sampling mapping forest resources using satellite lidar ...sampling &mapping forest...
TRANSCRIPT
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Sampling Sampling && Mapping Forest ResourcesMapping Forest Resources
Ross NelsonRoss NelsonNASANASA –– Goddard SpaceGoddard Space
Using Satellite LiDAR DataUsing Satellite LiDAR DataNASA NASA –– Goddard Space Goddard Space
Flight CenterFlight CenterBiospheric Sciences Branch Biospheric Sciences Branch Code 614.4Code 614.4
With guest appearances by:
Dan Kimes, Jon Ranson, Guoqing Sun,Paul Montesano, Slava Kharuk,
Erik Næsset, Terje Gobakken,Jonathan Boudreau, Hank Margolis, André Beaudoin, Chhun-Huor Ung, Luc Guindon, Philippe Villemaire,
Tim Gregoire, Göran Ståhl
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But first, a little background….
Outline:Outline:- Siberia
Q b- Quebec
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WILL LAND ECOSYSTEMS
EXACERBATE OR MITIGATE WARMING ?
Largest remaining uncertainties about the Earth’s carbon budget are in its terrestrial components.
7.6 ± 0.4NEED TO REDUCE THESE UNCERTAINTIES
Global Carbon Budget (Canadell et al., 2007)
To Atmosphere
Unidentified
4.1 ± 0.04
1.5 ± 0.5
UNCERTAINTIES
Fossil Fuels Land Use
Ocean Uptake
Unidentified(“missing”)Terrestrial
SinkAtmospheric
To L d/O
Fossil FuelsChange
Peta (1015) grams of carbon/year
pCarbon
2.2 ± 0.4Land/Ocean 2.2 ± 0.42.8 ± 0.7TROPICAL BIOMASS
LARGEST CONTRIBUTOR
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The map shows areas with a canopy cover of at least 40%least 40% by woody plants taller than 5 meters
From 1990 to 2000, the global area of temperate forest increased by almost 3 million hectares per year, while deforestation in the tropics occurred at an
Millennium Ecosystem Assessment Synthesis Report (2005)
average rate exceeding 12 million hectares per year over the past two decades.
Uncertainty in biomass change is greatest in tropics. Biomass density more uncertain than changes in forested area.
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So how can we use lasers to measure the amount of wood on the ground?g
Airborne lasers (LiDARs) measure distance:
ground dist – tree dist. → tree height
tree height α biomass α carbon
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photo: Kaiguang Zhao, TAMU
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ICESat Land ApplicationsICESat Land Applications
Courtesy of Dave Harding, NASA GSFC
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GLAS Waveform Range Offsets & Elevations
1064 nmLaser Pulse
Travel TT
ime
ReturnAmplitude
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Outline:Outline:- Siberia
- Quebec
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Study Area #1: South Central Siberia (Ranson/Sun/Kimes/Kharuk/Montesano)
- just NW of Lake Baikal(N of Irkutsk to Krasnoyarsk,- 10° x 12° area,
811 414 k 2- 811,414 km2,- 55 GLAS orbits, L2a,- 101,831 GLAS pulses,- ~17.6 km between fls.- MODIS for land cover, - GLAS for biomass
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Study Area in Central Siberia
• 80˚ to 110˚ Longitude and 50˚ to 75˚ LatitudeLatitude
• The Russian forest contains 22% of the Earth’s forest area.
• Biomass/carbon estimates for these vast forest have only recently been characterized.
F i d i hi i i• Forest inventory data in this region is lacking and decades old.
90N
MODIS MOD09 8-day composite, date: July 12 2003, Band combination: True Color
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GODDARD SPACE FLIGHT CENTERBIOSPHERIC SCIENCES BRANCH
Kimes, Ranson, Sun, Nelson, Kharuk, Montesano.
Goals:Goals:Goals:Goals:
•Produce the most accurate maps possible of timber volume and above ground forest phytomass/carbon stocks
for the Siberian study area.
• Develop test and integrate new remote sensingDevelop, test, and integrate new remote sensing methods for extracting forest canopy structure measures using MODIS and GLAS data.
• Compare these new remote sensing methods with existing ground estimates.
• Produce a realistic error bound on the remotely sensed carbon and timber volume estimates.
Carbon1.ppt
carbon and timber volume estimates.
