Soil & Water Res., 2016, 11(4):250-258 | DOI: 10.17221/170/2015-SWR

Survey of soil water distribution in a vineyard and implications for subsurface drip irrigation controlOriginal Paper

Reinhard NOLZ, Willibald LOISKANDL, Gerhard KAMMERER, Margarita L. HIMMELBAUER
Department of Water, Atmosphere and Environment, Institute of Hydraulics and Rural Water Management, University of Natural Resources and Life Sciences, Vienna, Austria

Controlling a subsurface drip irrigation system based on soil water monitoring is a very efficient way to supply grapevines with water for optimal thriving and high vintage quality. However, finding an adequate location for sensor installation is a great challenge due to the well-known spatio-temporal variability of soil moisture and possible measurement uncertainties. The variations depend on soil structure, soil hydraulic properties, or plant water uptake, for instance. Subsequently, these factors are influenced by management practices such as soil cultivation or cover cropping. The main objective of this study was to gain experience in order to give recommendations for soil water monitoring in a vineyard in accordance to local management practices. Soil moisture was surveyed across a study plot in a vineyard. A gouge auger was used to obtain soil samples from both sides of two vine rows for determining gravimetric water content. Volumetric soil water content was measured near the vine rows by inserting a portable soil water probe into pre-installed access tubes. Soil water variability was investigated under rain-fed conditions, and before and after a subsurface drip irrigation event. Differences were considered between inter-rows that were frequently tilled and those with permanent crop cover. In the first of two study years the variability of soil water content was small as the soil characteristics were relatively homogeneous across the plot and the atmospheric conditions were rather wet. In the second year the deviations were greater due to the more dynamic outer conditions. The alternating cultivation of every second inter-row had a substantial effect on soil water distribution in both years. Representative monitoring across the entire plot should thus consider all inter-rows with distinct cultivation. However, a more efficient procedure is recommended as a basis for irrigation control, considering the uncertainties caused by spatial variability.

Keywords: gravimetric water content; Sentek Diviner; spatio-temporal variability; volumetric water content

Published: December 31, 2016  Show citation

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NOLZ R, LOISKANDL W, KAMMERER G, HIMMELBAUER ML. Survey of soil water distribution in a vineyard and implications for subsurface drip irrigation control. Soil & Water Res. 2016;11(4):250-258. doi: 10.17221/170/2015-SWR.
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    References

