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Phenology and plant functional type dominance drive CO<sub>2</sub> exchange in seminatural grasslands in the Pyrenees

Mercedes Ibáñez, Núria Altimir, Àngela Ribas, Werner Eugster, Maria‐Teresa Sebastià

2020The Journal of Agricultural Science22 citationsDOIOpen Access PDF

Abstract

Abstract Understanding the mechanisms underlying net ecosystem CO 2 exchange (NEE) in mountain grasslands is important to quantify their relevance in the global carbon budget. However, complex interactions between environmental variables and vegetation on NEE remain unclear; and there is a lack of empirical data, especially from the high elevations and the Mediterranean region. A chamber-based survey of CO 2 exchange measurements was carried out in two climatically contrasted grasslands (montane v . subalpine) of the Pyrenees; assessing the relative contribution of phenology and environmental variables on CO 2 exchange at the seasonal scale, and the influence of plant functional type dominance (grasses, forbs and legumes) on the NEE light response. Results show that phenology plays a crucial role as a CO 2 exchange driver, suggesting a differential behaviour of the vegetation community depending on the environment. The subalpine grassland had a more delayed phenology compared to the montane, being more temperature than water constrained. However, temperature increased net CO 2 uptake at a higher rate in the subalpine than in the montane grassland. During the peak biomass, productivity (+74%) and net CO 2 uptake (NEE +48%) were higher in the subalpine grassland than in the montane grassland. The delayed phenology at the subalpine grassland reduced vegetation's sensitivity to summer dryness, and CO 2 exchange fluxes were less constrained by low soil water content. The NEE light response suggested that legume dominated plots had higher net CO 2 uptake per unit of biomass than grasses. Detailed information on phenology and vegetation composition is essential to understand elevation and climatic differences in CO 2 exchange.

Topics & Concepts

ForbGrasslandPhenologyDominance (genetics)Environmental scienceVegetation typeMontane ecologyVegetation (pathology)Biomass (ecology)EcosystemEcologyBiologyPathologyGeneBiochemistryMedicineAtmospheric and Environmental Gas DynamicsPlant Water Relations and Carbon DynamicsPlant responses to elevated CO2
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