jeanne l. d. osnas, jeremy w. lichstein , stephen w. pacala , peter b. reich june 2013
DESCRIPTION
Leaf area- vs. mass-proportionality of leaf traits within canopies and across species: patterns and analytical consequences. Jeanne L. D. Osnas, Jeremy W. Lichstein , Stephen W. Pacala , Peter B. Reich June 2013. 300,000 vascular plant species - PowerPoint PPT PresentationTRANSCRIPT
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Leaf area- vs. mass-proportionality of leaf traits within canopies and
across species: patterns and analytical consequences
Jeanne L. D. Osnas, Jeremy W. Lichstein, Stephen W. Pacala, Peter B. Reich
June 2013
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• 300,000 vascular plant species• global vegetation models: 5-10
plant functional types
Foley et al. 1996Barthlott et al. 1999
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Barthlott et al. 1999
GLOPNET (Wright et al. 2004): 2500+ species• Gas exchange rates• Max net photosyn. (Amax)• Dark respiration (Rdark)
• Nutrient concentrations• Nitrogen (N)• Phosphorus (P)
• Leaf lifespan (LL)• LMA = mass/area
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Area-normalized Mass-normalized
Xmass = Xarea/LMA
X = Amax, Rdark, N, PGLOPNET
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Area-normalized Mass-normalized
GLOPNET
Which to choose?
Area- or Mass- proportional?
Structured trait relationships
normaliza
tion
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Trait area- and mass-proportionality across species
Total leaf trait i: Xik = (Massk μMi + Areak μAi)εik
Mass-normalized: XMik = (μMi + LMAk-1 μAi)εik
Area-normalized: XAik = (LMAkμMi + μAi)εik
μMi, μAi constant across speciesεik = random variable (interspecific variation)
Osnas et al. (2013) Science
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Quantify trait area- and mass-proportionality across species
Total leaf trait i: Xik = (Massk μMi + Areak μAi)εik
Mass-normalized: XMik = (μMi + LMAk-1 μAi)εik
Area-normalized: XAik = (LMAkμMi + μAi)εik
μMi, μAi constant across speciesεik = random variable (interspecific variation)
Osnas et al. (2013) Science
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Quantify trait area- and mass-proportionality across species
Total leaf trait i: Xik = (Massk μMi + Areak μAi)εik
Mass-normalized: XMik = (μMi + LMAk-1 μAi)εik
Area-normalized: XAik = (LMAkμMi + μAi)εik
μMi, μAi constant across speciesεik = random variable (interspecific variation)
Osnas et al. (2013) Science
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Mass-normalization of area-proportional traits induces strong correlations
Osnas et al. (2013) Science; Lloyd et al. (2013) New Phytologist
Random N = random draws from lognormal distribution parameterized with GLOPNET Narea
GLOPNET LMA
“area-proportional”
Rand
om N
LMA
Area-normalized Mass-normalized
LMA
Rand
om A
max
LMA LMA
Rand
om N
Area-normalized Mass-normalized
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Mass-normalization of area-proportional traits induces strong correlations
Osnas et al. (2013) Science; Lloyd et al. (2013) New Phytologist
Rand
om A
max
mas
s
Random Nmass
High LMA
Low LMA
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Random area-normalized GLOPNET mass-normalized
Osnas et al. (2013) Science
Random mass-normalized
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How do we know if traits are area-proportional, mass-proportional, or something in between?
• Quantify trait mass-proportionality • Across species in the global flora
• Normalization-independent trait relationships
• Discuss consequences
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Osnas et al. (2013) Science
Quantify trait area- and mass-proportionality across species
Total leaf: Area-normalized:Mass-normalized:
Area-normalized: log(XAik) = Ii + Si log(LMAk) + nik
Mass-normalized: log(XMik) = Ii + (Si − 1) log(LMAk) + nik
Ci, Si constant across speciesεik = distribution of interspecific variation
Si = mass-proportionality across species
nik is trait variation conditional on LMA (normalization-independent)
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Osnas et al. (2013) Science
Quantify trait area- and mass-proportionality across species
Total leaf: Area-normalized:Mass-normalized:
Area-normalized: log(XAik) = Ii + nik
Mass-normalized: log(XMik) = Ii − log(LMAk) + nik
Ci, Si constant across speciesεik = distribution of interspecific variation
Purely area-proportional: Si = 0
Si = mass-proportionality across species
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Osnas et al. (2013) Science
Quantify trait area- and mass-proportionality across species
Total leaf: Area-normalized:Mass-normalized:
Area-normalized: log(XAik) = Ii + log(LMAk) + nik
Mass-normalized: log(XMik) = Ii + nik
Ci, Si constant across speciesεik = distribution of interspecific variation
Si = mass-proportionality across species
Purely mass-proportional: Si = 1
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Normalization-independent trait relationshipslog(XAik) = Ii + Si log(LMAk) + nik
• i = 1 to 4 (Amax, Rdark, N, and P)
Osnas et al. (2013) Science
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Traits are mostly area-proportional across species in the global flora, although N and Rdark have minor but significant mass-proportional components.
Normalization by mass (substantially) or area (somewhat) can create potentially misleading structure in trait relationships – PC1 of mass-normalized GLOPNET data ≈ LMA
Using trait relationships– Functional diversity as a species continuum with at least 2
axes:• PC1 of normalization-independent PCA• LMA• Maybe LL, other traits