Manipulating Nitrogen and Water Resources for Improved Cool Climate Vine to Wine Quality

Harriet V Walker,Joanna E Jones,Fiona Kerslake,Nigel D Swarts

doi:10.5344/ajev.2021.21004

Harriet V Walker, Joanna E Jones + Show 2 more

Open Access

https://doi.org/10.5344/ajev.2021.21004

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Abstract

Low yeast assimilable nitrogen (YAN) concentrations (<140 mg/N/L) can produce wines with inferior aroma and flavor, regardless of supplemental nitrogen (N) additions in the winery. The impact of doubling commercial field N and irrigation rates was explored in <i>Vitis vinifera</i> L. cv. Chardonnay and Pinot noir over three growing seasons (2016 to 2019) in Southern Tasmania, Australia, to improve YAN concentrations and observe the concurrent influence on vine canopy, yield, and grape and wine composition. Six combinations of irrigation and N rates were applied to 20 vines for each treatment combination and replicated across both cultivars. The treatments included the standard irrigation rate (~530 L/vine/year) / control N (0 kg/N/ha/year) rate, standard irrigation / standard commercial N rate (~18 kg/N/ha/year), standard irrigation / double commercial N rate (~36 kg/N/ha/year), double irrigation rate (~1060 L/vine/year) / control N, double irrigation / standard N, and double irrigation / double N. Analysis of variance was used to determine main treatment effects and treatment interactions of the measured variables for a subset of the vine population in each growing season. Increasing N rate improved YAN concentrations in both cultivars in two of three growing seasons, with the double N rate associated with increasing YAN to acceptable (>140 mg/N/L) levels. Irrigation had no impact on YAN concentrations. Treatment influences on vine vegetative growth, yield, and grape and wine composition were marginal, inconsistent, and largely influenced by climatic conditions. Cool-climate grapegrowers would benefit from applying more N in the vineyard around veraison to improve YAN without stimulating vigor or reducing the quality of grape and wine chemical composition. Increasing irrigation rates may be advantageous in seasons with high crop load; however, current commercial irrigation rates are considered adequate.

Highlights

Low yeast assimilable nitrogen (YAN) concentrations (
We investigated the influence of additional N and irrigation inputs on vegetative growth, yield, and grape and wine composition and explored the influence of climatic conditions on these variables over three growing seasons
Excessive N rates and surplus water availability are generally associated with increased vine vigor and vegetative growth, increased yields, and negative impacts on grape and wine composition

Summary

Introduction

Low yeast assimilable nitrogen (YAN) concentrations (140 mg/N/L) levels. Treatment influences on vine vegetative growth, yield, and grape and wine composition were marginal, inconsistent, and largely influenced by climatic conditions. Cool-climate grapegrowers would benefit from applying more N in the vineyard around veraison to improve YAN without stimulating vigor or reducing the quality of grape and wine chemical composition. N fertilization is recommended at modest rates (20 kg/N/ha) (AWRI 2010) to avoid excess vine vigor (Spayd et al 1993, Neilsen et al 2010), which can disrupt source-sink relationships (Vasconcelos et al 2009), alter canopy microclimate (Bell and Henschke 2005), increase disease pressure (Thomidis et al 2016), and negatively affect berry

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