Montana Grape and Winery Association Conference Kalispell, MT, April 5-7, 2018 Vineyard Practices for Crop Yield and Quality Markus Keller Viticulture: The goals Growing grapes for profit Optimum light interception: Sunlight into Wine Balanced vines: Shoot versus fruit growth Open canopy: Ideal microclimate Optimum yield and fruit quality Low disease pressure Low spatial and temporal variation Vineyard access and mechanization Sustainability: Long-term view Crop load Shoot growth Fruit growth 1
A winemaker s dream? 2
Viticulture: The management toolbox Site/variety/clone match-making Planting density Trellis design & training system Pruning strategy Canopy management Water management Nutrient/floor/soil management Vineyard design to harvest sunlight Vineyard light interception depends on canopy size, shape, and orientation Increasing row width Less light interception Increasing canopy height More light interception 1:1! Growth direction impacts vigor Upright shoots are more vigorous Trellis design? Shoot number impacts vigor More shoots are less vigorous Pruning severity? Vigor = Rate of shoot growth Scott-Henry 1 m 1 m 3
Pruning established vines Determines bud number and position Maintains vine size and shape Sets upper limit on yield potential Golden Rules of winter pruning 1) 15 buds per lb of pruning weight (1 bud/oz) Balance pruning 2) 5 shoots per ft of canopy Canopy density Apply both rules simultaneously 5 oz/ft 5 buds/ft 5 shoots/ft Pruning weight indicates vigor Divide canopy if pruning weight is higher than 10 oz/ft Lyre Fish scale Control vigor to control yield Cluster weight (g) 110 100 90 80 70 60 50 Yield component Yield component r : Cluster weight 0.71 Berry number 0.68 Berry weight weight 0.52 r** 0.71 0.68 0.52 40 Keller et al. (2015) 30 2 3 4 5 6 7 8 9 10 11 12 13 Vigor budbreak-veraison (mm/d) Growth of shoots, flowers, berries may be coupled Vigorous shoots produce more and bigger berries Increase shoot numbers to decrease cluster and berry size Keller et al. (2015) 4
Control vigor to control quality 28 Soluble solids ( Brix) 27 26 25 24 23 22 r = -0.47*** 0 5 10 15 20 25 Growing tips/shoot at veraison Growing shoot tips (vigorous shoots): Compete with berries for sugar supply Create shade that reduces fruit sun-exposure Stop shoot growth before veraison Keller et al. (2010) Berries/cluster Pruning for loose clusters (& small berries) 130 120 110 100 90 80 70 60 50 40 0 20 40 60 80 100 120 140 Shoots/vine Lower pruning severity More buds More shoots/vine but lower vigor More clusters/vine More flowers/vine Lower fruit set and smaller berries Keller et al. (2015) 5
Keep in mind: Vines compensate 1.4 Berry weight (g) 1.2 1.0 0.8 Standard RDI Severe RDI (preveraison) 0.6 2000 3000 4000 5000 6000 7000 Berries per vine Too little crop can lead to berry size compensation Prevention requires more severe preveraison water deficit Keller et al. (2008) Cluster thinning to adjust crop load Why? Regulates crop load (fine-tuning) Prevents overcropping Adjusts crop to seasonal weather Accelerates ripening May improve fruit composition When? Early Promotes shoot and berry growth Late Greater effect on yield Bloom: Cut through flower clusters May reduce cluster compactness Lag-phase/veraison Quality control? Preharvest Disease, disorder control 6
Less water means more control No stress: 100% ET v Stress: 25% ET v Less water Low vigor Open canopy Less hedging Open canopy High fruit sun-exposure Less leaf removal Less water Less weed growth Less herbicide, tilling When vines need a drink Drink in moderation: Wine grapes need 12-20 water per year (from rainfall + irrigation) But drink frequently: Temperature drives water demand Budbreak fruit set: 5 10% Fruit set veraison: 30 60% Veraison harvest: 10 30% Harvest leaf fall: 5 25% (refill top 3 ft of soil for freeze and start-up insurance) High Water-holding capacity Low 2 +22 F Air temperature 7
