application of land management information to improve the tracking of changes and trends in the...
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Application of land management information to improve the tracking of changes and trends in the extent and
condition of native vegetation
Richard Thackway
Department of Science, Information Technology and InnovationBrisbane
28 October 2015
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Outline
• Set the context why land management practice (LMP) information is important?
• How do LMP change vegetation extent and condition• Need for a systems approach to collect LMP data• Case studies at site level – application of LMP• Opportunities to monitor and report and regional scales • Where to from here• Conclusions
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Setting the context
• Most changes over time in the extent and condition of native vegetation types can be accounted by changes in LU and LMP
• Obvious changes and trends in the structure, composition and function of native vegetation can be detected using remote sensing
• While environmental models are helpful they must access site data on the effects that LMP have on essential environmental variables
• More subtle changes in native vegetation extent and condition must be measured using ground-based observations of the interactions – Cause and effect of natural processes and LMP
LU = Land useLMP = land management practices
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The case for linking LMP and effects on structure, composition & function
• Land management practices (LMPs) are the ‘drivers’ that have been, are, or maybe used to transform landscapes and ecosystem services
• Some threats in reality, are LMPs that are not adequately resourced e.g.– Late dry season wildfire– Invasive native animals– Feral animals – Weeds
• A decision not to use LMP to manage/control or intervene is still a LMP decision that can have an effect on structure, composition & function
• NB: some changes in structure, composition & function are due to natural drives e.g. drought, floods, cyclones, climate change
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Modification of sites and landscapes
Indigenous land management
First explorers
Grazing
Degr
ee o
f re
silie
nce/
cond
ition
Tracked vehicles
Site 1
Site 2
Site 3
Time
Reference state
Long term rainfall
Long term disturbance e.g. wildfire, cyclones
Revegetation
Condition classes
Weeds Ferals
2015
Prescribed burning
Same ecosystem i.e. vegetation type
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Why is native
vegetation extent and condition
important?
Yapp, Walker and Thackway 2010
VAST 1 Residual/unmodified*
VAST II1 Transformed
* Reference
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How do management practices change vegetation condition over
time?
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How do land managers modify structure, composition & function (i.e. resilience) over time?
LMP that focus on soil
LMP that focus on native vegetation
Regenerative capacity/ function
Vegetation structure & Species composition
1. Soil hydrological status2. Soil physical status3. Soil chemical status4. Soil biological status5. Fire regime6. Reproductive potential7. Overstorey structure8. Understorey structure9. Overstorey composition10. Understorey composition
LMP = Land Management Practices
Focussing on 10 key criteria
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Common interventions designed to influence structure, composition & function
Various interventions: Land management practices (LMP) are used to influence ecological building blocks at sites and landscapes by:
• Modifying …• Removing and replacing …• Enhancing …• Restoring …• Maintaining …• Improving …
Various purposes:Including wood production, biodiversity conservation, water quality, minimize detection To achieve the desired mix of ecosystem services (space & time)
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Time series: T1, T2, T3, T4, T5 Land management practices that effect vegetation structure, composition and function i.e. extent and condition
Key criteria that land managers deliberately or inadvertently
change
Restoration and rehabilitation
Growth, maturity and reproduction
Harvest biomass or
productivity
Monitoring health & vitality
No activity
Degrade, extirpate or
remove and/or replace
1. Soil hydrological status (Fn) 2. Soil physical status (Fn) 3. Soil chemical status (Fn) 4. Soil biological status (Fn) 5. Fire regime (Fn) 6. Reproductive potential (Fn) 7. Overstorey structure (St) 8. Understorey structure (St) 9. Overstorey composition (Co) 10. Understorey composition (Co)
Need a framework for collecting LMP and their effects on extent and condition
Criteria Fn = functionalSt = structuralCo = compositional
LMP = Land Management PracticesLUMIS = Land use and management information system
LUMIS
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How does LUMIS work?
LUMIS is a framework • to compile and classify management practices /actions into 6 themes:
– Water– Plants/Vegetation– Animals– Soil– Air– Business
• That focuses on what land managers are managing vegetation for i.e the LMP they are using– Establishing and rehabilitating– Improving and maintaining growth and condition– Harvesting plant products and/or removing waste incl. weeds– Monitoring health, vitality and condition– No activity or interventions– Degrading, extirpating or removing and/or replacing
LUMIS = Land Use and Management Information System
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What has all this got to do with assessing the effects that land
management practices on native vegetation condition over time?