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Predicted Timber Volume - NN - 6 GLAS Variables(MedH, Ht2, Fslope, Mjp2loc, Ga3, Npk); R2=0.78, RMSE=81 m3/ha
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picture: J. Boudreau
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GODDARD SPACE FLIGHT CENTERBIOSPHERIC SCIENCES BRANCH
Kimes et al.: Landcover Attributes from ICESat GLAS Data
MethodsMethods
• Produce MODIS classification (500 m res.)• Process waveform data for each GLAS shotProcess waveform data for each GLAS shot• Develop models to extract timber volume,
biomass, and height using field data.• Apply models to all GLAS shots in the study
area.• Produce timber volume and biomass maps
and a statistical error bound on the estimates for each class and for the total study area
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Timber Volume MapTimber Volume Map1010°°x 12x 12°°Study AreaStudy Area1010 x 12x 12 Study AreaStudy AreaGLAS and MODIS data:GLAS and MODIS data:
•• MODIS forest classesMODIS forest classes•• MODIS forest classes MODIS forest classes • • MODIS % tree cover MODIS % tree cover • • GLAS timber volumeGLAS timber volume
Total Timber Volume (mTotal Timber Volume (m33/ha):/ha):Mean Forested Area:Mean Forested Area:Mean Forested Area:Mean Forested Area:
MODIS/GLAS (10MODIS/GLAS (10°° slope)slope)163.4 163.4 ±± 11.8 m11.8 m33/ha/ha
MODIS/GLAS (90MODIS/GLAS (90°° slope)slope)MODIS/GLAS (90MODIS/GLAS (90 slope)slope)171.9 171.9 ±± 12.4 m12.4 m33/ha/ha
Shepashenko et al. (1998)Shepashenko et al. (1998)162.1 m162.1 m33/ha/ha
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Above Ground PhytomassAbove Ground Phytomass1010°°x 12x 12°° Study AreaStudy Area
Using GLAS and MODIS data:Using GLAS and MODIS data:•• MODIS forest class,MODIS forest class,,,•• MODIS % tree cover,MODIS % tree cover,•• GLAS timber volumeGLAS timber volume
Total Phytomass:Total Phytomass:forested area (10forested area (10°°slope):slope):
86 786 7 ±± 6 3 /h6 3 /h86.7 86.7 ±± 6.3 ton/ha6.3 ton/haforested area (90forested area (90°°slope):slope):
90.3 90.3 ±± 6.7 ton/ha6.7 ton/ha
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Above Ground Carbon Estimates (Pg)Central Siberia (10X12 degree study area)
Forest:( g y )
4
2
3
etag
ram
s)
95% CI
1
2
Wei
ght (
pe
0Russian Forest
Map (1990)Land
Resources ofSPOT-based1km Gobal
MODIS MOD12-IGBP 1km Land
MODIS-based500m Land
GLAS/MODIS500m (2003)Map (1990) Resources of
Russia1km GobalLand Cover
(2000)
IGBP 1km LandCover (2001)
500m LandCover (2003)
500m (2003)
Dataset
[1.95±0.14 Pg]
Nelson et al.(2008)
Stolbovoiet al. (2002)
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Siberia – results:
1. Siberia: GLAS estimates of merchantable volume agree with ground estimates on a 811,414 km2 study area insouth-central Siberia.
MODIS/GLAS (10MODIS/GLAS (10°° slope) slope) 163.4 163.4 ±± 11.8 m11.8 m33/ha/haMODIS/GLAS (90MODIS/GLAS (90°° slope) slope) 171.9 171.9 ±± 12.4 m12.4 m33/ha/haShepashenko et al. (1998), ground Shepashenko et al. (1998), ground 162.1 m162.1 m33/ha/ha
10°forest estimates: + 0.8% difference, CV: 7.2%90°forest estimates: + 6.0% difference, CV: 7.2%
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Outline:Outline:- Siberia
Q b- Quebec
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“A Realistic Analysis of the Variability of
QCLP – Quebec Carbon LiDAR Projecty y
Carbon Estimates Using Airborne and Space LiDAR”The QCLP Team:- Ross Nelson – NASA/GSFC
Dan Kimes NASA/GSFC- Dan Kimes – NASA/GSFC- Hank Margolis – Laval Univ.- Jonathan Boudreau – Laval Univ.- André Beaudoin – CFS- Chhun-Huor Ung – CFSg- Luc Guindon – CFS- Philippe Villemaire - CFS- Tim Gregoire – Yale Univ.- Erik Næsset – Nor. Univ. Life Sci.- Terje Gobakken – Nor Univ Life Sci- Terje Gobakken – Nor. Univ. Life Sci.- Göran Ståhl – Swed. Univ of Ag. Sci.
+ Ryan Collins, Capitol Air
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The Quebec sampling plan:
Satellite LiDAR:GLAS (9-11/03)
bPALS = f(ht, cc)GLAS
Airborne LIDAR:PALS (8/05)
bground = f(ht, cc)PALS
Ground Reference:MNRQ and CFS ground plots (400 m2).
