ISBN-13: 9783319930428 / Angielski / Twarda / 2019 / 599 str.
ISBN-13: 9783319930428 / Angielski / Twarda / 2019 / 599 str.
The Lake Restoration Handbook: A New Zealand Perspective synthesises contemporary issues related to lake restoration and rehabilitation, integrated with social science and cultural viewpoints, and complemented by authoritative topic-area summaries by renowned scientists and practitioners from across the globe.
Lake Restoration Handbook: A New Zealand Perspective
Editors
David Hamilton
Kevin Collier
Clive Howard-WilliamsJohn Quinn
Preface
Bill Vant – changes since the Lake Manager’s Handbook
A. INTRODUCTION
Chapter 1: Context for restoration – David Hamilton, John Quinn, Clive Howard-Williams, Kevin Collier
Handling editor: Kevin Collier
Abstract (<200 words and be followed by at least 5 keywords)
Introductory comments
· Defining what we mean by restoration, values
· Managing for multiple uses (and lakes vs reservoirs)
· Context: 1987 LMH and what has changed since? Need for restoration.
· Who carries out restoration? Who funds restoration?
· What is the enabling environment? Include models of governance (e.g. co-governance)
· Brief introduction to the policy and regulatory environment (and end with something specific to NZ – MfE, RCs, DCs, NGOs)
International perspectives
· Major issues globally (blooms, weeds, hydrology/storage and climate change, invasives, legacy nutrients)
· Examples of international policies, e.g. WFD, TMDL· Approaches taken (align with issues), include catchment vs in-lake
· Monitoring approaches to measure success
· Involving citizensIntroduction to chapters
· Issues (eutrophication, invasives, multiple uses and objectives, policy and regulatory environment); use of models as decision support tools; dealing with the catchment (long-term essential approach); specific in-lake approaches.
Sum up
· Set the scene for the concluding chapter of the book.
Proposed international feature box contributors:
· 1.1 Brian Moss – The philosophy of restoration
· Justin Brooks - An Australian perspective: policies and practices enabling lake restoration
B.< MANAGEMENT AND MODELLING
Chapter 2: Modelling for catchment management – Aroon Parshotam & Dale Robertson
Handling editor: David Hamilton
Abstract (<200 words and be followed by at least 5 keywords)
Introduction
Review of catchment modelling in NZ
· e.g. BNZ, CREAMS, GLEAMS
· Recent big catchment modelling projects (e.g. Tauranga Harbour, South-Eastern Manukau Harbour)
Assumptions
· Broad assumptions of all catchment models (eg. Semi-distributed, etc.)
· GIS layers that are generally used (soils, landuse, slopes, climate)
What models can be used for
· Identify hotspots, climate change, soil erodibility...)
· Types of landuses and what we expect from the various landuses
· Review of Tools (eg. CLUES and OVERSEER)Stakeholder organisations and role
Modelling for management purposes
Limitation of models
· groundwater, spatial variability, assumptions
Future Prospects
Proposed international feature box contributors:
· Richard Alexander (TBC)· Other (TBC)
Chapter 3: In-lake modelling for restoration – David Hamilton, John Quinn, Chris McBride
Handling editor: Clive Howard-Williams
Abstract (<200 words and be followed by at least 5 keywords)
Introduction
· What do we mean by modelling?
· Brief introduction to types of models available (deterministic, Bayesian, neural networks)
· How do we use models for management purposes?
· Focus mostly on deterministic models in this chapter
Types of models
· Deterministic
· Bayesian
· Neural networks
Data requirements (primarily oriented to deterministic models)
· Climate data
· Hydrological data
· In-lake data (inc. satellite data)
· Opportunities enabled by high-frequency sensors
· Techniques to generate missing data (models, interpolation etc.)