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Concepts and definitions
• Resilience = the capacity of an plant community to recover toward a reference state following a change/s in land management
• Change in condition of a plant community (type) is due to effects of land management practices on indicators of:
– Vegetation structure– Species composition – Regenerative capacity
• Transformation = changes in vegetation condition over time• Condition, resilience and transformation are assessed relative
to a fully natural Reference state
Vegetation condition(a composite index)
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Compiling the effects that LMP have on native vegetation condition over time
Species
composition
LMP = Land Management Practices
Effects on attributes, attribute groups and diagnostic attributes
LMPYear
Time
Vegetation structure Regenerative
capacity
Cause
LUM
IS
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Year Source: Year
LU & LMP Source: LU & LMP
Effects of land use and management on criteria and
indicators of vegetation condition
Source: Effects
1800
1840
2015
Establish a chronology of data and information of causes and effects /observed & measured responses
LU = Land Use, LMP = Land Management Practices
LUM
IS
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WA Wheatbelt BOM rainfall anomaly 1900-2010(modelled 5 km resolution)
Derived from monthly modelled rainfall data obtained from http://www.longpaddock.qld.gov.au/silo/
Rainfall anomaly relative to mean
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VAST = Vegetation Assets States and TransitionsNVIS = National Vegetation Information System
VIVIVIIIIII0
Native vegetationcover
Non-native vegetationcover
Increasing modification caused by use and management
Transitions = trend
Vegetation thresholds
Reference for each veg type (NVIS)
A framework for assessing modification of native vegetation condition
Condition states
Residual or unmodified
Naturally bare
Modified Transformed Replaced -Adventive
Replaced - managed
Replaced - removed
Thackway & Lesslie (2008) Environmental Management, 42, 572-90
Diagnostic attributes of VAST (classes):• Vegetation structure• Species composition• Regenerative capacity
VAST-2 criteria and indicators Change & Trend
NVIS
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Generate total indices for ‘transformation site’ for each year of the historical record. Validate using Expert Knowledge
• Compile and collate effects of land management on criteria (10) and
indicators (22) over time. • Evaluate impacts on the plant
community over time
Transformation site• Compile and collate effects of
land management on criteria (10) and indicators (22)
Reference state/sites
Score all 22 indicators for ‘transformation site’ relative to the ‘reference site’. 0 = major change; 1 = no change
Derive weighted indices for the ‘transformation site’ i.e. regenerative capacity (55%), vegetation structure (27%) and species composition (18%)
by adding predefined indicators
General process for tracking change over time
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Components (3)
Criteria(10)
Description of loss or gain relative to pre settlement indicator reference state (22)
Regenerative
capacity
Fire regime Change in the area /size of fire foot prints Change in the number of fire starts
Soil hydrology Change in the soil surface water availabilityChange in the ground water availability
Soil physical state
Change in the depth of the A horizon Change in soil structure.
Soil nutrient state
Nutrient stress – rundown (deficiency) relative to soil fertility Nutrient stress – excess (toxicity) relative to soil fertility
Soil biological state
Change in the recyclers responsible for maintaining soil porosity and nutrient recycling Change in surface organic matter, soil crusts
Reproductive potential
Change in the reproductive potential of overstorey structuring species Change in the reproductive potential of understorey structuring species
Vegetation structure
Overstorey structure
Change in the overstorey top height (mean) of the plant community Change in the overstorey foliage projective cover (mean) of the plant community Change in the overstorey structural diversity (i.e. a diversity of age classes) of the stand
Understorey structure
Change in the understorey top height (mean) of the plant community Change in the understorey ground cover (mean) of the plant community Change in the understorey structural diversity (i.e. a diversity of age classes) of the plant
Species Compositi
on
Overstorey composition
Change in the densities of overstorey species functional groups Change in no.s of indigenous overstorey species relative to the number of exotic species
Understorey composition
Change in the densities of understorey species functional groups Change in no.s of indigenous understorey species relative to the number of exotic species
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1
3
10
22
Com
pone
nts
(3)
VegetationTransformation
Score (1)
Crite
ria(1
0)
VegetationStructure
(27%)
Overstorey
(3)
Understorey
(3)
SpeciesComposition
(18%)
(2)
UnderstoreyOverstorey
(2)
RegenerativeCapacity
(55%)
Fire
(2)
Reprodpotent
(2)
Soil
Hydrology
(2)
Biology
(2)
Nutrients
(2)
Structure
(2)Indicators
(22)
VAST-2 – benchmark scoring of the effects of use and management of native veg (indicators) over time
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Case studies using VAST-2
Data and information used to populate the 22 indicators are derived either by direct measure in the field or from expert models or a combination of both
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Three sites with different land management histories
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Reference plant community type: Sub-tropical rainforest
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Source: J.W. Beattie. NSW State Library
Phillip Is, South Pacific
Source: Peter Coyne
Reference
1906
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Reference plant community type: Cool temperate rainforest
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Source: Forestry Commission NSW
Mount Boss State Forest, NSW
1961
Reference
Source: Ross Peacock
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Reference plant community type: Tussock grassland
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Regi
onal
eco
syst
em 8
.12.
