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Use of Mixture Experiments to Determine the Effect of Counter- cations of HCO 3 - on Bean (Phaseolus vulgaris L.) ‘Poncho” in Hydroponics Luis A. Valdez-A.

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Presentation on theme: "Use of Mixture Experiments to Determine the Effect of Counter- cations of HCO 3 - on Bean (Phaseolus vulgaris L.) ‘Poncho” in Hydroponics Luis A. Valdez-A."— Presentation transcript:

1 Use of Mixture Experiments to Determine the Effect of Counter- cations of HCO 3 - on Bean (Phaseolus vulgaris L.) ‘Poncho” in Hydroponics Luis A. Valdez-A. and David Wm. Reed Dept. of Horticultural Sciences Texas A&M University

2 Bicarbonate Major contributor to alkalinity Major contributor to alkalinity  HCO 3 -  CO 3 2- Minor contributors: Minor contributors:  OH -, NH 3  Phosphates, Silicates, Borates Alkalinity: Concentration of soluble alkali with capacity to neutralize acids Alkalinity: Concentration of soluble alkali with capacity to neutralize acids pH increase pH increase Micronutrients solubility decrease Micronutrients solubility decrease

3 Alkalinity-induced Fe Deficiency Whipker et al., 2001

4 Impossible to Study HCO 3 - Alone HCO 3 - Na + Ca ++ K+K+ Li + Rb + Mg ++ NH 4 + Cs +

5 Mixture Experiments 2 or more Components are mixed 2 or more Components are mixed Rb + + K + + Na + The total concentration is held fixed The total concentration is held fixed Rb + + K + + Na + = 7.5 m M Rb + + K + + Na + = 7.5 m M Mixture: resulting of mixing components at different proportions Mixture: resulting of mixing components at different proportions Rb + : K + : Na + 1/3 : 1/3 : 1/3 1/3 : 1/3 : 1/3 Mixture Amount Experiment: Mixture Amount Experiment: Rb + + K + + Na + =7.5 m M Rb + + K + + Na + =7.5 m M Rb + + K + + Na + =2.5 m M Rb + + K + + Na + =2.5 m M

6 ½:½:0 0:½:½ 2/3:1/6:1/6 1/6:2/3:1/6 1/6:1/6:2/3 1/3:1/3:1/3 Pure blends Tertiary blends Binary blends Rb + 1:0:0 K + 0:1:0 Na + 0:0:1 Rb + K + Na + 1 : 0 : 0 ½:0:½

7 Objectives Determine the effect of some counter- cations of HCO 3 - on the response of bean plants to HCO 3 - Determine the effect of some counter- cations of HCO 3 - on the response of bean plants to HCO 3 - Separate the effect of the counter-cation from the effect of HCO 3 - Separate the effect of the counter-cation from the effect of HCO 3 -

8 Materials and Methods Phaseolus vulgaris ‘Poncho’ Phaseolus vulgaris ‘Poncho’ Seeds germinated at 28 0 C Seeds germinated at 28 0 C Hydroponics Hydroponics –7 days establishing period –21 day under treatment

9 Mixture-Amount Experiment Effect of Mixtures of Rb +, K +, and Na +, on the Response of Bean Plants to HCO 3 -

10 K + 0 : 7.5 : 0 Rb + 7.5 : 0 : 0 Na + 0 : 0 : 7.5 3.75 : 3.75 : 0 0 : 3.75 : 3.75 5 : 1.25 : 1.25 1.25 : 5 : 1.25 1.25 : 1.25 : 5 2.5 : 2.5 : 2.5 3.75 : 0 : 3.75 0 HCO 3 - Total Concentration = 7.5 mM

11 K + 0 : 7.5 : 0 Rb + 7.5 : 0 : 0 Na + 0 : 0 : 7.5 3.75 : 3.75 : 0 0 : 3.75 : 3.75 5 : 1.25 : 1.25 1.25 : 5 : 1.25 1.25 : 1.25 : 5 2.5 : 2.5 : 2.5 3.75 : 0 : 3.75 7.5 HCO 3 -