Case studies
· Lake Benmore
· Lake Rotorua (1-D long-term)
· Lake Okaro (limiting nutrients)
· Bayesian models for Waikato floodplain lakes
Future Prospects
· Real-time simulation
· National-scale modelling of lakes
· Automated data inputs and validation (e.g. with satellite)
· Global communities and open source tools (GLEON)
Proposed international feature box contributors:
· Dennis Trolle - Mechanistic lake modelling approaches in Europe
· Barbara Robson - Use of models as decision support tools for lake management
C. WATER QUALITY RESTORATION
Chapter 4: Catchment restoration – Richard McDowall, Murray Close, Chris Tanner –
Handling editor: David Hamilton
Abstract (<200 words and be followed by at least 5 keywords)
Land management (inputs) and outputs at the land-water interface
Overland and sub-surface flow losses
In-stream and wetland processes
Groundwater flow paths and attenuation
Future Prospects (including some words around cost and optimisation: e.g. CSAs)
Proposed international feature box contributors:
· 4.1 Jason Julian & deBruers – Assessing land cover changes with high spatio-temporal resolution to assist with catchment restoration
· Mark Tomer - Reducing agricultural inputs of nutrients and sediments to freshwater systems
Chapter 5: Destratification and mixing – Max Gibbs
Handling editor: Clive Howard-Williams
Abstract (<200 words and be followed by at least 5 keywords)
Introduction – Stratification, Thermal Density
Destratification
· Mixing Concepts– lake size and shape matters
· Mechanisms – mechanical, aeration, selective draw, flushing proactive, multiple mixing engines
· Timing - Monitoring for start of mixing, consequences of getting it wrong
Case studies
· Upper Huia dam (Selective draw)
· Auckland water supply reservoirs (aeration timing)
· Opua Reservoir with and with deep mixing
· Virginia Lake (Surface mixing)
· Lake Rotoehu trials
Future Prospects
Proposed international feature box contributors:
· Geoff Schladow - Destratification design, implementation and practice
· Other TBC
Chapter 6: Flocculent and sediment capping for phosphorus management – Chris W. Hickey and Max M. Gibbs
Handling editor: John Quinn
Abstract (<200 words and be followed by at least 5 keywords)
Introduction
· Conceptual basis for flocculation and sediment capping for P-management (incl definition of terms)
· Overview of agents used for flocking (natural and synthetic)
· Overview of agents for sediment capping (advantages and disadvantages?)
Chemical principals for floccing and P-binding
· Flocculents
· Basis for use of Fe, Al, La, calcite for capping – summary table for issues
· pH effects on adsorption efficiency – summary plot for Al and La salts
· Add to background for sediments
· Formulation of products
· Sustainability of process
Water chemistry influences on efficacy
· incl need for buffering because of low alkalinity of NZ waters
· Stoichiometry and dosing
Practical application issues
· Determine level of treatment required
· What product suits?
· Target area for application
· Timing of application
· Areal (surface), sub-surface, inflow dosing
· Product formulation
Overseas applications
· Cooke et al. (2005)
· Recent capping (Danish lakes, Netherlands)
· “Floc & lock” approach
· Spears et al. capping review
New Zealand applications
· Capping (Okareka, Okawa Bay, Okaro)· Floccing ( Lake Rotorua inflows)
Other issues
· Non-target species effects (incl. toxicity considerations)
· Lake processes (e.g., effects on nitrogen)
· Regulatory
Future prospects
Proposed international feature box contributors:
· Bryan Spears - Dealing with legacy phosphorus
· Gang Pan - Novel, benign technologies for treating lake sediments
Chapter 7: Nutrient budgets in lake restoration – Piet Verburg, Marc Schallenberg, Sandy Elliott
Handling editor: John Quinn
Abstract (<200 words and be followed by at least 5 keywords)
Sources and fates of nutrients in lakes
Fates of nutrients in lakes
Internal nutrient loading
Internal nutrient loading
Flipping lakes
Dissolved P accumulation in hypolimnia
Nutrient concentrations in lake water
Nutrients contained in fish biomass
Nutrients contained in macrophytes
Proportion of nutrients contained in macrophytes and potential for removal by harvesting.
Future prospects
Proposed international feature box contributors:
· Jack Jones - In-lake nutrient retention
· Dale Robertson (TBC)
D. BIODIVERSITY RESTORATION
Chapter 8: Control of invasive aquatic plants – Deb Hofstra, de Winton, Champion, Clayton
Handling editor: Clive Howard-Williams
Abstract (<200 words and be followed by at least 5 keywords)
Introduction
Tools
· Control of Weeds & Restoration (restoring functionality &/or indigenous values)
· Monitoring/Surveillance (methods & indicators)
Case studies
· Wanaka - Objectives: Eradication> Minimum biomass>Containment>Nuisance control
· Lake Rotoroa (Hamilton) - selective target weed control; escort on Iris Lake Rotoroa
· Te Waihora – de-vegetation; Habitat manipulation (wave barriers); seed bank propagation
· Didymo (cf water net) – Entry to NZ, spread, prediction models, research, rivers & lakes, NI vs SI, limited P-habitat, lessons learnt.
· Hornwort & other
· Northland lakes – prioritisation, surveillance, incursion response and eradication progress.