(y2000 – 2004)
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photo:J. Boudreau
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l t t 59 75N
~62N
last tree ~59.75N
1710km
1056km
62N
1061km
~55N
~50N775km
~49N
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The Quebec sampling plan:Satellite LiDAR:)(753.0)(587.6)(846.3)515.4(ˆ
SRTMGLASGLASPALS rfwb −−+−=GLAS (9-11/03)
N 1325 Rsq 0.6012AdjRsq0.6003RMSE 31.986
75
100
125
150
175
)()()()( SRTMGLASGLASPALS f
ass
(t/ha
)
bPALS = f(ht, cc)GLAS
-50
-25
0
25
50
75
GLA
S bi
oma
Airborne LIDAR:PALS (8/05)
535.2)(154.10ˆ −= qaground hb
-25 0 25 50 75 100 125 150 175 200 225 250
PALS biomass (t/ha)
bground = f(ht, cc)PALS
biom
ass (
t/ha)
ry
bio
mas
s (t/h
a)
dry dr
)(mhqa
Ground Reference:MNRQ and CFS ground plots (400 m2).
(y2000 – 2004)
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photo: J. Boudreau
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MNRQ Ground Reference GLAS estimates
Accuracy Assessment: Quebec Southern Ecozones - Regional Estimates:
biomass stan.err. no. Biomass stan.err. percent(t/ha) (t/ha) plots (t/ha) (t/ha)‡ difference
Northern TemperateEcozone: (109,769 km2)Ecozone: (109,769 km )Conifer 76.60 5.82 49 64.69 1.86 - 15.5Deciduous 77.85 4.95 176 89.91 4.62 + 15.5Mixedwood 65.91 2.79 313 82.22 1.21 + 24.7
Mi d d EMixedwood Ecozone:(98,101 km2)
Conifer 85.90 1.57 583 74.61 3.14 - 13.1Deciduous 75.00 2.98 290 82.98 3.33 + 10.6Mixedwood 87.15 1.43 1177 81.80 1.53 - 6.1
Southern Boreal Ecozone:(374,665 km2)
Conifer 86.36 0.37 10,007 63.80 5.07 - 26.1Deciduous 56 71 1 77 617 60 68 3 42 + 7 0Deciduous 56.71 1.77 617 60.68 3.42 + 7.0Mixedwood 82.16 0.73 3602 68.54 1.93 - 16.6
Provincial Comm. For. 81.90 0.50 16814 76.14 2.52 - 7.0
‡ SRS standard errors, stratified linear model, w/prediction error, w/covariance.
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photo:J. Boudreau
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…that would be
5.04 ± 0.42 Gt dry biomass,
or 2.52 ± 0.21 Gt C
in QuebecThank you.
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Summary:
1. Quebec: - GLAS estimates of dry biomass within 1-26% of MNRQ ground
estimates for commercial forest cover types - 582,536 km2.- assessed 1.27 million km2 using a space LiDAR.
ETM+/PALS/GLAS: 76.1 ± 2.5 t/ha (97 orbits)MNRQ ( d) 81 9 ± 0 5 t/h (16 814 l t )MNRQ (ground): 81.9 ± 0.5 t/ha (16,814 plots)
% difference: -7.0%CV, GLAS: 3.3%
So can you do large area forest inventories with ICESat/GLAS?
Yes.
Any problems associated with using GLAS for large area forest inventoryand monitoring?
Yes, significant problems.
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Problems include:1. An apparent inability of GLAS to accurately measure short-stature, open forest.
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PALS Mean Height GLAS Mean Height
PALS & GLAS Heights x Latitude
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a convolved2. Slope + large footprint waveform LiDAR = topography-forest canopy waveform
Problems include:
Slope effects can be mitigated with DTMs.
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Problems include:
3 C S /G S 2008 2013. An observational hole in ICESat/GLAS data acquisitions, ca. 2008 – 2015.
4. A possibility that ICESat II (launch ~2015) will have degraded forest4. A possibility that ICESat II (launch 2015) will have degraded forestmeasurement capability due to - ∆ footprint size (50m to 70m),
- ∆ pulse width (6 ns to 10 ns).
5. Unable to assess/measure forest degradation, i.e., the intermittent, scattered removal of individual high-value trees from a forest.
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Satellite optical data, e.g., ETM, SPOT, MODIS → forest location and type.
Satellite LiDAR data to measure structure, estimate biomass and carbon.
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Current Outlook on U.S. Satellite LiDARs:
ICESat I / GLAS: (ice mission)( )- 65m footprint, 172 m post spacing, waveform, 6 ns pulse width,- single beam system, 15 km between orbits at equator (91 day repeat),- launched Jan. 2003,
died October 19 2008 (will it rise again ?)- died October 19, 2008 (will it rise again ?)
ICESat II/GLAS:- launch due sometime in 2015 (ice mission)- launch due sometime in 2015, (ice mission)- 50-70m footprint, 140 m post spacing, waveform, 6-10 ns pulse width,- single beam system, 15 km between orbits, possible off-nadir pointing
to pick up across-track slope,- 3-5 year mission.
