The effects of foliar applied CaCl2·2H2O,Ca(OH)2 and K2CO3 combined with the surfactants Glucopon and Plantacare on gas exchange of 1 year old apple (Malus domestica BORKH.) and broad bean (Vicia faba L.) leaves |
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| Authors: | R.Q. Bai,T.K. Schlegel,J. Schö nherr,P.W. Masinde |
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| Affiliation: | 1. Agronomy College, Inner Mongolia Agricultural University, Xinjiandongjie 275, Huhhot 010019, China;2. Institute of Biological Production Sciences, Hannover University, Herrenhäuser Straße 2, Hannover D 30419, Germany;3. Jomo Kenyatta University of Agriculture and Technology, P.O. Box 62000, Nairobi 00200, Kenya |
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| Abstract: | Calcium chloride, calcium hydroxide, potassium carbonate and the alkylpolyglycoside surfactants Glucopon 215 CSUP and Plantacare 12 UP are salts applied to leaves as foliar nutrients and fungicides. These chemicals were sprayed on apple (Malus domestica BORKH.) and broad bean (Vicia faba L.) leaves. Stomatal conductance and rates of net photosynthesis were measured continuously in the light and in the dark using a Portable Photosynthesis System CIRAS-1. All compounds with the exception of Ca(OH)2 affected stomatal conductance and net photosynthesis, albeit to different degrees. In light, Plantacare either alone (0.2 g l−1) or in combination with CaCl2·2H2O (5 g l−1) or K2CO3 (5 g l−1) caused a rapid initial increase in stomatal conductance during the first 1–3 h after spraying on the leaves, maximum conductances were observed about 6 h after application. A rather high stomatal conductance was observed during the dark period when Glucopon (0.2 g l−1) was applied either alone or in combination with Ca(OH)2. The combination CaCl2·2H2O + Glucopon did not cause this elevated stomatal conductance during the dark. CaCl2·2H2O reduced stomatal conductance in combination with both Glucopon and Plantacare. The surfactant Plantacare reduced net photosynthesis during the first light period (12 h), if applied alone or in combination with CaCl2·2H2O. Treatment of broad bean leaves with K2CO3 + Plantacare resulted in a rapid decrease in net photosynthesis during the first hour, and then the rates of net photosynthesis increased rapidly and approached to those of the water control. The effects of surfactants and salts on net photosynthesis had nearly disappeared by the beginning of the second light period. Non-specific glycosidases presumably cleaved the glycosidic bond between the alkyl and the sugar moieties during the preceding night. Our data showed that foliar applications of CaCl2·2H2O and K2CO3 together with alkyl polyglycoside surfactants can affect gas exchange. However, the effects of the chemicals at the concentrations used in our study were not very large and were transient. They practically vanished within 24 h and a detrimental effect on growth and development of crops was not likely. |
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| Keywords: | Foliar nutrients Fungicides Glucopon Photosynthesis Plantacare Stomatal conductance Surfactants Transpiration |
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