· Cages for native plants - exclude grass carp (Elands, Omapere Isoetes)
Future Propsects
· New incursions, control tools, economic & social pressures etc
· Expanding FW habitats & connections, recreational economic use
· Rate of spread
· Apathy – return of sleeping giants – e.g. w/hyacinth (seed banks!)
· Globalisation = new species (submerged, floating & marginal); New pathways; sabotage
· Detection – DNA not like fish!
· Chemophobic pressure (EPA reassessment)
· Role of education & research
· Biocontrol – challenges, successes & failures
· Integrated control & Future expansion of the toolbox?
Proposed international feature box contributors:
· John Madson (TBC)
· Brian Sorell
· 8.1 Jo Caffery - Control of Lagarosiphon major in Lough Corrib, Ireland, and Biodiversity Restoration
Chapter 9: Control of invasive aquatic animals – Ian Duggan & Kevin Collier
Handling editor: David Hamilton
Abstract (<200 words and be followed by at least 5 keywords)
Inventories and distributions
· Zooplankton and other microinvertebrates
· Macroinvertebrates
· Fish and Amphibians
Food-web implications
· Field Observations
· Manipulative experiments - e.g., Karori
Review of control techniques
· Specific methods for removal and control of fauna
Case studies
· Lake Serpentine· Lake Ohinewai
Future Prospects
· Species entrained in vectors, not yet known established (e.g., aquarium trade species)· Future technologies for controlling animals
· Global warming
· Future invasion risks
Proposed international feature box contributors:
· 9.1 Hugh McIsaac –
· 9.2 Chris Wisniewski - Carp eradication in Lakes Crescent and Sorrell
· 9.3 R Claramont – Managing invasive fish in the Laurentian Great Lakes; “Darwin’s Dreampond” or Nightmare?
Chapter 10: Restoring native fish communities – David Rowe, J Boubee, D West, B Hicks -
Handling editor: Kevin Collier
Abstract (<200 words and be followed by at least 5 keywords)
Manipulating connectivity
· Overcoming barriers to migration
· Creating barriers to restore natives through preventing recolonization by salmonids
Habitat improvement
· Protection of smelt spawning habitat in Taupo
· Improvement of water quality in Lake Rotoiti has improved trout habitat and is increasing smelt abundance
· Removal of macrophytes in Lake Waingata increased dwarf inanga
Control of invasive species
· Perch reduction increased common bullies in Taieri lakes (Gerry Closs)
· Perch reduction in Karori Reservoir (Wgtn) and Lake Wainamu (Auck) will restore native fish
· Trout removal increased recruitment of dwarf inanga in Lake Waikere
Stocking
· Historic Maori stocking
· Dwarf inanga stocked into Lake Ototoa· Elvers stocked into reservoirs and ponds by eel fishers
· Smelt and bullies restocked into Parkinson lake after rotenone removal of all fish
Monitoring the success of fish restoration measures in lakes
· Electric fishing boat use (Brendan Hicks)
· Monitoring migrations in inlet/outlet streams
· Acoustic methodsFuture prospects
Proposed international feature box contributors:
· 10.1 Martin Søndergaard - Experience from Danish lake restorations
· Eric Jeppesen - Aquatic food webs
· John Magnuson - Fisheries restoration – a North American perspective
E. MONITORING AND INDICATORS
Chapter 11: Indicators of ecological integrity – Marc Schallenberg, Mary de Winton, Dave Kelly
Handling editor: John Quinn
Abstract (<200 words and be followed by at least 5 keywords)
Ecological integrity (EI) in the context of indicators of freshwater quality and “health” (“hard” vs normative indicators)
Comparison of definitions of EI
A NZ definition of lake EI (i.e. values) and a framework for its implementation
Reference condition and other EI restoration endpoints
Key indicators of Lake EI
Suggested EI guidelines for deep lakes, shallow lakes and brackish lakes
Special considerations relevant to lake restoration
The place of EI in current lake management policy
Future prospects
Proposed international feature box contributors:
· 11.1 Jonathan Abell – Techniques to derive reference conditions in lakes
· 11.2 Sandra Poikane – Assessing ecological conditions of lakes across Europe -
Chapter 12: Biodiversity Genomics: Monitoring Restoration Efforts with Environmental DNA – Ian Hogg, Jonathan Banks
Handling editor: Kevin Collier
Abstract (<200 words and be followed by at least 5 keywords)
Introduction
· Outline problem
· Morphological identifications
· Benefits to streamlining/simplifying process
Genetic characterisation of lake inhabitants
· The process and the need to build an adequate library
· Genetic markers – COI, 28S
· What is meant by environmental DNA?
