2017
DOI: 10.20870/oeno-one.2017.51.2.1538
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The application of high-resolution atmospheric modelling to weather and climate variability in vineyard regions

Abstract: Grapevines are highly sensitive to environmental conditions, with variability in weather and climate (particularly temperature) having a significant influence on wine quality, quantity and style. Improved knowledge of spatial and temporal variations in climate and their impact on grapevine response allows better decision-making to help maintain a sustainable wine industry in the context of medium to long term climate change. This paper describes recent research into the application of mesoscale weather and cli… Show more

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Cited by 14 publications
(10 citation statements)
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“…The climate and especially temperature variability of the Marlborough vineyard region has previously been described and related to vine phenology (Felix et al, ; Sturman et al, ), and the WRF model has been run operationally for several growing seasons to provide a short‐term forecast and to map the ongoing status of the current grapevine growing season. Hence, the research presented here is not focused on improving knowledge of the small‐scale temperature variability of the Marlborough region.…”
Section: Discussionmentioning
confidence: 99%
“…The climate and especially temperature variability of the Marlborough vineyard region has previously been described and related to vine phenology (Felix et al, ; Sturman et al, ), and the WRF model has been run operationally for several growing seasons to provide a short‐term forecast and to map the ongoing status of the current grapevine growing season. Hence, the research presented here is not focused on improving knowledge of the small‐scale temperature variability of the Marlborough region.…”
Section: Discussionmentioning
confidence: 99%
“…The spatial resolution (0.05 • grid) used to perform the climate change scenario analysis enabled us to produce information at the regional level, but it does not account for finer aspects of topography and complex climate interactions that can occur at a lower resolution, particularly in the context of the NZ maritime temperate climate (Parker et al, 2015;Sturman et al, 2017). Given the complex terrain of NZ, the extension of our analysis to finer spatial resolutions would likely provide additional insights on phenological responses.…”
Section: Scope Implications and Limitations Of This Studymentioning
confidence: 99%
“…The extent of the variation in performance of the same vines between seasons largely excludes factors that are stable between seasons as primary causes. For example, factors such as within-block differences in meso-climate (Sturman et al, 2017), soil physical properties (Bramley et al, 2011;Trought and Bramley 2011;Bramley et al, 2019), long-term plant health status (virus, trunk disease) (Mundy et al, 2009) and plant genetics can probably be ruled out. Variations in management or environment x management (E x M) interactions of the same vine from year to year seem the most likely contributors to variation.…”
Section: Vine Yieldmentioning
confidence: 99%