Nutrients and water availability constrain the seasonality of vegetation activity in a Mediterranean ecosystem

Autor: Rosario Gonzalez-Cascon, Oscar Perez-Priego, Richard Nair, Marta Galvagno, Edoardo Cremonese, Yunpeng Luo, Yonatan Cáceres Escudero, Annette Menzel, Solveig Franziska Bucher, Christine Römermann, Tarek S. El-Madany, Martin Jung, Xuanlong Ma, Arnaud Carrara, Javier Pacheco-Labrador, Andrew D. Richardson, Gianluca Filippa, Gerardo Moreno, Markus Reichstein, Mirco Migliavacca, M. Pilar Martín, Ulrich Weber
Přispěvatelé: Junta de Extremadura, Luo, Yunpeng, Filippa, Gianluca, Bucher, Solveig F., Cáceres Escudero, Yonatan, Luo, Yunpeng [0000-0001-6383-8300], Filippa, Gianluca [0000-0002-4554-6045], Bucher, Solveig F. [0000-0002-2303-4583], Cáceres Escudero, Yonatan [0000-0002-3015-6968]
Rok vydání: 2019
Předmět:
Zdroj: Global Change Biology
Digital.CSIC. Repositorio Institucional del CSIC
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ISSN: 1365-2486
Popis: Anthropogenic nitrogen (N) deposition and resulting differences in ecosystem N and phosphorus (P) ratios are expected to impact photosynthetic capacity, that is, maximum gross primary productivity (GPP). However, the interplay between N and P availability with other critical resources on seasonal dynamics of ecosystem productivity remains largely unknown. In a Mediterranean tree–grass ecosystem, we established three landscape-level (24 ha) nutrient addition treatments: N addition (NT), N and P addition (NPT), and a control site (CT). We analyzed the response of ecosystem to altered nutrient stoichiometry using eddy covariance fluxes measurements, satellite observations, and digital repeat photography. A set of metrics, including phenological transition dates (PTDs; timing of green-up and dry-down), slopes during green-up and dry-down period, and seasonal amplitude, were extracted from time series of GPP and used to represent the seasonality of vegetation activity. The seasonal amplitude of GPP was higher for NT and NPT than CT, which was attributed to changes in structure and physiology induced by fertilization. PTDs were mainly driven by rainfall and exhibited no significant differences among treatments during the green-up period. Yet, both fertilized sites senesced earlier during the dry-down period (17–19 days), which was more pronounced in the NT due to larger evapotranspiration and water usage. Fertilization also resulted in a faster increase in GPP during the green-up period and a sharper decline in GPP during the dry-down period, with less prominent decline response in NPT. Overall, we demonstrated seasonality of vegetation activity was altered after fertilization and the importance of nutrient–water interaction in such water-limited ecosystems. With the projected warming-drying trend, the positive effects of N fertilization induced by N deposition on GPP may be counteracted by an earlier and faster dry-down in particular in areas where the N:P ratio increases, with potential impact on the carbon cycle of water-limited ecosystems.
The authors acknowledge the Alexander von Humboldt Foundation for supporting this research with the Max-Planck Prize to Markus Reichstein. Yunpeng Luo and Mirco Migliavacca gratefully acknowledge financial support from the China Scholarship Council. Gerardo Moreno acknowledges financial support from the grant agreement IB16185 of the Regional Government of Extremadura.
Databáze: OpenAIRE
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