Long-term fertilization determines different metabolomic profiles and responses in saplings of three rainforest tree species with different adult canopy position

Tropical rainforests are frequently limited by soil nutrient availability. However, the response of the metabolic phenotypic plasticity of trees to an increase of soil nutrient availabilities is poorly understood. We expected that increases in the ability of a nutrient that limits some plant process...

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Bibliographic Details
Published in:PloS one 2017-05, Vol.12 (5), p.e0177030
Main Authors: Gargallo-Garriga, Albert, Wright, S Joseph, Sardans, Jordi, Pérez-Trujillo, Míriam, Oravec, Michal, Večeřová, Kristýna, Urban, Otmar, Fernández-Martínez, Marcos, Parella, Teodor, Peñuelas, Josep
Format: Article
Language:English
Subjects:
Acclimation
Acclimatization
Acidification
Adaptation
Age
Amino acids
Analysis
Arbuscular mycorrhizas
Availability
Biogeochemistry
Biology and Life Sciences
Biomass
Biosynthesis
Canopies
Carbohydrates
Chemical composition
Climate
Compound fertilizers
Defensive behavior
Ecology
Ecology and Environmental Sciences
Environmental aspects
Environmental conditions
Enzymes
Fertilization
Fertilizers - analysis
Flavonoids
Flowers & plants
Forests
Herbivory
Homeostasis
Influence
Ketoglutaric acid
Leaves
Lymphocytes B
Magnoliopsida - growth & development
Magnoliopsida - metabolism
Mathematical analysis
Metabolism
Metabolites
Metabolome
Metabolomics
Microorganisms
Nucleotides
Nutrient availability
Optimization
Photosynthesis
Physical Sciences
Plant fertilization
Plant growth
Plant Leaves - growth & development
Plant Leaves - metabolism
Plant species
Proteins
Rain
Rain forests
Rainforest
Rainforests
Respiration
Ribonucleic acid
RNA
Rocks
Soil - chemistry
Soil nutrients
Specialization
Species Specificity
Sympatric populations
Taxonomy
Terpenes
Time
Trees
Trees - growth & development
Trees - metabolism
Tropical Climate
Ultraviolet radiation
Wetlands
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Summary:Tropical rainforests are frequently limited by soil nutrient availability. However, the response of the metabolic phenotypic plasticity of trees to an increase of soil nutrient availabilities is poorly understood. We expected that increases in the ability of a nutrient that limits some plant processes should be detected by corresponding changes in plant metabolome profile related to such processes. We studied the foliar metabolome of saplings of three abundant tree species in a 15 year field NPK fertilization experiment in a Panamanian rainforest. The largest differences were among species and explained 75% of overall metabolome variation. The saplings of the large canopy species, Tetragastris panamensis, had the lowest concentrations of all identified amino acids and the highest concentrations of most identified secondary compounds. The saplings of the "mid canopy" species, Alseis blackiana, had the highest concentrations of amino acids coming from the biosynthesis pathways of glycerate-3P, oxaloacetate and α-ketoglutarate, and the saplings of the low canopy species, Heisteria concinna, had the highest concentrations of amino acids coming from the pyruvate synthesis pathways. The changes in metabolome provided strong evidence that different nutrients limit different species in different ways. With increasing P availability, the two canopy species shifted their metabolome towards larger investment in protection mechanisms, whereas with increasing N availability, the sub-canopy species increased its primary metabolism. The results highlighted the proportional distinct use of different nutrients by different species and the resulting different metabolome profiles in this high diversity community are consistent with the ecological niche theory.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0177030