Improving GPP, NPP, and NEE predictions from space
Improving GPP, NPP, and NEE predictions from space
I R S S
Richard Waring1
Nicholas Coops2
Joe Landsberg3
1 Oregon State University 2 University of British Columbia3 Mt Wilson, NSW 2786, Australia
Richard Waring1
Nicholas Coops2
Joe Landsberg3
1 Oregon State University 2 University of British Columbia3 Mt Wilson, NSW 2786, Australia
Photo: Courtesy of Auro Almeida
Eucalyptus plantationGPP =6,000 g C m-2 yr-1
Brazilian rainforestGPP =3,000 g C m-2 yr-1
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LA
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Eucalyptus Native forest
Brazilian plantation LAI decreases with age as trees approach 40 m in heightat 7 years when harvested. Drought reduces LAI more when stand is young than older
Drought
Auro Almeida, CSIRO Tasmania, unpublished
Drought
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Eucalyptus Native forest
In the Atlantic Coastal Region of Brazil,native rainforests and eucalyptus plantations usesimilar amounts of water although LAI differs by > 2 fold.Reason: eucalypts are fertilized & have twice the photosynthetic capacity and twice the max. canopy conductance of the rainforest.
Auro Almeida, CSIRO Tasmania, unpublished
Objective: to provide ecological insights to improve predictions of GPP, NPP, and NEE from space
I. GPP: set limits and identify constraints
II. NPP: allocation above and below ground
III. NEE: correlation with GPP
Ecosystem Model Structure
Waring, Coops, & Landsberg 2009 For. Ecol & Mgmt (in press)
Leaf chlorophyll conc. linearly related to maximum photosynthetic
capacity (link to soil fertility)
Waring et al. 1995. Plant Cell & Env. 18: 1201-1218. Zhang et al. 2009. Remote Sen. Env. 113: 880-888.
Leaf conductance (g) and photosynthetic capacity (A) decrease with (relative) tree height & hydraulic conductivity
(KL)
Ambrose et al. 2009. Plant, Cell & Env. 32: 743-757.Hubbard et al. 2001. Plant, Cell & Env. 24: 113-121.
Stomatal response to vpd varies by an order of
magnitude among species in boreal forests
Dang et al. 1997. Tree Physiology 17: 521-535.
VPD response is a function of maximum canopy conductance
Stomatal sensitivity to vpd is a negative log function (slope =0.6) to maximum conductance at 1 kPa (r2 = 0.75).
Oren et al. 1999. Plant, Cell & Env.22:1515-1535.
As the soil water deficit increases beyond a threshold, water loss through transpiration is progressively reduced below its potential as stomata close
Source: Landsberg & Gower 1997. Fig. 4.5. “Application of Physiological Ecology to Forest Management.” Academic Press, San Diego, CA
Eucalyptus maculata
Root depth determines access to water
28 m
Photo: courtesy of Keith Smettem,University of Western Australia
Eucalyptus
marginata
depth that roots penetrate
Photo: courtesy of E.D. Schulze
To evaluate soil water limitations, need to assess changes in canopy properties
(LAI, fPAR, PRI, & wetness)
Canadell et al. 1996. Oecologia 108:583-595
Photosynthetic Reflectance Index(Gamon et al. 1992. Rem. Sen. Env. 41:35-44)
Suarez et al. 2009. Rem.Sen. Env. 113:730-744.Trotter et al. 2002. Int. J. Rem. Sen.23: 1207-1212.
8 species in New Zealand Olive trees
Hall et al. 2008. Remote Sensing of Env. 112: 3201-3211
Douglas-fir (sunlite) Campbell River, B.C.
Partitioning of forest NPP below ground ranges from 20% to 60% (Waring et al. (1998). When GPP 2500 g C m-2 yr-1
(respiration + NPPb) ~ minimum
Litton et al.
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GPP, gC m-2 yr-1
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Litton et al. 2007. Global Change Biology 13: 2080-2109Chen et al. 2003. Oecologia 137: 405-416Stape et al. 2008. For. Ecol. & Mgmt. 255: 920-930.Waring et al. 1998. Tree Physiol. 18:129-134.
tropical savanna
young ponderosa pine
aspen
black sprucejack pineold ponderosa pine
N =38
plantations
NEE varies seasonally by type of vegetation, as does GPP
After Baldocchi 2009 Aust. J. Bot. (in press)
After Baldocchi 2009 Aust. J. Bot. (in press)
Predicting Ecosystem Respiration or NEE (GPP-Reco) as a function of eddy-flux measured GPP
r2 = 0.9 =0.77
=0.94
To improve predictions of GPP, NPP, and NEE from space
• Chlorophyll light absorbance is better than nitrogen content to estimate max. conductance and photosynthetic capacity.
• Max. conductance and photosynthetic capacity are reduced as trees approach site & species-specific maximum height.
• PRI is a good check on modeled constraints on GPP
• GPP is more important to estimate accurately than NPP, although NPPA would be helpful to validate model predictions of growth allocation.
• Allocation of NPP (& respiration) increases below-ground if water and nutrients are not available, generally not the case if GPP 2500 g C m-2 yr-1.
• Ecosystem respiration is ~ 75% of GPP in undisturbed systems, ~ 95% in disturbed systems. Be able to distinguish disturbed systems & recovery.
Email: [email protected] Nicholas Coops [[email protected]] Joe Landsberg [[email protected]]
Waring, Coops, & Landsberg. 2009. Improving predictions of forest growth using the 3-PGS model with observations made by remote sensing. For. Ecol. & Mgmt. (in press). (RHW Pub. No. 108). www.fsl.orst.edu/~waring