    1. Allen R.G., Pereira L.S., Raes D., Smith M. (1998): Crop Evapotranspiration: Guidelines for Computing Crop Water Requirements. FAO Irrigation and Drainage Paper No. 56, Rome, FAO.
    2. Ayars J.E., Phene C.J., Hutmacher R.B., Davis K.R., Shoneman R.A., Vail S.S., Mead R.M. (1999): Subsurface drip irrigation of row crops: A review of 15 years of research at the Water Management Research Laboratory. Agricultural Water Management, 42: 1-27. Go to original source...
    3. Camp C.R. (1998): Subsurface drip irrigation: a review. Transactions of the ASAE, 41: 1353-1367. Go to original source...
    4. Celette F., Gaudin R., Gary C. (2008): Spatial and temporal changes to the water regime of a Mediterranean vineyard due to the adoption of cover cropping. European Journal of Agronomy, 29: 153-162. Go to original source...
    5. Dabach S., Shani U., Lazarovitch N. (2015): Optimal tensiometer placement for high-frequency subsurface drip irrigation management in heterogeneous soils. Agricultural Water Management, 152: 91-98. Go to original source...
    6. De la Hera M.L., Romero P., Gomez-Plaza E., Martinez A. (2007): Is partial root-zone drying an effective irrigation technique to improve water use efficiency and fruit quality in field-grown wine grapes under semiarid conditions? Agricultural Water Management, 87: 261-274. Go to original source...
    7. Evett S.R., Tolk J.A., Howell T.A. (2006): Soil profile water content determination: Sensor accuracy, axial response, calibration, temperature dependence, and precision. Vadose Zone Journal, 5: 894-907. Go to original source...
    8. Evett S.R., Schwartz R.C., Tolk J.A., Howell T.A. (2009): Soil profile water content determination: Spatiotemporal variability of electromagnetic and neutron probe sensors in access tubes. Vadose Zone Journal, 8: 926-941. Go to original source...
    9. Evett S.R., Schwartz R.C., Casanova J.J., Heng L.K. (2012): Soil water sensing for water balance, ET and WUE. Agricultural Water Management, 104: 1-9. Go to original source...
    10. Intrigliolo D.S., Castel J.R. (2008): Effects of irrigation on the performance of grapevine cv. Tempranillo in Requena, Spain. American Journal of Enology and Viticulture, 59: 30-38. Go to original source...
    11. Intrigliolo D.S., Castel J.R. (2009): Response of Vitis vinifera cv. 'Tempranillo' to partial rootzone drying in the field: Water relations, growth, yield and fruit and wine quality. Agricultural Water Management, 96: 282-292. Go to original source...
    12. Jury W.A., Gardner W.R., Gardner W.H. (1991): Soil Physics. 5th Ed. New York, John Wiley & Sons.
    13. Kammerer G., Nolz R., Rodny M., Loiskandl W. (2014): Performance of Hydra Probe and MPS-1 soil water sensors in topsoil tested in lab and field. Journal of Water Resource and Protection, 6: 1207-1219. Go to original source...
    14. Medrano H., Tomás M., Martorell S., Escalona J.M., Pou A., Fuentes S., Flexas J., Bota J. (2015): Improving water use efficiency of vineyards in semiarid regions: A review. Agronomy for Sustainable Development, 35: 499-517. Go to original source...
    15. Monteiro A., Lopes C.M. (2007): Influence of cover crop on water use and performance of a vineyard in Mediterranean Portugal. Agriculture, Ecosystems and Environment, 121: 336-342. Go to original source...
    16. Nolz R., Cepuder P. (2011): Weather data as basis for calculating reference evapotranspiration on an irrigation trial plot within a vineyard. In: Stredova H., Roznovsky J., Litschmann T. (eds): Int. Conf. Microclimate and Mesoclimate of Landscape Structures and Anthropogenic Environment, Skalní Mlýn, Feb 2-4, 2011: 1-6.
    17. Pachepsky Y.A., Guber A.K., Jacques D. (2005): Temporal persistence in vertical distribution of soil moisture contents. Soil Science Society of America Journal, 69: 347-352. Go to original source...
    18. R Development Core Team (2008): R: A Language and Environment for Statistical Computing. Vienna, R Foundation for Statistical Computing. Available at http://www.R-project.org
    19. Razali N.M., Wah Y.B. (2011): Power comparisons of Shapiro-Wilk, Kolmogorov-Smirnov, Lilliefors and Anderson-Darling tests. Journal of Statistical Modeling and Analytics, 2: 21-33.
    20. Ruiz-Sanchez M.C., Domingo R., Castel J.R. (2010): Review. Deficit irrigation in fruit trees and vines in Spain. Spanish Journal of Agricultural Research, 8: 5-20. Go to original source...
    21. Sentek (2001): Calibration of Sentek Soil Moisture Sensors. Manual. Stepney, Sentek Pty, Ltd.
    22. Sentek (2009): Diviner 2000 User Guide version 1.5. Manual. Sentek Pty, Ltd.
    23. Starr G.C. (2005): Assessing temporal stability and spatial variability of soil water patterns with implications for precision water management. Agricultural Water Management, 72: 223-243. Go to original source...
    24. Van Leeuwen C., Trégoat O., Choné X., Bois B., Pernet D., Gaudillère J.P. (2009): Vine water status is a key factor in grape ripening and vintage quality for red Bordeaux wine. How can it be assessed for vineyard management purposes? Journal International des Sciences de la Vigne et du Vin, 43: 121-134. Go to original source...
    25. Vereecken H., Huisman J.A., Bogena H., Vanderborght J., Vrugt J.A., Hopmans J.W. (2008): On the value of soil moisture measurements in vadose zone hydrology: A review. Water Resources Research, 44: W00D06. Go to original source...

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