13a
Regi
onal
eco
syst
em 8
.12.
13bSource: Jeanette Kemp
North Molle, IsReference
2009
Source: Jeanette Kemp
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Why do we need to collect data on • land management practices /actions When we already collect• attributes on vegetation structure,
composition and function?
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http://data.auscover.org.au/xwiki/bin/view/Product+pages/BurntArea+DoB+MODIS+CDU
1986 ongoing annual
Monitoring Burnt Area and Approximate Day of BurnVAST-2 indicators 1 & 2
MODIS
Landsat
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Source: http://www.clw.csiro.au/aclep/soilandlandscapegrid/ViewData-QuickView.html
Available Water CapacityVAST-2 Indicator 3 & 4
BASELINE ONLY
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Source: http://www.clw.csiro.au/aclep/soilandlandscapegrid/ViewData-QuickView.html
Bulk density VAST-2 Indicator 6
BASELINE ONLY
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Source: http://www.clw.csiro.au/aclep/soilandlandscapegrid/ViewData-QuickView.html
Organic CarbonVAST-2 Indicator 10
BASELINE ONLY
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Composites of persistence green cover and ALOS PALSAR HH and HV Source: Richard Lucas
Overstorey height, cover & structural diversityStructural indicators 13, 14 & 15
BASELINE ONLY
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Overstorey height, cover & structural diversityStructural indicators 13, 14 & 15
Source: Peter ScarthPolygons based on Landsat FPC (persistent green) and Allos radar backscatter at 25mVertical structure from IceSat . Mantuan Downs, Qld
BASELINE ONLY
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.
Persistent Green Fraction derived from Landsat archive
min
max
mask
Not per
Overstorey foliage coverStructural indicator 14
Source: http://data.auscover.org.au/xwiki/bin/view/Product+pages/Landsat+Fractional+Cover
1986 ongoing annual
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0
20
40
60
80
100
1985 1990 1995 2000 2005 2010
YearFP
C
Source: Tim Danaher
1986 ongoing annual
Overstorey foliage coverStructural indicator 14
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Ground CoverStructural indicator 17
Source: http://data.auscover.org.au/xwiki/bin/view/Product+pages/Landsat+Fractional+Cover
Red areas are bare ground
Green is showing green cover
Blue is showing non-green veg cover
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Ground CoverStructural indicator 17
Source: Phil Tickle CRCSI
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Monitoring Ground CoverVAST-2 indicator 17
Source: Phil TickleBelconnen naval transmitter station, ACT
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Why has the collection and development of LMP been so neglected?
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Some reasons why LMP data are neglected
• LMP are regarded as too complex in space and time • Ecologists tend to regard LMP as high noise : signal i.e. social science • Cheaper to collect, classify and interpret post hoc patterns in RS images• Lack of recognised LMP standards: survey, classification & mapping• Knowledge of the effects of LMP on ecosystem structure, composition
and function is held locally• Cheaper not to measure management systems but to assign a code of
practice e.g. public forestry
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More work needs to done
• Remote sensing and environmental models of extent and condition of types provide variable answers - definitely not 100%
• Challenge - to systematically collect/compile, site data over time on – effects on LMP on key indicators of vegetation extent and condition
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What can land managers do?
• Systematically record, collect and compile land management practices• Develop a capacity to use the LUMIS framework • Develop an understanding of resultant changes & trends in key veg
/ecological attributes i.e. adaptive management – Structure, composition and function of the native vegetation
• Work with public/private land management agencies to develop and implement systems to track outcomes of adaptive management
• Access and use government generated multi-spatial and multi-temporal whole of landscape datasets in day-to-day management & give feedback
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Conclusions
• There are many opportunities for public-private partnerships to collect LMP data and the observed effects on vegetation extent and condition
• LUMIS was developed as Commonwealth /state agency partnership but it has not been published and therefore is largely unused
• Compiling and synthesizing site-based LMP data over time provides powerful insights into patterns observed in time series remote sensing
• Ideally we need an information system which informs the survey, classification and mapping and modelling of LMP at various scales
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More info & Acknowledgements
More informationhttp://www.vasttransformations.com/http://portal.tern.org.au/searchhttp://aceas-data.science.uq.edu.au/portal/
Acknowledgements• University of Queensland, Department of Geography Planning and Environmental Management for
ongoing research support• Many public and private land managers, land management agencies, consultants and researchers have
assisted in the development of VAST & VAST-2• I gratefully acknowledge the assistance of following researchers for access to, and use of their research:
Peter Coyne (Phillip Island, Norfolk Island Territory, South Pacific); Ross Peacock (ex-mount Boss State Forest compartment 77, Willi Willi National Park, Hastings-Macleay Group of the World Heritage Site Gondwana Rainforests); Keith McDonald (North Molle Island, (northern and central section), Molle Group, Cumberland Islands, Qld)