12 Na + 0 HCO 3 - K+K+ Rb +

13 Na + 7.5 HCO 3 - K+K+ Rb +

14 Shoot Dry Mass O HCO 3 - 7.5 HCO 3 - Shoot Dry Mass (g)

15 Shoot Dry Mass Na + tox./K + def.=-19% HCO 3 - effect=-15% Shoot Dry Mass (g)

16 Shoot Dry Mass Rb + tox./K + def.=-30% HCO 3 - effect=-18% Shoot Dry Mass (g)

17 LEAF TISSUE K + % 0.93 1.01 0m M HCO 3 - 3.16 1.37 2.00 Rb + Na + K+K+

18 Shoot Dry Mass Rb + +Na + toxicity=-16% HCO 3 - =-22% Shoot Dry Mass (g)

19 Effect of Binary Mixtures of K + and Na + on the Response of Bean Plants to HCO 3 - Mixture-Amount Binary Experiment

20 K + 2.5 : 0 Na + 0 : 2.5 K + Na + 1.25 : 1.25 K + Na + 1.88 : 0.62 K + Na + 0.62 : 1.88 K + 2.5 : 0 K + Na + 1.88 : 0.62 K + Na + 1.25 : 1.25 K + Na + 0.62 : 1.88 Na + 0 : 2.5 2.5 HCO 3 - 0 HCO 3 -

21 K + 5 : 0 Na + 0 : 5 K + Na + 2.5 : 2.5 K + Na + 3.75 : 1.25 K + Na + 1.25 : 3.75 K + 5 : 0 K + Na + 3.75 : 1.25 K + Na + 2.5 : 2.5 K + Na + 1.25 : 3.75 Na + 0 : 5 5 HCO 3 - 0 HCO 3 -

22 K + 7.5 : 0 Na + 0 : 7.5 K + Na + 3.75 : 3.75 K + Na + 3.75 : 3.75 K + Na + 3.75 : 3.75 K + 7.5 : 0 K + Na + 3.75 : 3.75 K + Na + 3.75 : 3.75 K + Na + 3.75 : 3.75 Na + 0 : 7.5 7.5 HCO 3 - 0 HCO 3 -

23 0m M HCO 3 - 2.5m M HCO 3 - K + :Na + 1:0 0.75:0.25 0.5:0.5 0.25:0.75 0:1 4.37g4.75g4.73g3.63g2.36g 3.02g3.30g3.43g3.01g2.12g

24 2.5 HCO 3 - 2.5 m M total mixture 0 HCO 3 - Proportion of K + and Na + Shoot Dry Mass Shoot Dry Mass Na + =-19% HCO 3 - =-19% Shoot Dry Mass (g) Na + K+K+

25 K + :Na + 1:0 0.75:0.25 0.5:0.5 0.25:0.75 0:1 0m M HCO 3 - 5m M HCO 3 - 4.93g 4.15g 4.86g4.29g2.45g 2.79g2.87g 3.34g2.55g1.62g

26 5 m M total mixture 0 HCO 3 - 5 HCO 3 - Proportion of K + and Na + Shoot Dry Mass Na + =-17% HCO 3 - =-24% Shoot Dry Mass (g) 1.0 2.0 3.0 4.0 5.0 6.0 Na + K+K+

27 0m M HCO 3 - 7.5m M HCO 3 - K + :Na + 1:0 0.75:0.25 0.5:0.5 0.25:0.75 0:1 5.18g 4.31g 4.58g 2.45g 3.15g 2.59g2.86g2.20g2.78g2.15g

28 7.5 m M total mixture 0 HCO 3 - 7.5HCO 3 - Proportion of K + and Na + Shoot Dry Mass Na + =-41% HCO 3 - =-15% Shoot Dry Mass (g) Na + K+K+ 6.0 5.0 4.0 3.0 2.0 1.0

29 Na + (m M ) 2.5 2.5 5.0 5.0 7.5 7.5 7.5 7.5 1.88 3.75 5.6 HCO 3 - (m M ) Bicarbonate Effect Sodium Effect Percentage Growth Reduction due to Counter-Cation and HCO 3 - Average=18% % Shoot Dry Mass Decrease

30 Conclusions The effect of both Na + and HCO 3 - is approximately the same at normal concentrations The effect of both Na + and HCO 3 - is approximately the same at normal concentrations At high concentrations, the Na + toxicity effect is much higher than that of HCO 3 - At high concentrations, the Na + toxicity effect is much higher than that of HCO 3 -

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