sonoma grapes in foreground

 

Game Planning Your Irrigation For Vines Within These Growth Stages

Early-season irrigation strategies can vary by necessity across the massive acres of grapes in California. The right strategy for each individual operation depends on a variety of factors, such as the grower’s goals—for example, a high- or low-tonnage crop—the water already available in the soil, and the maturity of the plant.

Depending on the moisture levels from the winter season, growers who might otherwise wait until later to begin irrigating should be mindful that early-season irrigation in particular must consider and compensate for the previous lack of rainfall, and vice versus.

That's because a successful season depends on healthy growth of the plant in the spring. Growers orient their irrigation strategy for the year around three key phases in development: budbreak through fruit set, post- fruit set through veraison, and veraison through harvest. As this is basically global in nature, the concepts can be applied virtually anywhere.

Bud Break Through Fruit Set

The early part of the grape-growing season is all about developing maximum vegetative growth to promote a strong, healthy canopy as quickly as possible—which means when it comes to the early-season irrigation season, it's full steam ahead. Applying water during this period of low water stress helps promote rapid growth: successful flowering and fruit set, as well as good bud development for the following season. 

Post-Fruit Set Through Veraison

After the canopy has reached the desired size and the vines begin to flower and set fruit, scale back irrigation to prevent excessive vegetative growth and create a balance between fruit and canopy. This should be a period of higher water stress to better control the quality of grapes, and establish a relationship between water and sugar and acidity.

Veraison Through Harvest

When fruit reaches veraison, the purpose of irrigation shifts to simply maintaining the canopy’s functional foliage to support fruit ripening—with the goal of limiting or preventing any new vegetative growth. This final stage is one of moderate water stress that helps plants reach a grower’s desired sugar level in the fruit. In addition to water, nitrogen inputs early in the season are also an important part of achieving rapid canopy growth.

Insufficient water or nutrients, and the canopy will not fully develop—stunting the plant's growth and creating a deficit from which it will be difficult or even impossible to recover. Too much, and the canopy will become too full, blocking out light, limiting air circulation, and potentially creating conditions that foster disease. An overgrown canopy early in the season creates risk of defoliation when growers do finally cut the water, which in turn leaves fruit exposed to the elements.

How to strike the right balance? Early in the season, growers should learn what they can about their vineyard's starting point for soil moisture content—as it can vary significantly even within a given region. Vines reach deep into the soil to pull water, so soil moisture variation can be present at surprising depths—especially when one drought year follows one another.

Aerial data offers a cost-effective and precise route to assessing water stress across the entirety of the vineyard—as well as timely insights to guide canopy management. Contact us to learn more.

 

 

Irrigation Wine grapes Agribusiness Grapes

Back to blog

The difference between Ceres AI and other technologies I've used is the help I get from their expert team.
Jake Samuel, Partner
Samuel Farms
With Ceres AI we can take a more targeted approach to applying fertilizer and nutrients.
Brian Fiscalini, Owner
Fiscalini Cheese Company
These flights can cover way more ground and provide more insight than a dozen soil moisture probes — and it's cheaper to implement.
Patrick Pinkard, Assistant Manager
Terranova Ranch
The average Ceres AI conductance measurement from its imagery over the season has provided the best correlation with applied water.
Blake Sanden
University of California Cooperative Extension