Nitrogen deposition alters nitrogen cycling and reduces soil carbon content in low-productivity semiarid Mediterranean ecosystems

Ochoa-Hueso, Raúl; Maestre, Fernando T.; de los Ríos, Asunción; Valea, Sergio; Theobald, Mark R.; Vivanco, Marta G.; Manrique, Esteban; Bowker, Mathew A.

Nitrogen deposition alters nitrogen cycling and reduces soil carbon content in low-productivity semiarid Mediterranean ecosystems

2013

Anthropogenic N deposition poses a threat to European Mediterranean ecosystems. We combined data from an extant N deposition gradient (4.3–7.3 kg N ha−1 yr−1) from semiarid areas of Spain and a field experiment in central Spain to evaluate N deposition effects on soil fertility, function and cyanobacteria community. Soil organic N did not increase along the extant gradient. Nitrogen fixation decreased along existing and experimental N deposition gradients, a result possibly related to compositional shifts in soil cyanobacteria community. Net ammonification and nitrification (which dominated N-mineralization) were reduced and increased, respectively, by N fertilization, suggesting alterations in the N cycle. Soil organic C content, C:N ratios and the activity of β-glucosidase decreased along the extant gradient in most locations. Our results suggest that semiarid soils in low-productivity sites are unable to store additional N inputs, and that are also unable to mitigate increasing C emissions when experiencing increased N deposition.

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Mots clés AGROVOC

ammonification analysis beta-glucosidase carbon carbon carbon sequestration chemistry ecosystems field experimentation mineralization nitrification nitrogen nitrogen nitrogen cycle nitrogen fertilizers nitrogen fixation semiarid soils semiarid zones soil soil fertility soil organic carbon spain toxicity

Informations bibliographiques

Publié dans

Environmental pollution

Volume 179 Pagination 185 - 193 ISSN 0269-7491

Editeur

Elsevier Ltd

D'autres materias

Fertilization experiment; Ecosystem; Extant n gradient; Soil microbiology; Soil organic c and n content; Soil cyanobacteria community; C and n cycling; Drug effects; Emissions; Carbon nitrogen ratio; Enzyme activities; Air pollutants

Langue

anglais

Note

2019-12-06

Licence

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Type

Text; Journal Article

Sur AGRIS depuis: 2024-02-28

Format: MODS

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Liens

DOI http://dx.doi.org/10.1016/j.envpol.2013.03.060

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