Effect of Deficit Irrigation on Yield, Quality, and Costs of the Production of Native Spearmint
Publication: Journal of Irrigation and Drainage Engineering
Volume 140, Issue 5
Abstract
Water-saving strategies aimed at improving water use efficiency need to be applied in agriculture today to ensure sustainable use of scarce water resources. This article presents results of a 2-year study done at Washington State University’s Irrigated Agriculture Research and Extension Center (IAREC) to determine the effect of various water stress levels applied at various times during the growth period to the yield quantity, quality, and production costs of drip-irrigated native spearmint (Mentha spicata L.). The field experiment included four irrigation levels (40, 54, 80, and 100% of ETc) and four stress timings: T1(the irrigation levels were applied throughout the growing season), T2, T3, and T4 where the irrigation levels were applied 21, 14, and 7 days before harvest, respectively. Hay yields decreased with increasing water stress; mean annual hay yield ranged from under the driest treatment (40% irrigation level at timing T1) to under 100% irrigation level. Mean annual oil yields ranged between 108 and among treatments. Fully irrigated plots gave average oil yields of . Deficit irrigation thus has potential to give similar or even higher oil yields than those from fully irrigated plots. Water stress did not significantly affect oil quality. The oil concentration (kg of oil per kg of hay) increased with water stress; mean oil concentrations ranged from 0.22% under 100% irrigation level to 0.31% under the driest treatment. Water use efficiency (oil yield per unit volume of water consumed) also increased with increasing water stress, ranging from under 100% irrigation level to under the driest treatment. Costs of production savings were 2.9, 6.6, and 8.6% per hectare for the 80, 54, and 40% of ETc, respectively, when compared to the full irrigation scenario. Results show that up to 60% irrigation deficit in native spearmint, no matter its timing, can save water, improve water use efficiency, and reduce costs of production while maintaining oil yields and quality similar to those from fully irrigated plants.
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Acknowledgments
This work was funded by the Washington State Mint Commission and the USDA SCRI grant. We thank Ray Baker for his help in establishing the mint field, managing weed control, fertilizer applications, harvests, and distillation of the oil. We thank Hossein Sadeghi for helping out in a number of field activities. We also appreciate Scott Mattinson for his help with the oil component analysis.
References
Alkire, H. B., and Simon, E. S. (1993). “Water management for Midwestern Peppermint (Mentha x piperita L.) growing in highly organic soils, Indiana, U.S.” Acta Hort., 344, 544–556.
Biggs, R. H., and Leopold, A. C. (1955). “The effects of temperature on peppermint.” Proc. Am. Soc. Hort. Sci., 66, 315–321.
Burbott, J. A., and Loomis, D. W. (1967). “Effects of light and temperature on the monoterpenes of peppermint.” Plant Physiol., 42(1), 20–28.
Charles, D. J., Joly, J. R., and Simon, E. J. (1990). “Effects of osmotic stress on the essential oil content and composition of peppermint.” Phytochemistry, 29(9), 2837–2840.
Corell, M., Castillo, M. G., and Cermeño, P. (2009). “Effect of the deficit watering in the production and quality of the essential oil, in the cultivation of Salvia officinalis L.” Acta. Hort., 826, 281–288.
Cramer, A. C. J., Mattinson, D. S., Fellman, J. K., and Baik, B. K. (2005). “Analysis of volatile compounds from various types of barley cultivars.” J. Agr. Food Chem., 53(19), 7526–7531.
Delfine, S., Loreto, F., Pinelli, P., Tognetti, R., and Alvino, A. (2005). “Isoprenoids content and photosynthetic limitations in rosemary and spearmint plants under water stress.” Agr. Ecosyst. Environ., 106(2–3), 243–252.
English, M. (2002). “Irrigation advisory services for optimum use of limited water.” 18th ICID Congress, Food and Agriculture Organisation, 〈http://www.fao.org/nr/water/docs/ias/paper23.pdf〉 (Feb. 14, 2012).
English, M., and Raja, N. S. (1996). “Perspectives on deficit irrigation.” Agr. Water Manage., 32(1), 1–14.
Fereres, E., and Soriano, A. M. (2007). “Deficit irrigation for reducing agricultural water use.” J. Exp. Botany, 58(2), 147–159.
Filipsson, A. F., Aseda, J. B., and Karlsson, S. (1998). “Limonene.” Concise International Chemical Assessment Document 5, World Health Organisation, 〈http://www.who.int/ipcs/publications/cicad/en/cicad05.pdf〉 (Apr. 2, 2013).
Food, and Agriculture Organization (FAO). (2002). “Deficit irrigation practices.” Water Rep. 22, 〈ftp://ftp.fao.org/agl/aglw/docs/wr22e.pdf〉 (Mar. 12, 2012).
Fuchs, J. S., and Hirnyck, E. R. (2000). “Crop profiles for mint in Idaho.” 〈http://www.ipmcenters.org/cropprofiles/docs/IDMint.pdf〉 (Jul. 16, 2011).