DESDynI: with L-band radar (?) (solid earth mission)l h 2015 2017 (??)- launch ~2015-2017 (??),
- 25 m footprint, contiguous, 3-5 beams across-track, 3-5 year mission.
LIST: a swath mapper launch 2017++??? (hydrology mission)LIST: a swath mapper, launch 2017++??? (hydrology mission)- 5 m footprint, contiguous footprints, waveform- complete global coverage over 5 years.
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GLAS-related Publications:
1 Boudreau J R F Nelson H A Margolis A Beaudoin L Guindon D S Kimes 20081. Boudreau, J., R.F. Nelson, H.A. Margolis, A. Beaudoin, L. Guindon, D.S. Kimes. 2008.Regional aboveground forest biomass using airborne and spaceborne LiDARin Québec. Remote Sensing of Environment 112(10): 3876 – 3890.
2 Gregoire T G Q F Lin J Boudreau and R Nelson 2008 Regression estimation following2. Gregoire, T.G., Q.F. Lin, J. Boudreau, and R. Nelson. 2008. Regression estimation following the square-root transformation of the response. Forest Science 54(6): 597-606.
3. Nelson, R.F., E. Næsset, T. Gobakken, G. Ståhl, and T. Gregoire. 2008. Regional Forest Inventory Using an Airborne Profiling LiDAR Journal of Forest Planning 13: 287 294Inventory Using an Airborne Profiling LiDAR. Journal of Forest Planning 13: 287 - 294.
4. Nelson, R., J. Boudreau, T. Gregoire, H. Margolis, E. Næsset, T. Gobakken, and G. Ståhl. 2009. Estimating Québec Provincial forest resources using ICESat/GLAS. Canadian Jo rnal of Forest Research in pressJournal of Forest Research, in press.
5. Nelson, R., K.J. Ranson, G. Sun, D. Kimes, V. Kharuk, and P. Montesano. 2009. Estimating Siberian timber volume using MODIS and ICESat/GLAS. Remote Sensingof Environment 113(3): 691 701 doi:10 1016/j rse 2008 11 010of Environment 113(3): 691-701. doi:10.1016/j.rse.2008.11.010.
6. Nelson, R. 2009. Model effects on GLAS-based regional estimates of biomass and carbon.International Journal of Remote Sensing, accepted for publication.
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Statistical Framework:
nijk
∑ ˆp
ijkp
k
bb
∑== 1ˆ
ijkijk n
b
The orbit becomes my unit of observationof observation.
i vegetation zonei - vegetation zone, j - cover type, k - orbit, p – pulse.
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Cover Type Biomass Estimate within Vegetation Zone:
ijk
n
ijkij bwbij
ˆˆ ∑= where∑
=ijn
ijkijk
nw
ijkk
ijkij1∑= ∑
=kijkn
1
n
∑=
ijn
kijkw
1
= 1.0
nij
1
)ˆˆ()ˆr(av 1
2−=∑=k
ijijkijk
ij
bbwb
j
i vegetation zone
SRS:
1)(
−ijij n i - vegetation zone,
j - cover type, k - orbit, p – pulse.
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Vegetation Zone Estimates of Biomass:
∑=in
ijiji bwb ˆˆ ijij
aw = ∑
in
ijw = 1.0and∑=j
jj1 i
j a ∑=j
ij1
1
)ˆ,ˆv(oc2)ˆr(av)ˆr(av1
1 11
2imij
n
j
n
jmimij
n
jijiji bbwwbwb
i ii
∑ ∑∑−
= +==
+=
)ˆˆ()ˆˆ(),( ),(
∑ ∑n n
bbbbmji mji
1
)()()ˆ,ˆv(oc 2
),(
1 1
−
−−=∑ ∑= =
mji
imimlk
ijijkl
imij n
bbbbbb
),( j
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Provincial Estimates – four models:(n=104,044 , 97 orbits, SRS)
dry biomass estimates Prov. biom. totalsmodel mean(t/ha) SE (t/ha) CV(%) total(Gt) SE (Gt)model mean(t/ha) SE (t/ha) CV(%) total(Gt) SE (Gt)
believe GLASSqrt, nostr, noreg 41.72 2.82 6.8 5.29 0.35
Lin, nostr, reg 40.65 5.13 12.6 5.15 0.65
believe ETM+Lin, str, reg 39.78 3.17 8.0 5.04 0.40
Sqrt, str, noreg 38.94 2.17 5.6 4.94 0.28
ΔC = 0.18 Gt(~7% diff.)
- cannot add regression error to sqrt model (positive bias)- stratified models lower due to nonforest biomass = 0 regardless of GLAS