- Schadt, Christopher;
- Martin, Stanton;
- Carrell, Alyssa;
- Fortner, Allison;
- Hopp, Dan;
- Jacobson, Dan;
- Klingeman, Dawn;
- Kristy, Brandon;
- Phillips, Jana;
- Piatkowski, Bryan;
- Miller, Mark A;
- Smith, Montana;
- Patil, Sujay;
- Flynn, Mark;
- Canon, Shane;
- Clum, Alicia;
- Mungall, Christopher J;
- Pennacchio, Christa;
- Bowen, Benjamin;
- Louie, Katherine;
- Northen, Trent;
- Eloe-Fadrosh, Emiley A;
- Mayes, Melanie A;
- Muchero, Wellington;
- Weston, David J;
- Mitchell, Julie;
- Doktycz, Mitchel
Bridging molecular information to ecosystem-level processes would provide the capacity to understand system vulnerability and, potentially, a means for assessing ecosystem health. Here, we present an integrated dataset containing environmental and metagenomic information from plant-associated microbial communities, plant transcriptomics, plant and soil metabolomics, and soil chemistry and activity characterization measurements derived from the model tree species Populus trichocarpa. Soil, rhizosphere, root endosphere, and leaf samples were collected from 27 different P. trichocarpa genotypes grown in two different environments leading to an integrated dataset of 318 metagenomes, 98 plant transcriptomes, and 314 metabolomic profiles that are supported by diverse soil measurements. This expansive dataset will provide insights into causal linkages that relate genomic features and molecular level events to system-level properties and their environmental influences.