Low rainfall permits deficit irrigation RDI = Regulated Deficit Irrigation RDI: The basics Controlled seasonal water deficit Apply less water than vineyard evaporates Goals: Limit growth, maximize quality Results in soil water deficit over time Applied after fruit set Results in plant water deficit Reduces shoot growth and canopy density Reduces berry size and yield Quality RDI: Coming to a vineyard near you? Volumetric soil water content (%) 35 30 25 20 15 10 5 0 Winter precipitation Fall/spring irrigation Available soil moisture Evapotranspiration (ET v ) Soil moisture with irrigation = ET v Soil moisture with RDI Maintain V H Fill up Deficit windows Weeks after April 1 ET v = Vineyard evapotranspiration = Water evaporation from plants and soil 8
RDI: A word on irrigation scheduling Weather-based: Use evapotranspiration from weather station ET v = Vineyard ET ET o = Reference ET (grass, alfalfa) K c = Crop coefficient (0 0.9 Canopy) Easy to interpret and decide, site-specific Soil-based: Measure soil moisture Soil moisture sensors (various principles and manufacturers) Expensive, easy to interpret and decide, soil-specific Plant-based: Measure vine water status ET v = ET o K c Pressure bomb, porometer, sap flow sensors Skill, experience, expensive, hard to interpret and decide All methods: Decide on target deficit level and timing Varietal differences! Control water to control berry size Harvest berry weight (g) 2.2 2.0 1.8 1.6 1.4 r = 0.84*** 50-100% ET 100-100% ET 1.2 2010 1.0 2011 2012 0.8 0.4 0.5 0.6 0.7 0.8 0.9 Lag-phase berry weight (g) C fruit (g shoot -1 ) 18 16 14 12 10 8 6 4 r = 0.77 2 r = 0.77*** P < 0.001 0 100 150 200 250 300 g max (mmol H 2 O m -2 s -1 ) Water deficit decreases growth and photosynthesis Water deficit before veraison Small berries Water deficit after veraison Less sugar, berry shriveling It is difficult to manipulate berry weight after veraison Keller (2015); Keller et al. (2016) 9
Irrigation dilutes fruit quality really? Berry weight (g) 1.4 1.2 1.0 0.8 0.6 Merlot (r=0.53**) Syrah (r=0.43*) Chardonnay (r=0.51*) -1.4-1.2-1.0-0.8 Preveraison Ψ stem (MPa) More water after veraison decreases berry shrinkage Berry weight loss (%) More water before veraison increases berry size 50 40 30 20 10 0-10 -20-30 Merlot (r=-0.45*) Syrah (r=-0.41*) Chardonnay (ns) -1.2-1.0-0.8-0.6 Postveraison Ψ stem (MPa) RDI: Tool to manipulate wine style Bogs et al. (2007) Full-season deficit (35% ET v ) More anthocyanins, tannins More LPP Preveraison deficit Intermediate tannins Postveraison deficit No gain over industry standard (70% ET v ) Dehydration does not make fruit more mature Casassa et al. (2015) 10
Water deficit: Some is good more is better? No water deficit (100% ET v ): Vigor, weeds, powdery mildew Whole-season 25% ET v (-56% water): Loss of vine capacity and productivity Not sustainable Preveraison 25-35% ET v (-31% water): Maintains vine capacity and productivity Small berries, high fruit sun-exposure Preveraison water deficit is more important than postveraison deficit Apply rather severe water deficit from fruit set to veraison, then increase water supply if needed during ripening Water deficit: It s not just about berry size Temperature ( F) 122 104 86 68 50 32 Ambient 116 F 89 F Fruit exposure 25% ET Exterior Interior 100% ET Exterior Interior 245 246 247 248 249 250 Day of year Water deficit Small berries, low vigor Open canopy, restricted shoot growth More sun-exposed clusters High light and high temperature Exposed berries are warm berries 95 F 68 F 50 F 27 F above air temperature! Anthocyanin window Monoterpene window Keller et al. (2016) 11
