A survey of leaf phosphorus fractions and leaf economic traits among 12 co-occurring woody species on phosphorus-impoverished soils

Background and Aims The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and to the duration of returns on those investments (leaf lifespan, LL). Phosphorus (P) is a key limiting nutrient for plant growth, yet it is un...

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Published in	Plant and soil Vol. 489; no. 1-2; pp. 107 - 124
Main Authors	Tsujii, Yuki, Fan, Baoli, Atwell, Brian J., Lambers, Hans, Lei, Zhangying, Wright, Ian J.
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.08.2023 Springer Springer Nature B.V
Subjects	Agriculture Analysis Australia Biomedical and Life Sciences cell respiration Correlation Ecology Economics Identification and classification Investments Leaves Life Sciences Life span Lipids longevity Metabolites Methods nitrogen content Nucleic acids Nutrients Orthophosphate orthophosphates Phosphorus Photosynthesis Plant growth Plant Physiology Plant Sciences Plant-soil relationships Research Article resorption soil Soil Science & Conservation Soils Species specific leaf weight surveys Woody plants Australia China Stoichiometry Phosphorus deficiency Trade-off Functional traits Carboxylation rate Element cycling Nutrient-use efficiency Photosynthetic P-use efficiency
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Abstract	Background and Aims The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and to the duration of returns on those investments (leaf lifespan, LL). Phosphorus (P) is a key limiting nutrient for plant growth, yet it is unclear how the allocation of leaf P among different functions is coordinated with the LES. We addressed this question among 12 evergreen woody species co-occurring on P-impoverished soils in south-eastern Australia. Methods Leaf ‘economic’ traits, including LL, leaf mass per area (LMA), light-saturated net photosynthetic rate per mass (A mass ), dark respiration rate, P concentration ([P total ]), nitrogen concentration, and P resorption, were measured for three pioneer and nine non-pioneer species. Leaf P was separated into five functional fractions: orthophosphate P (P i ), metabolite P (P M ), nucleic acid P (P N ), lipid P (P L ), and residual P (P R ; phosphorylated proteins and unidentified compounds that contain P). Results LL was negatively correlated with A mass and positively correlated with LMA, representing the LES. Pioneers occurred towards the short-LL end of the spectrum and exhibited higher [P total ] than non-pioneer species, primarily associated with higher concentrations of P i , P N and P L . There were no significant correlations between leaf P fractions and LL or LMA, while A mass was positively correlated with the concentration of P R . Conclusions Allocation of leaf P to different fractions varied substantially among species. This variation was partially associated with the LES, which may provide a mechanism underlying co-occurrence of species with different ecological strategies under P limitation.
AbstractList	Background and AimsThe leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and to the duration of returns on those investments (leaf lifespan, LL). Phosphorus (P) is a key limiting nutrient for plant growth, yet it is unclear how the allocation of leaf P among different functions is coordinated with the LES. We addressed this question among 12 evergreen woody species co-occurring on P-impoverished soils in south-eastern Australia.MethodsLeaf ‘economic’ traits, including LL, leaf mass per area (LMA), light-saturated net photosynthetic rate per mass (Amass), dark respiration rate, P concentration ([Ptotal]), nitrogen concentration, and P resorption, were measured for three pioneer and nine non-pioneer species. Leaf P was separated into five functional fractions: orthophosphate P (Pi), metabolite P (PM), nucleic acid P (PN), lipid P (PL), and residual P (PR; phosphorylated proteins and unidentified compounds that contain P).ResultsLL was negatively correlated with Amass and positively correlated with LMA, representing the LES. Pioneers occurred towards the short-LL end of the spectrum and exhibited higher [Ptotal] than non-pioneer species, primarily associated with higher concentrations of Pi, PN and PL. There were no significant correlations between leaf P fractions and LL or LMA, while Amass was positively correlated with the concentration of PR.ConclusionsAllocation of leaf P to different fractions varied substantially among species. This variation was partially associated with the LES, which may provide a mechanism underlying co-occurrence of species with different ecological strategies under P limitation. Background and Aims The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and to the duration of returns on those investments (leaf lifespan, LL). Phosphorus (P) is a key limiting nutrient for plant growth, yet it is unclear how the allocation of leaf P among different functions is coordinated with the LES. We addressed this question among 12 evergreen woody species co-occurring on P-impoverished soils in south-eastern Australia. Methods Leaf 'economic' traits, including LL, leaf mass per area (LMA), light-saturated net photosynthetic rate per mass (A.sub.mass), dark respiration rate, P concentration ([P.sub.total]), nitrogen concentration, and P resorption, were measured for three pioneer and nine non-pioneer species. Leaf P was separated into five functional fractions: orthophosphate P (P.sub.i), metabolite P (P.sub.M), nucleic