Gallardo, K. (2011). “2010 cost of producing native and scotch spearmint under rill and center-pivot irrigation in Washington.” Washington State Univ., 〈http://cru.cahe.wsu.edu/CEPublications/FS026E/FS026E.pdf〉 (May 4, 2012).
Geerts, S., and Raes, D. (2009). “Deficit irrigation as an on-farm strategy to maximize crop water productivity in dry areas.” Agr. Water Manage., 96(9), 1275–1284.
Hargreaves, G., and Samani, Z. (1984). “Economic considerations of deficit irrigation.” J. Irrig. Drain Eng., 343–358.
Kim, H. K., and Hong, J. (1999). “Equilibrium solubilities of spearmint oil components in supercriticalcarbondioxide.” Fluid Phase Equilibr., 164(1), 107–115.
Ley, W. T., Stevens, G. R., and Leib, B. (2003). “Mint irrigation management.” EM4827, Drought Advisory, 〈http://cru.cahe.wsu.edu/CEPublications/em4827/em4827.pdf〉 (Nov. 15, 2010).
Loomis, W. D. (1978). “Physiology of essential oil production in mint.” Proc. Oregon Essential Oil Growers League, 29, 23–24.
Maffei, M., Codignola, A., and Fieschi, M. (1986). “Essential oil from Mentha spicata L. (spearmint) cultivated in Italy.” Flavour Frag. J., 1, 105–109.
Mannocchi, F., and Mecarelli, P. (1994). “Optimization analysis of deficit irrigation systems.” J. Irrig. Drain Eng., 484–503.
Martin, L. D., Kranz, L. W., Dorn, W. T., Melvin, R. S., and Corr, J. A. (2010). “Reducing the cost of pumping irrigation water.” Proc., 22nd Annual Central Plains Irrigation Conf., 〈http://www.ksre.ksu.edu/irrigate/OOW/P10/Melvin10.pdf〉 (Feb. 23, 2012).
Minitab 16 Statistical Software [Computer software]. State College, PA, Minitab.
Mitchell, A. R. (1997). “Irrigating peppermint.” EM 86662, 〈http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/14853/em8662.pdf?sequence1〉 (Nov. 26, 2010).
Mitchell, A. R., and Yang, C. L. (1998). “Irrigation of peppermint for optimal yield.” Soil Sci. Soc. Am. J., 62(5), 1405–1409.
Okwany, R., Peters, T. R., Ringer, K. L., Walsh, D., and Rubio, M. (2012). “Impact of sustained deficit irrigation on spearmint (Mentha spicata L.) biomass production, oil yield, and oil quality.” Irrig. Sci., 30(3), 213–219.
Oweis, T. Y., Farahani, H. J., and Hachum, A. Y. (2011). “Evapotranspiration and water use of full and deficit irrigated cotton in the Mediterranean environment in northern Syria.” Agr. Water Manage., 98(8), 1239–1248.
Ram, D., Ram, M., and Singh, R. (2006). “Optimization of water and nitrogen application to menthol mint (Mentha arvensis L.) through sugarcane trash mulch in a sandy loam soil of semi-arid subtropical climate.” Bioresour. Technol., 97(7), 886–893.
Rodrigues, C. G., and Pereira, S. L. (2009). “Assessing economic impacts of deficit irrigation as related to water productivity and water costs.” Biosystems Eng., 103(4), 536–551.
Rohloff, J. (1999). “Monoterpene composition of essentials oil from peppermint (Mentha x piperita L.) with regard to leaf position using solid-phase microextraction and gas chromatography/mass spectrometry analysis.” J Agr. Food Chem., 47(9), 3782–3786.
Saxton, E. K., and Rawls, J. W. (2006). “Soil water characteristic estimates by texture and organic matterfor hydrologic solutions.” Soil Sci. Soc. Am. J., 70(5), 1569–1578.
Soil Survey Staff. (2010). Natural Resources Conservation Service, US Dept. of Agriculture. “Web soil survey.” 〈http://websoilsurvey.nrcs.usda.gov/〉 (Apr. 6, 2010).
USDA. (2013). “Crop production 2012 summary.” 〈http://usda01.library.cornell.edu/usda/current/CropProdSu/CropProdSu-01-11-2013.pdf〉 (Feb. 13, 2013).
Yang, X., and Peppard, T. (1994). “Solid-phase micro-extraction for flavour analysis.” J Agr. Food Chem., 42(9), 1925–1930.
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Published In
Journal of Irrigation and Drainage Engineering
Volume 140 • Issue 5 • May 2014
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© 2014 American Society of Civil Engineers.
History
Received: Aug 5, 2013
Accepted: Dec 26, 2013
Published online: Feb 18, 2014
Published in print: May 1, 2014
Discussion open until: Jul 18, 2014
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