ARS | Publication request: Inter-row evapotranspiration in arid and humid wine-grape vineyards

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: January 25, 2012
Publication Date: February 19, 2012
Citation: Heitman, J.L., Agam, N., Ben-Gal, A., Havlin, J., Howard, A., Holland, S., Kool, D., Sauer, T.J. 2012. Inter-row evapotranspiration in arid and humid wine-grape vineyards. Conference on Agricultural and Forest Meteorology. Available: http://ams.confex.com/ams/30AgFBioGeo/webprogram/Paper207438.html.

Technical Abstract: The architecture of wine-grape vineyards is characterized by tall plants (approx. 1.5 m) and widely spaced rows (approx. 3 m). This wide row spacing, developed to allow sunlight interception, air flow, and field operations, creates a complex system for water and energy budgets. Because of the wide row spacing, growers must consider two distinct parts of the vineyard system for water management: the vine row and the inter-rows. Two general strategies have been used for inter-row management. In arid regions, the inter-row is typically maintained with a bare soil surface. Wide row spacing leads to exposed soil which acts as a significant source and sink of radiation and sensible heat, and affects energy and water balances of the vines. Bare soil allows direct soil water evaporation, a net loss of water that is unnecessary for grape production and undesirable under water-limited conditions. In vineyards where annual water scarcity is not a concern, the inter-rows are often maintained with grassed surfaces. The grass transpires soil water throughout its growth cycle; water transpired by the grass may be as much as double the water transpired by the grape vines. This may be beneficial during periods under excess water, but can be detrimental to water availability during periods when rainfall is scarce, particularly during flowering. The large quantity of water transpired below the canopy by the grass also may elevate canopy humidity, leading to enhanced disease pressures. Understanding of water and energy dynamics in the inter-row is important for establishing proper management of the vineyard. However, developing this understanding is challenging because of the complex canopy architecture. Parallel experiments were conducted at an arid, irrigated vineyard in Israel with bare surface inter-rows and in a humid, rain-fed vineyard in North Carolina, USA, with grassed inter-rows. The general objective for these experiments is to improve understanding of water management in the inter-row. At both locations, micro Bowen ratio systems and eddy covariance systems continuously measured energy and water fluxes below and above the grape canopy, respectively. For short-duration experiments at each site, below-canopy potential evapotranspiration (PET) and incident radiation were monitored at ground level with micro pan lysimeters and pyranometers, spread along transects from vine row to adjacent vine row. Here, we focus on the relationships between canopy shading and PET below the canopy. Results show a clear effect of shading on below canopy PET, with distinct and different periods of high and low daytime PET at mid-inter-row, quarter-row and row positions in the N-S oriented rows. The consequences of below canopy observations for whole (vineyard) system water and energy budgets will be highlighted.