Abstract
Brazil is home to 30% of the world’s Eucalyptus trees. The seedlings are fertilized at plantation to support biomass production until canopy closure. Thereafter, fertilization is guided by state standards that may not apply at the local scale where myriads of growth factors interact. Our objective was to customize the nutrient diagnosis of young Eucalyptus trees down to factor-specific levels. We collected 1861 observations across eight clones, 48 soil types, and 148 locations in southern Brazil. Cutoff diameter between low- and high-yielding specimens at breast height was set at 4.3 cm. The random forest classification model returned a relatively uninformative area under the curve (AUC) of 0.63 using tissue compositions only, and an informative AUC of 0.78 after adding local features. Compared to nutrient levels from quartile compatibility intervals of nutritionally balanced specimens at high-yield level, state guidelines appeared to be too high for Mg, B, Mn, and Fe and too low for Cu and Zn. Moreover, diagnosis using concentration ranges collapsed in the multivariate Euclidean hyper-space by denying nutrient interactions. Factor-specific diagnosis detected nutrient imbalance by computing the Euclidean distance between centered log-ratio transformed compositions of defective and successful neighbors at a local scale. Downscaling regional nutrient standards may thus fail to account for factor interactions at a local scale. Documenting factors at a local scale requires large datasets through close collaboration between stakeholders.
Highlights
Eucalyptus plantations cover 20 × 106 ha worldwide to provide raw material for wood, paper, biofuel, firewood, and charcoal [1]
The present Brazilian nutrient concentration ranges for Mg, Mn, Fe and Zn differed markedly from compatibility intervals derived from the True negative specimens (TN) specimens in the data set
Denying nutrient interactions, nutrient concentration ranges collapsed in the Euclidean space as more nutrients are added
Summary
Eucalyptus plantations cover 20 × 106 ha worldwide to provide raw material for wood, paper, biofuel, firewood, and charcoal [1]. Brazil is the world leader, producing Eucalyptus on 6 × 106 ha with an average yield of 36 m3 ha−1 year−1 [2]. While Eucalyptus is adapted to low-fertility soils, nutrient supply, especially N and K [3,4,5,6] can limit stand productivity [1,7,8]. Fertilization was found to increase wood production of Eucalyptus grandis by 28% and irrigation by another 30% to reach potential outcome of 83 m3 ha−1 year−1 , where the most yield-impacting factors are set at near optimum levels [9]. Eucalyptus seedlings are heavily fertilized at planting to prevent nutrient deficiency and non-uniform tree growth until canopy closure [8]. Fertilization decisions are Plants 2020, 9, 1049; doi:10.3390/plants9081049 www.mdpi.com/journal/plants
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