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ABSTRACT
Agroforestry systems (AF) consisting of grapevines and trees, may lead to resource competition for water and nutrients. This study aimed to evaluate the impact of a combined cultivation on water relations, nitrogen nutrition and the resulting wine quality.
15N-labeled inorganic nitrogen (N) sources were used to quantify net N uptake capacity. N content and δ15N natural abundance were analysed as integrating parameters of N nutrition. Leaf water potential (ψleaf) was determined to evaluate the water status of grapevines. Wine quality was evaluated by chemical and sensory analyses. In result, AF system reduced leaf water potential and increased net N uptake capacity in grapevines. However, chemical composition and sensory quality of the wine were not significantly affected in the present system consisting of Riesling, Sauvignon Blanc, oak and poplar.
Nitrogen availability of grapevines was favourable and water relations were improved, whereas wine quality was similar when grown with trees or without. Trees were able to reduce water and nitrogen losses without negative effects on wine quality.
This work provides information on benefits and limits for intercropping of trees and grapevines in terms of performance of grapevines and wine quality compared to traditional vineyard systems.
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Acknowledgments
We thank Elisabeth Voigt and Stefan Schäfer for sample collection and Cornelia Blessing, as well as Dr. Baoguo Du from the University of Freiburg for technical assistance. Further thanks to Mr. Büdinger as well as to the wineries Lauer, Eilenz, Weber and Vols for maintenance of the vineyard system and the on-site support in Ayl. The sensory panel of the University of Hohenheim was recently thanked.
Disclosure statement
No potential conflict of interest was reported by the authors.
