Deficit irrigation strategies: Use of stress physiology knowledge to increase water use efficency in tomato and potato
Апстракт
Many vegetables, including tomato and potato, have high water requirements, so that supplemental irrigation is necessary for successful production. The predictions are that the demand for irrigation will increase considerably in years to come to alleviate the consequences of climate change and more frequent and severe droughts. Water is expected to become the main limiting factor in agricultural production. However, as a consequence of global climate changes and environmental pollution, water available for agriculture is often reduced. Emphasis therefore must be placed on crop physiology and crop management under dry conditions in order to make plants more efficient water users. Recent results have demonstrated that regulated deficit irrigation (RDI) and alternate partial root drying (ARD) are new deficit irrigation strategies which may decrease demand for agricultural use of water. The application of these techniques to crops such as tomato and potato has demonstrated benefits in term...s of improved wateruse efficiency and a stable yield, in addition to an increased yield quality. Both methods are developed on what is known on plant responses to drought stress and to the mechanism of root-to-shoot drought stress signalling. In this paper we review the research on the responses of tomato and potato to ARD and RDI irrigation strategies, with special emphasis on drought stress signalling mechanisms. Comparison of the beneficial effects of ARD and RDI were done with the aim to suggest which of these strategies may be used to get maximum tomato and potato water productivity and economic returns in dry environments.
Извор:
Horticulture in the 21st Century, 2010, 161-178Scopus: 2-s2.0-84900557027
Институција/група
Poljoprivredni fakultetTY - CHAP AU - Stikić, Radmila AU - Savić, S. AU - Jovanović, Zorica AU - Jacobsen, Sven-Erik AU - Liu, F. AU - Jensen, C.R. PY - 2010 UR - http://aspace.agrif.bg.ac.rs/handle/123456789/2159 AB - Many vegetables, including tomato and potato, have high water requirements, so that supplemental irrigation is necessary for successful production. The predictions are that the demand for irrigation will increase considerably in years to come to alleviate the consequences of climate change and more frequent and severe droughts. Water is expected to become the main limiting factor in agricultural production. However, as a consequence of global climate changes and environmental pollution, water available for agriculture is often reduced. Emphasis therefore must be placed on crop physiology and crop management under dry conditions in order to make plants more efficient water users. Recent results have demonstrated that regulated deficit irrigation (RDI) and alternate partial root drying (ARD) are new deficit irrigation strategies which may decrease demand for agricultural use of water. The application of these techniques to crops such as tomato and potato has demonstrated benefits in terms of improved wateruse efficiency and a stable yield, in addition to an increased yield quality. Both methods are developed on what is known on plant responses to drought stress and to the mechanism of root-to-shoot drought stress signalling. In this paper we review the research on the responses of tomato and potato to ARD and RDI irrigation strategies, with special emphasis on drought stress signalling mechanisms. Comparison of the beneficial effects of ARD and RDI were done with the aim to suggest which of these strategies may be used to get maximum tomato and potato water productivity and economic returns in dry environments. T2 - Horticulture in the 21st Century T1 - Deficit irrigation strategies: Use of stress physiology knowledge to increase water use efficency in tomato and potato EP - 178 SP - 161 UR - https://hdl.handle.net/21.15107/rcub_agrospace_2159 ER -
@inbook{ author = "Stikić, Radmila and Savić, S. and Jovanović, Zorica and Jacobsen, Sven-Erik and Liu, F. and Jensen, C.R.", year = "2010", abstract = "Many vegetables, including tomato and potato, have high water requirements, so that supplemental irrigation is necessary for successful production. The predictions are that the demand for irrigation will increase considerably in years to come to alleviate the consequences of climate change and more frequent and severe droughts. Water is expected to become the main limiting factor in agricultural production. However, as a consequence of global climate changes and environmental pollution, water available for agriculture is often reduced. Emphasis therefore must be placed on crop physiology and crop management under dry conditions in order to make plants more efficient water users. Recent results have demonstrated that regulated deficit irrigation (RDI) and alternate partial root drying (ARD) are new deficit irrigation strategies which may decrease demand for agricultural use of water. The application of these techniques to crops such as tomato and potato has demonstrated benefits in terms of improved wateruse efficiency and a stable yield, in addition to an increased yield quality. Both methods are developed on what is known on plant responses to drought stress and to the mechanism of root-to-shoot drought stress signalling. In this paper we review the research on the responses of tomato and potato to ARD and RDI irrigation strategies, with special emphasis on drought stress signalling mechanisms. Comparison of the beneficial effects of ARD and RDI were done with the aim to suggest which of these strategies may be used to get maximum tomato and potato water productivity and economic returns in dry environments.", journal = "Horticulture in the 21st Century", booktitle = "Deficit irrigation strategies: Use of stress physiology knowledge to increase water use efficency in tomato and potato", pages = "178-161", url = "https://hdl.handle.net/21.15107/rcub_agrospace_2159" }
Stikić, R., Savić, S., Jovanović, Z., Jacobsen, S., Liu, F.,& Jensen, C.R.. (2010). Deficit irrigation strategies: Use of stress physiology knowledge to increase water use efficency in tomato and potato. in Horticulture in the 21st Century, 161-178. https://hdl.handle.net/21.15107/rcub_agrospace_2159
Stikić R, Savić S, Jovanović Z, Jacobsen S, Liu F, Jensen C. Deficit irrigation strategies: Use of stress physiology knowledge to increase water use efficency in tomato and potato. in Horticulture in the 21st Century. 2010;:161-178. https://hdl.handle.net/21.15107/rcub_agrospace_2159 .
Stikić, Radmila, Savić, S., Jovanović, Zorica, Jacobsen, Sven-Erik, Liu, F., Jensen, C.R., "Deficit irrigation strategies: Use of stress physiology knowledge to increase water use efficency in tomato and potato" in Horticulture in the 21st Century (2010):161-178, https://hdl.handle.net/21.15107/rcub_agrospace_2159 .