Natural and anthropogenic drivers of calcium depletion in a northern forest during the last millennium
Résumé
The pace and degree of nutrient limitation are among the most critical uncertainties in predicting terrestrial ecosystem responses to global change. In the northeastern United States, forest growth has recently declined along with decreased soil calcium (Ca) availability, suggesting that acid rain has depleted soil Ca to the point where it may be a limiting nutrient. Yet, it is unknown whether the past 60 years of changes in Ca availability are strictly anthropogenic or partly a natural consequence of long-term ecosystem development. Here, we report a high-resolution millennialscale record of Ca and 16 other elements from the sediments of Mirror Lake, a 15-ha lake in the White Mountains of the New Hampshire surrounded by northern hardwood forest. We found that sedimentary Ca concentrations had been declining steadily for 900 years before regional Euro-American settlement. This Ca decline was not a result of serial episodic disturbances, but instead the gradual weathering of soils and soil Ca availability. As Ca availability was declining, nitrogen availability concurrently was increasing. These data indicate that nutrient availability on base-poor, parent materials is sensitive to acidifying processes on millennial timescales. Forest harvesting and acid rain in the post-settlement period mobilized significant amounts of Ca from watershed soils, but these effects were exacerbated by the longterm pattern. Shifting nutrient limitation can potentially occur within 10,000 years of ecosystem development, which alters our assessments of the speed and trajectory of nutrient limitation in forests, and could require reformulation of global models of forest productivity.
calcium | natural depletion
Domaines
Sciences de l'environnementOrigine | Fichiers produits par l'(les) auteur(s) |
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