Elemental profiling and genomewide association studies reveal genomic variants modulating ionomic composition in Populus trichocarpa leaves

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Elemental profiling and genome wide association studies reveal genomic variants modulating ionomic composition in Populus trichocarpa leaves

Raphael Ployet 1,2 Kai Feng 1,2 Jin Zhang 1,2 Ivan Baxter 3,David C. Glasgow 4  Hunter B. Andrews 5  Miguel Rodriguez1,2Jin-Gui Chen1,2 Gerald A. Tuskan 1,2 Timothy J. Tschaplinski 1,2J. Weston David 1 , Madhavi Z. Martin 1,2

and Wellington Muchero1,2
1 Biosciences Division, Oak Ridge National Laboratory, Oak Ridge, TN, United States
2 Oak Ridge National Laboratory, Center for Bioenergy Innovation, Oak Ridge, TN, United States
3 Donald Danforth Plant Science Center, St. Louis, MO, United States
4 Chemical Sciences Division, Oak Ridge National Laboratory, Oak Ridge, TN, United States
5 Radioisotopes Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, TN, United States

Samples were collected from a population of 1,089 black cottonwood genotypes (P. trichocarpa) assembled from native stands to encompass the central portion of the natural range of the species, stretching from 38.8° to 54.3° N Q13 latitude from California, USA, to British Columbia, Canada. Establishment of the common garden, growth conditions, and site maintenance have been described by Muchero et al (2015). In this study, leaf samples for ionomic profiling were collected from 4-year-old trees, during the growing season, in July 2012, from a field located in Clatskanie, Oregon, USA (46°6′11″N 123°12′13″W). The field site was located in a protected alluvial floodplain containing a uniform Wauna-Locoda silt loam soil area characterized by an acidic pH, in Columbia County, Oregon. A subset of 584 out of the 1,089 P. trichocarpa genotypes were represented in this sampling. These genotypes were randomly selected to represent the geographical distribution of the population. A single fully mature (LPI 7-9) leaf on the south side of the tree exposed to full sunlight conditions was removed from the tree within a 6-hour window centering on solar noon and immediately frozen under dry ice before processing. Leaf samples of 584 P. trichocarpa genotypes were finely ground to 40 mm particle size using a mortar and pestle, and ionomic composition was analyzed using ICP-MS. In total, 20 elements were profiled, including aluminum (Al27), arsenic (As75), boron (B11), cadmium (Cd111), calcium (Ca43), cobalt (Co), copper (Cu), iron (Fe57), magnesium (Mg25), manganese (Mn55), molybdenum (Mo), nickel (Ni60), phosphorus (P31), potassium (K39), rubidium (Rb85), selenium (Se82), sodium (Na23), strontium (Sr88), sulfur (S34), and zinc (Zn66), following a protocol established by Ziegler et al. (2013). For each sample, 75mg of powder was digested overnight in 2.5 mL HNO3 containing 20 parts per billion (ppb) indium as an internal standard, following the protocol described in Ziegler et al. (2013). Following a dilution, concentration of the 20 elements was measured using an Elan 6000 DRC-e mass spectrometer (Perkin-Elmer SCIEX) connected to a PFA microflow nebulizer (Elemental Scientific) and Apex HF desolvator (Elemental Scientific). One measurement per sample per genotype was done. For subsequent analyses, the quantifications were converted to total element concentration.