Sun exposure: How much is too much? It depends! Low nitrogen Morning sun High nitrogen Afternoon sun Do: Remove leaves early, and mostly on east/north side Prebloom Lower yield, loose clusters, thicker berry skin 2-3 weeks after fruit set Higher cluster sun-exposure Don t: Too much, too late (veraison or later) Sunburn White grapes: Overexposure Bitter/astringent phenolics Nitrogen: Moderation is a virtue 20 Soluble solids ( Brix) 19 18 17 16 15 no N 100 kg N/ha r = -0.65*** 14 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 Yield (t/ha) More N Higher yield, higher vigor, denser canopy Delayed ripening More N More malate and K + Often higher ph More N More aroma precursors (volatile thiols) Do: Apply moderate rates of N (2-6 lbs/ton of fruit) Keller et al. (2001, 2010) 12
Nitrogen: How to mess up wine color Total anthocyanins (mg/l) 200 150 100 50 0 ST/noN RT/noN ST/90kgN/ha lbs N/ac RT/90kgN/ha lbs N/ac ST: Single hedging RT: Repeated hedging Day 0 Day 4 After press After coldst. Day 2 Day 6 After MLF Fermentation etc. More N Slower secondary metabolism Less color More N More disease pressure (powdery mildew, bunch rot) Don t: Apply excess N, then hedge away excess growth Keller et al. (1999, 2001, 2003) Cold damage: Faces of injury 13
Cold damage: The freak event challenge -13.5 F -7.1 F Vines acclimate in late fall, deacclimate in spring Current hardiness and budbreak time determine survival Cold hardiness: Varieties are not alike H c,max ( C) -20-22 -24-26 -28 r = -0.78 P < 0.001 Budbreak DOY 125 120 115 110 105 r = 0.70 P < 0.001-30 1 2 3 4 5 Cultivar origin 100-13 -12-11 -10-9 H c,initial ( C) WSU cold hardiness (H c ) model for 23 grape varieties wine.wsu.edu; weather.wsu.edu, with weather forecast Northern/inland varieties tend to be more winter-hardy than southern/coastal varieties Winter-hardy varieties tend to have earlier budbreak Hardy varieties are more vulnerable to spring frost Ferguson et al. (2014) 14
Mitigation: Dealing with early budbreak Friend et al. (2007) January February March April Late pruning Late budbreak Vines compensate 3 weeks Cane versus spur pruning Budbreak near tip of cane inhibits budbreak near base, but not in spurs Mechanical prepruning (winter), then manual pruning (March-April) Delay budbreak Mitigation: Damage control Thermal inversions: +18 F at 65 ft above ground Wind machine: Mixing air to raise temperature +2-6 F at 100 ft distance Temperature gradient collapses at wind speeds >3.5 miles/hour Mixing useless Beware: Hardiness varies by site, temperature history, cultural practices, air drainage But: No influence of harvest date (hang time ) or cluster thinning Bud LT 50 ( C) -5-10 -15-20 -25 2008-30 290 322 350 6 21 33 47 61 75 89 103 Keller et al. (2014) Crop removal Fruit set Veraison Leaf fall Day of year ON OFF 15
When disaster strikes: Pruning adaptation Assess damage Increase bud numbers to compensate for lost yield potential while maintaining fruit quality Minimal pruning: Maximize bud numbers if >75% bud injury Kicker canes: Renew cordon by pruning to 3-4 short canes; remove existing spurs, train canes to old cordon Avoid water stress to prevent canopy collapse Shoots per vine 120 100 80 60 40 Spur, early Spur, early+late Spur, late Minimal Minimal, disbudded Clusters per vine 120 100 80 60 40 20 r = 0.96, p < 0.001 0 0 50 100 150 200 Buds per vine 20 r = 0.93, p < 0.001 0 0 20 40 60 80 100 120 140 Shoots per vine Kicker canes http://wine.wsu.edu/extension/weather Keller and Mills (2007) Pushing the reset button March 2004 June 2004-18.5 F on 5 and 6 January, 2004 photos courtesy of G. Grove 16
Pushing the reset button August 2005 October 2005: 5 tons/acre photos courtesy of G. Grove It s in the book Second Edition 2015 Academic Press (Elsevier) Amazon mkeller@wsu.edu 17