· Examples of work in NZ
Community-level analyses
Assessing invertebrate communities using DNA analyses
· Zoo case study
Assessing lake trophic status using DNA from rotifers
· Trophic Level Index
Assessing the presence of fish using environmental DNA
· Brown trout and in Karori
· Koi carp work elsewhere
Future prospects
· Changing technology
· Emerging platforms
Proposed international feature box contributors:
· 12.1 Chris Jerde – Environmental DNA applications in the Laurentian Great Lakes: From targeted species surveillance to biodiversity monitoring
· Dianne Gleeson - Sensitivity of DNA based detection for aquatic restoration applications
Chapter 13: Remote monitoring techniques – Chris McBride, Mat Allan, David Hamilton
Handling editor: Clive Howard-Williams
Abstract (^east 5 keywords)
High frequency monitoring· Sensors (WQ & meteorology): Commercial, open source
· Integrated systems: e.g. fixed buoys, profiler buoys· Telemetry: types of telemetry, web interfaces.
· ‘Big data’: Processing techniques, open source software.
· Autonomous underwater vehicles (AUVs)
Remote sensing
· Remote sensing theory
· Atmospheric correction
· Algorithms: inferring WQ from spectral images
· Medium resolution satellite applications
· High-resolution satellite applications
Future prospects
· Low cost/open source hardware and software
· Miniaturisation
· Unmanned aerial vehicles (UAVs)
· Wireless sensors and mesh networks
· Data mining
Proposed international feature box contributors:
· Paul Hanson - Engaging the science community in lake monitoring with sensors
· 13.2 Michio Kumagi - Remote Sensing Techniques for Lake Assessments – the Lake Biwa example
F. SOCIAL, CULTURAL, POLITICAL, ECONOMIC CONTEXT
Chapter 14: Indigenous values and management – Erica Williams, Erina Watene-Rawiri, Ian Kusabs
Handling editor: John Quinn
Abstract (<200 words and be followed by at least 5 keywords)
Introduction
· Drivers for the recognition of indigenous values in NZ lake restoration and management
· Treaty Settlements,
· NZ cultural landscape, rights and interests of Maori in relation to lakes
Maori values, uses and practises associated with lakes
· Kaitiakitanga
· Taniwha, kai species, recreation, rongoa, birds, waka, geothermal resources, spiritual, tapu/rituals, pepeha, islands, sense of place and identity, intergenerational interactions Examples of how lakes and lake fisheries aspects are covered in Treaty Settlements, legislation, implementation
· Liberation of beneficial species to lakes.
· “Lakes” importance in whanau/hapū/iwi/Maori economy
Pressures
· Degradation and loss of Maori values associated with pressures on lakes
· Loss of access/ecological connectivity/habitat, contamination/discharges, nutrients, wastewater
· The view of some Maori that hydro lakes do not replace the original river
· Contaminants – sediment, sewage and legacy issues?
· Introduced pest species – aquatic weeds and fish etc.
· Co-benefits? Examples of “new” (artificial) lakes / man-made
Maori aspirations for lake restoration & management
· As expressed in Treaty evidence, Iwi Plans, statutory planning documents
· Examples of Maori/Iwi-led and collaborative/statutory-led management
· Maori-owned / Maori-co-managed lakes
Restoration
· Restoration techniques for enhancement of Maori values associated with lakes
· Applied examples – “Māori in action”
Lessons learned
· Key messages for international indigenous communities
· Key challenges ahead· Towards a cultural index for lakes
Future prospects
Proposed international feature box contributors:
· Vanessa Copa Torrez - (TBC)
· 14.2 Jinwon Seo – Protecting and restoring Indian fisheries
Chapter 15: Implementing lake restoration – Andy Bruere, Warwick Silvester, Andy Woolhouse
Handling editor: David Hamilton
Abstract (<200 words and be followed by at least 5 keywords)
Introduction: Developing a plan of action
Lake/catchment history - defining the problem
· What do we know, Outlining the problem, Understanding lake and catchment history, What is the need for action?, Evidence from surrounding lakes, Community expectations, Legal requirements, Identify success and convert to targets (sustainable load), Identify sources of nutrient inputs
Community awareness, interest and buy-in
Implementation leadership and roles in restoration
· Community and community groups role, Government/statutory agencies and their role, Specific pressure groups wrt Lake WQ, Catchment and Lake stakeholdersOptions for development of the Plan for Action - What do we already know and understand and how do we fill the knowledge gaps?
