In recent decades, worldwide wine-growing regions have been increasingly exposed to the effects of climate change, such as summer heat waves and late spring frosts, as well as long period of droughts during the growing season. In this context, it is necessary to develop innovative adaptation strategies: particularly, this study explored a multifunctional approach in vineyard irrigation, to provide hydric nutrition when needed and to counter the negative effects of excessively high summer temperatures and of late spring frosts. The experimental activities were conducted during the 2020 and 2021 agricultural seasons, in a Chardonnay vineyard located in Cavriana, in the area of Garda Colli Mantovani DOC (Italy). An irrigation system equipped with drippers and mini-sprinklers (the latter to protect from both spring frosts and summer high temperature events) was set up. In particular, eight plots were designed to compare four different irrigation strategies: i) automated drip irrigation; ii) automated drip and sprinkler irrigation; iii) traditional drip irrigation, iv) no irrigation. Results obtained during the two seasons highlight the potential of the automated, multifunctional irrigation in protecting vines from thermal stress and in increasing water use efficiency.
Field Study on Multifunctional Irrigation of Vineyards / C. Gandolfi, S. Cazzaniga, D. Ferrari, D. Masseroni, B. Ortuani (LECTURE NOTES IN CIVIL ENGINEERING). - In: AIIA 2022: Biosystems EngineeringTowards the Green Deal : Improving the Resilience of Agriculture, Forestry and Food Systems in the Post-Covid Era / [a cura di] V. Ferro, G. Giordano, S. Orlando, M.Vallone, G. Cascone, S.M.C. Porto. - [s.l] : Springer Science, 2023. - ISBN 9783031303289. - pp. 117-124 (( Intervento presentato al 12. convegno International Conference of the Italian Association of Agricultural Engineering tenutosi a Palermo nel 2022 [10.1007/978-3-031-30329-6_12].
Field Study on Multifunctional Irrigation of Vineyards
C. Gandolfi
;S. Cazzaniga;D. Ferrari;D. Masseroni;B. Ortuani
2023
Abstract
In recent decades, worldwide wine-growing regions have been increasingly exposed to the effects of climate change, such as summer heat waves and late spring frosts, as well as long period of droughts during the growing season. In this context, it is necessary to develop innovative adaptation strategies: particularly, this study explored a multifunctional approach in vineyard irrigation, to provide hydric nutrition when needed and to counter the negative effects of excessively high summer temperatures and of late spring frosts. The experimental activities were conducted during the 2020 and 2021 agricultural seasons, in a Chardonnay vineyard located in Cavriana, in the area of Garda Colli Mantovani DOC (Italy). An irrigation system equipped with drippers and mini-sprinklers (the latter to protect from both spring frosts and summer high temperature events) was set up. In particular, eight plots were designed to compare four different irrigation strategies: i) automated drip irrigation; ii) automated drip and sprinkler irrigation; iii) traditional drip irrigation, iv) no irrigation. Results obtained during the two seasons highlight the potential of the automated, multifunctional irrigation in protecting vines from thermal stress and in increasing water use efficiency.
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