-5070
1365-2427
DOI10.1111/j.1365-2427.2009.02368.x

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Abstract 1. Freshwater systems are subject to multiple stressors that include changing climate, changing land use, changing demands on water resources and changing nutrient cycles. Global trends suggest these stressors that impact on water availability will increase over the coming decades, and - without action - will constrain opportunities to sustain ecosystem services to deliver the Millennium Development Goals. 2. Although a key 'service' freshwaters provide is buffering inputs from the land system, predicting ecosystem response through observation and modelling is complex because nonlinear and dynamic interactions amongst a large number of constituents operate to regulate biogeochemical transformations in freshwater systems. 3. Reductionist approaches have been successful at unravelling many of the processes and some of the interactions in freshwater systems. However, reductionist approaches cannot provide the concepts or methods to understand how system properties will emerge in response to a changing climate (particularly the changing spatial and temporal distribution of precipitation); to the consequent change in water availability and water quality in the context of social drivers on the demand for water; and to feedbacks arising from nutrient cycling across a range of scales. 4. This study presents a review of the evidence for landscape-scale filtering of nutrient delivery to receiving waters and examines the role of the internal processing of nutrients at critical interfaces such as the hyporheic in attenuating nutrient loads. Analysis of research on the spatial scales and time step appropriate for catchment and water quality observations indicates the importance of small scale and short time step data for unravelling nutrient cycling in freshwater ecosystems. 5. Thematic implications: leading work in the catchment and aquatic sciences on the importance of diffuse nutrient losses from land, and on nutrient cycling in freshwaters, in governing water quality and protecting water availability, is making an increasing contribution to mainstream environmental science. Critically, the evidence base is starting to grow to inform policy-related debates with respect to food security, to climate change adaptation and for sustaining ecosystem services in freshwater environments.
AbstractList 1. Freshwater systems are subject to multiple stressors that include changing climate, changing land use, changing demands on water resources and changing nutrient cycles. Global trends suggest these stressors that impact on water availability will increase over the coming decades, and - without action - will constrain opportunities to sustain ecosystem services to deliver the Millennium Development Goals. 2. Although a key 'service' freshwaters provide is buffering inputs from the land system, predicting ecosystem response through observation and modelling is complex because nonlinear and dynamic interactions amongst a large number of constituents operate to regulate biogeochemical transformations in freshwater systems. 3. Reductionist approaches have been successful at unravelling many of the processes and some of the interactions in freshwater systems. However, reductionist approaches cannot provide the concepts or methods to understand how system properties will emerge in response to a changing climate (particularly the changing spatial and temporal distribution of precipitation); to the consequent change in water availability and water quality in the context of social drivers on the demand for water; and to feedbacks arising from nutrient cycling across a range of scales. 4. This study presents a review of the evidence for landscape-scale filtering of nutrient delivery to receiving waters and examines the role of the internal processing of nutrients at critical interfaces such as the hyporheic in attenuating nutrient loads. Analysis of research on the spatial scales and time step appropriate for catchment and water quality observations indicates the importance of small scale and short time step data for unravelling nutrient cycling in freshwater ecosystems. 5. Thematic implications: leading work in the catchment and aquatic sciences on the importance of diffuse nutrient losses from land, and on nutrient cycling in freshwaters, in governing water quality and protecting water availability, is making an increasing contribution to mainstream environmental science. Critically, the evidence base is starting to grow to inform policy-related debates with respect to food security, to climate change adaptation and for sustaining ecosystem services in freshwater environments.
1. Freshwater systems are subject to multiple stressors that include changing climate, changing land use, changing demands on water resources and changing nutrient cycles. Global trends suggest these stressors that impact on water availability will increase over the coming decades, and – without action – will constrain opportunities to sustain ecosystem services to deliver the Millennium Development Goals. 2. Although a key ‘service’ freshwaters provide is buffering inputs from the land system, predicting ecosystem response through observation and modelling is complex because nonlinear and dynamic interactions amongst a large number of constituents operate to regulate biogeochemical transformations in freshwater systems. 3. Reductionist approaches have been successful at unravelling many of the processes and some of the interactions in freshwater systems. However, reductionist approaches cannot provide the concepts or methods to understand how system properties will emerge in response to a changing climate (particularly the changing spatial and temporal distribution of precipitation); to the consequent change in water availability and water quality in the context of social drivers on the demand for water; and to feedbacks arising from nutrient cycling across a range of scales. 4. This study presents a review of the evidence for landscape‐scale filtering of nutrient delivery to receiving waters and examines the role of the internal processing of nutrients at critical interfaces such as the hyporheic in attenuating nutrient loads. Analysis of research on the spatial scales and time step appropriate for catchment and water quality observations indicates the importance of small scale and short time step data for unravelling nutrient cycling in freshwater ecosystems. 5 . Thematic implications : leading work in the catchment and aquatic sciences on the importance of diffuse nutrient losses from land, and on nutrient cycling in freshwaters, in governing water quality and protecting water availability, is making an increasing contribution to mainstream environmental science. Critically, the evidence base is starting to grow to inform policy‐related debates with respect to food security, to climate change adaptation and for sustaining ecosystem services in freshwater environments.
