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- Henning, Jeremiah A.; Read, Quentin D.; Sanders, Nathan J.; Classen, Aimee T.
- Ecosphere 2019 v.10 no.3 pp. e02640
- Festuca thurberi, etc ; biomass; dominant species; ecosystems; endophytes; global change; greenhouse experimentation; inoculum; mycorrhizal fungi; nitrogen; roots; seedlings; soil properties; symbionts; Show all 14 Subjects
- ... Global change drivers, such as nitrogen (N) deposition and non‐random species extinctions, may shift interactions among aboveground and belowground communities. However, tightly coupled interactions between aboveground and belowground organisms may buffer ecosystems to global change. Here, we test how four years of organic and inorganic N addition and removal of a dominant plant species, Festuca t ...