Litcius/Paper detail

Legacy effects of nitrogen and phosphorus additions on vegetation and carbon stocks of upland heaths

José G. van Paassen, Andrea J. Britton, Ruth J. Mitchell, Lorna E. Street, David Johnson, Andrew Coupar, Sarah J. Woodin

2020New Phytologist25 citationsDOIOpen Access PDF

Abstract

Soil carbon (C) pools and plant community composition are regulated by nitrogen (N) and phosphorus (P) availability. Atmospheric N deposition impacts ecosystem C storage, but the direction of response varies between systems. Phosphorus limitation may constrain C storage response to N, hence P application to increase plant productivity and thus C sequestration has been suggested. We revisited a 23-yr-old field experiment where N and P had been applied to upland heath, a widespread habitat supporting large soil C stocks. At 10 yr after the last nutrient application we quantified long-term changes in vegetation composition and in soil and vegetation C and P stocks. Nitrogen addition, particularly when combined with P, strongly influenced vegetation composition, favouring grasses over Calluna vulgaris, and led to a reduction in vegetation C stocks. However, soil C stocks did not respond to nutrient treatments. We found 40% of the added P had accumulated in the soil. This study showed persistent effects of N and N + P on vegetation composition, whereas effects of P alone were small and showed recovery. We found no indication that P application could mitigate the effects of N on vegetation or increase C sequestration in this system.

Topics & Concepts

Vegetation (pathology)CallunaAgronomyEnvironmental sciencePhosphorusNutrientCarbon sequestrationEcosystemSoil carbonNitrogenPlant communityEricaceaeChemistrySoil waterEcologySoil scienceBiologyOrganic chemistryPathologyMedicineEcological successionSoil Carbon and Nitrogen DynamicsPeatlands and Wetlands EcologyEcology and Vegetation Dynamics Studies