Summary 1. Freshwater systems are subject to multiple stressors that include changing climate, changing land use, changing demands on water resources and changing nutrient cycles. Global trends suggest these stressors that impact on water availability will increase over the coming decades, and – without action – will constrain opportunities to sustain ecosystem services to deliver the Millennium Development Goals. 2. Although a key ‘service’ freshwaters provide is buffering inputs from the land system, predicting ecosystem response through observation and modelling is complex because nonlinear and dynamic interactions amongst a large number of constituents operate to regulate biogeochemical transformations in freshwater systems. 3. Reductionist approaches have been successful at unravelling many of the processes and some of the interactions in freshwater systems. However, reductionist approaches cannot provide the concepts or methods to understand how system properties will emerge in response to a changing climate (particularly the changing spatial and temporal distribution of precipitation); to the consequent change in water availability and water quality in the context of social drivers on the demand for water; and to feedbacks arising from nutrient cycling across a range of scales. 4. This study presents a review of the evidence for landscape‐scale filtering of nutrient delivery to receiving waters and examines the role of the internal processing of nutrients at critical interfaces such as the hyporheic in attenuating nutrient loads. Analysis of research on the spatial scales and time step appropriate for catchment and water quality observations indicates the importance of small scale and short time step data for unravelling nutrient cycling in freshwater ecosystems. 5. Thematic implications: leading work in the catchment and aquatic sciences on the importance of diffuse nutrient losses from land, and on nutrient cycling in freshwaters, in governing water quality and protecting water availability, is making an increasing contribution to mainstream environmental science. Critically, the evidence base is starting to grow to inform policy‐related debates with respect to food security, to climate change adaptation and for sustaining ecosystem services in freshwater environments.
Author HEATHWAITE, A. L.
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2006a; 360
2005; 299
2006; 33
2007; 341
2002; 10
2006; 330
2008; 34
2008; 105
2008b; 37
2007; 332
1980; 37
1979; 29
2000; 19
2006; 20
2002; 282–283
1990
2000; 14
2005a
2005; 344
2000; 403
1997; 387
2000; 406
2003; 48
2007; 5
1982
1981
2007; 64
2001; 51
2008; 350
2004; 42
2005; 110
2006; 57
1999; 29
2002; 282/283
2003; 37
1992; 37
1992
2008; 400
2007; 10
2007; 11
2005c; 304
2006; 111
1999
2004; 54
2005; 19
2006; 40
1997; 33
2005; 9
2006b; 330
2001; 37
2005b; 344
2009; 460
2009; 461
1996; 113
1998; 8
2009; 45
2000; 251/252
2008a; 37
2003; 358
2007; 382
2006; 77
2008; 8
2003; 17
2003; 18
1999; 85
2008; 4
2008; 2
1998; 40
2008; 2008
2007; 36
2000; 290
2005; 24
2002; 47
1983; 222
2001
1997; 11
2001; 292
2003; 6
2008; 319
2005; 304
1983; 65
1981; 38
2001; 15
2003; 1
2007; 23
2009; 323
2006; 365
1979; 60
1998; 55
2009; 324
2009; 23
2004; 85
2002; 36
2009; 24
2000; 29
2002; 30
2006; 16
2008; 19
1995; 11
2009
2008
2007
2006
2005
2004
2005d
2008; 321
2008; 320
2002; 29
2009; 32
2004; 18
2003; 69
2001; 1
2005; 50
2003; 301
2008; 451
2009; 38
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Snippet 1. Freshwater systems are subject to multiple stressors that include changing climate, changing land use, changing demands on water resources and changing...
Summary 1. Freshwater systems are subject to multiple stressors that include changing climate, changing land use, changing demands on water resources and...
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SubjectTerms anthropogenic activities
biogeochemical cycles
climate change
diffuse pollution
ecosystem services
food security
freshwater
freshwater ecosystems
land use
nutrients
pollution load
prediction
rivers
water quality
water resources
watersheds
Title Multiple stressors on water availability at global to catchment scales: understanding human impact on nutrient cycles to protect water quality and water availability in the long term
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https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1365-2427.2009.02368.x
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Volume 55
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