Litcius/Paper detail

Sensitivity of grassland carbon pools to plant diversity, elevated CO <sub>2</sub> , and soil nitrogen addition over 19 years

Melissa A. Pastore, Sarah E. Hobbie, Peter B. Reich

2021Proceedings of the National Academy of Sciences41 citationsDOIOpen Access PDF

Abstract

Significance The long-term effects of rising atmospheric carbon dioxide (CO 2 ), high rates of nitrogen deposition, and declining plant biodiversity on ecosystem carbon pools are uncertain and rarely assessed in concert yet represent key feedbacks to global climate change. In a 19-y study in an open-air grassland experiment, increasing planted species richness substantially enhanced ecosystem carbon storage, while elevated CO 2 and nitrogen addition treatments had only modest effects. Effects of the three global changes were largely additive, and stronger effects of species richness compared with CO 2 or nitrogen resulted from large enhancements in plant productivity relative to ecosystem losses. Our results suggest that biodiversity losses may influence carbon storage as much as or more than rising CO 2 or high nitrogen deposition rates.

Topics & Concepts

EcosystemSpecies richnessEnvironmental scienceBiodiversityGrasslandNitrogenProductivityCarbon fibersCarbon dioxideCarbon dioxide in Earth's atmosphereCarbon cycleTerrestrial ecosystemReactive nitrogenCarbon sequestrationSoil carbonEcologyAgronomyChemistrySoil scienceBiologySoil waterOrganic chemistryComposite materialEconomicsMacroeconomicsComposite numberMaterials sciencePlant responses to elevated CO2Atmospheric and Environmental Gas DynamicsClimate variability and models