· Clarifying what we know and what we don’t know, Technical support, Identifying knowledge gaps, Identify and evaluating options, Add up expected gains from selected options, What is the cost/who bears?, Recognise nutrient reductions may have different values, Agree action plan with community and stakeholders
Implementing the Plan for Action - The Plan for Action must have clear Goals, Actions and Responsibilities
· Goals, Actions and priorities, Responsibilities, Monitoring progress, Review of implementation, Review Plan for Action with community and stakeholders
Legislation and legal matters - How does the legislation affect restoration efforts?
· The RMA, NPSFW, LGA
Future prospects
Proposed feature box contributors:
· Suzie Kerr (TBC)
· Ned Norton (TBC)
Chapter 16: Linking citizen science with community environmental restoration: empowering/engaging volunteers to measure lake ecosystem health – Monica Peters, David Hamilton, Chris Eames
Handling editor: Kevin Collier
Abstract (<200 words and be followed by at least 5 keywords)
Introduction
· Brief summary of FW lakes and their decline in health
· FW policy and management
· Outline of key contrasts to US – reference to Feature Boxes
What is Citizen Science?
· Summary of concept, activities, outcomes
· Citsci directions in NZ
Community group engagement in lake and catchment restoration· Short para on study from where data in chapter are derived from
· Characteristics of groups· Summary of key lake, margin and catchment activities
· Development of toolkits and their use following MfE EPI program in mid-90s
· Challenges around toolkit use
· Opportunities around tech; groups’ interest in using more technology
· Data quality
Framework for developing and supporting a community environmental monitoring program
Future prospects
Proposed international feature box contributors:
· Kathie Weathers - Lake Sunapee Protective Association
· 16.2 Mark Hoyer – Lakewatch program a successful long-term community monitoring program
G. CONCLUSION
Chapter 17: Lake restoration - the future – Clive Howard-Williams, David Hamilton, John Quinn, Kevin Collier
Proposed feature box contributors:
· Vera Power - The policy and regulatory context for restoration
David Hamilton is Deputy Directory at the Australian Rivers Institute at Griffith University. He held the Bay of Plenty Chair in Lake Restoration at the University of Waikato, New Zealand for 15 years and led a major lake restoration programme designed to provide the underpinning research to address algal blooms and incursions of invasive fish. This programme provided the impetus for the current book. Hamilton is an associated editor on two international journals and has led several special issues of scientific journals. He has also held a position at the University of Western Australia where he developed and applied models of lake water quality.
Kevin Collier is a freshwater ecologist at the University of Waikato who has worked across the science-management interface for over 30 years. He has previously co-edited books synthesising ecological knowledge of New Zealand freshwater invertebrates (2000) and the country's longest river, the Waikato River (2010). He is associate editor on two international journals.
John Quinn is an aquatic ecologist who has been Chief Scientist for Freshwater and Estuaries at NIWA since 2015. Over the previous 20 years, he led cross-institute, interdisciplinary, research programmes on river, lake and estuary restoration, river ecosystems and land use interactions and managing forest harvest impacts on streams. He has been a guest editor of two special issues of scientific journals focused on the outputs of these programmes.
Clive Howard-Williams is currently Chief Science Advisor (Natural Resources) at New Zealand's National Institute for Water and Atmospheric Research. He has published widely on freshwater ecosystems from tropical to polar regions, and has led research programmes on wetland, lake and estuarine ecosystems. He has also been involved in freshwater consultancy work on freshwater restoration. Clive has been the guest editor of several books and journal special issues related to aquatic ecology.
Lakes across the globe require help. The Lake Restoration Handbook: A New Zealand Perspective addresses this need through a series of chapters that draw on recent advances in modelling and monitoring tools, citizen science and First Peoples’ roles, catchment and lake-focused restoration techniques, and policy implementation. New Zealand lakes, like lakes across the globe, are subject to multiple pressures that have increased in severity and scale as land use has intensified, invasive species have spread and global climate change becomes manifest. This books builds on the popular Lake Managers Handbook (1987), which provided guidance on undertaking investigations into, and understanding lake ecosystems in New Zealand. The Lake Restoration Handbook: A New Zealand Perspective synthesises contemporary issues related to lake restoration and rehabilitation, integrated with social science and cultural viewpoints, and complemented by authoritative topic-area summaries by renowned scientists and practitioners from across the globe. The book examines the progress of lake restoration and the new and emerging tools available to managers for predicting and effecting change. The book will be a valuable resource for natural and social scientists, policy writers, lake managers, and anyone interested in the health of lake ecosystems.
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