acid P (P.sub.N), lipid P (P.sub.L), and residual P (P.sub.R; phosphorylated proteins and unidentified compounds that contain P). Results LL was negatively correlated with A.sub.mass and positively correlated with LMA, representing the LES. Pioneers occurred towards the short-LL end of the spectrum and exhibited higher [P.sub.total] than non-pioneer species, primarily associated with higher concentrations of P.sub.i, P.sub.N and P.sub.L. There were no significant correlations between leaf P fractions and LL or LMA, while A.sub.mass was positively correlated with the concentration of P.sub.R. Conclusions Allocation of leaf P to different fractions varied substantially among species. This variation was partially associated with the LES, which may provide a mechanism underlying co-occurrence of species with different ecological strategies under P limitation. BACKGROUND AND AIMS: The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and to the duration of returns on those investments (leaf lifespan, LL). Phosphorus (P) is a key limiting nutrient for plant growth, yet it is unclear how the allocation of leaf P among different functions is coordinated with the LES. We addressed this question among 12 evergreen woody species co-occurring on P-impoverished soils in south-eastern Australia. METHODS: Leaf ‘economic’ traits, including LL, leaf mass per area (LMA), light-saturated net photosynthetic rate per mass (Aₘₐₛₛ), dark respiration rate, P concentration ([Pₜₒₜₐₗ]), nitrogen concentration, and P resorption, were measured for three pioneer and nine non-pioneer species. Leaf P was separated into five functional fractions: orthophosphate P (Pᵢ), metabolite P (PM), nucleic acid P (PN), lipid P (PL), and residual P (PR; phosphorylated proteins and unidentified compounds that contain P). RESULTS: LL was negatively correlated with Aₘₐₛₛ and positively correlated with LMA, representing the LES. Pioneers occurred towards the short-LL end of the spectrum and exhibited higher [Pₜₒₜₐₗ] than non-pioneer species, primarily associated with higher concentrations of Pᵢ, PN and PL. There were no significant correlations between leaf P fractions and LL or LMA, while Aₘₐₛₛ was positively correlated with the concentration of PR. CONCLUSIONS: Allocation of leaf P to different fractions varied substantially among species. This variation was partially associated with the LES, which may provide a mechanism underlying co-occurrence of species with different ecological strategies under P limitation. Background and Aims The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and to the duration of returns on those investments (leaf lifespan, LL). Phosphorus (P) is a key limiting nutrient for plant growth, yet it is unclear how the allocation of leaf P among different functions is coordinated with the LES. We addressed this question among 12 evergreen woody species co-occurring on P-impoverished soils in south-eastern Australia. Methods Leaf ‘economic’ traits, including LL, leaf mass per area (LMA), light-saturated net photosynthetic rate per mass (A mass ), dark respiration rate, P concentration ([P total ]), nitrogen concentration, and P resorption, were measured for three pioneer and nine non-pioneer species. Leaf P was separated into five functional fractions: orthophosphate P (P i ), metabolite P (P M ), nucleic acid P (P N ), lipid P (P L ), and residual P (P R ; phosphorylated proteins and unidentified compounds that contain P). Results LL was negatively correlated with A mass and positively correlated with LMA, representing the LES. Pioneers occurred towards the short-LL end of the spectrum and exhibited higher [P total ] than non-pioneer species, primarily associated with higher concentrations of P i , P N and P L . There were no significant correlations between leaf P fractions and LL or LMA, while A mass was positively correlated with the concentration of P R . Conclusions Allocation of leaf P to different fractions varied substantially among species. This variation was partially associated with the LES, which may provide a mechanism underlying co-occurrence of species with different ecological strategies under P limitation.
Audience	Academic
Author	Lei, Zhangying Wright, Ian J. Lambers, Hans Tsujii, Yuki Fan, Baoli Atwell, Brian J.
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Snippet	Background and Aims The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and... Background and Aims The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and... Background and AimsThe leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and... BACKGROUND AND AIMS: The leaf economic spectrum (LES) is related to dry mass and nutrient investments towards photosynthetic processes and leaf structures, and...
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SubjectTerms	Agriculture Analysis Australia Biomedical and Life Sciences cell respiration Correlation Ecology Economics Identification and classification Investments Leaves Life Sciences Life span Lipids longevity Metabolites Methods nitrogen content Nucleic acids Nutrients Orthophosphate orthophosphates Phosphorus Photosynthesis Plant growth Plant Physiology Plant Sciences Plant-soil relationships Research Article resorption soil Soil Science & Conservation Soils Species specific leaf weight surveys Woody plants
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Title	A survey of leaf phosphorus fractions and leaf economic traits among 12 co-occurring woody species on phosphorus-impoverished soils
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