Abstract
Chelated-buffered nutrient solutions are used for studies on micronutrient metals but so far no equivalent system exists for boron nutrition studies: the present investigation was initiated with that intention. From a literature review, it was noted that a range of substances form chelates with boron including polyhydric alcohols, sugars and phenolic compounds. However, none apart from hydrofluoric acid formed chelates with formation constants comparable to those of micronutrient metal chelates like diethylenetriaminepentaacetic acid (DTPA). Moreover, most chelating substances had deleterious side effects which reduced their possible use in water culture: many of the compounds are substrates for bacterial growth, some are harmful to handle, and others are toxic to plants or humans. Borosilicate glass; was tested in a laboratory experiment but found to release boron too slowly into solution to maintain constant boron concentration in solution even when very finely ground. Current investigations centre around the use of a boron-specific resin, which strongly complexes H3BO3 on its N-methyl glucamine functional groups. The boron sorption capacity of the resin varied from 2.2 to 5.0 mg B g-1 resin. Boron saturated resin maintained an equilibrium solution boron concentration of 46 μt M when added at the rate of 2 g of resin to 1 L of boron free triple deionised water. Plants grown in complete nutrient solution with boron saturated resin added at 1 g per litre of nutrient solution grew as well as plants grown in conventional nutrient solution containing 9.2 μt M boron and their shoots contained adequate boron concentrations for growth. There was no evidence that the resin had effects on plant growth other than in releasing and equilibrating boron concentration in the nutrient solution.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arnon D I and Grossenbacher K A 1947 Nutrient culture of crops with the use of synthetic ion exchange materials. Soil Sci. 63, 159-181.
Asher C J and Blamey F P 1987 Experimental control of plant nutrient status using programmed nutrient addition. J. Plant Nutr. 10, 1371-1380.
Asher C J and Edwards D G 1983 Modern solution culture techniques. InEncyclopedia of Plant Physiology, New Series, Inorganic Plant Nutrition, Vol. 15A. Eds. A Lauchli and R L Bieleski. pp 94-119. Springer-Verlag, Berlin.
Bell P F, Chaney R L and Angle J S 1991 Determination of the copper 2+ activity required by maize using chelator-buffered nutrient solutions. Soil Sci. Soc. Am. J. 55, 1366-1374.
Bell R W, McLay L, Plaskett D, Dell B and Loneragan J F 1990 Internal boron requirements of green gram (Vigna radiata(L.) Wilzcek). InPlant Nutrition Physiology and Applications. Ed. M L Van Beusichem. pp 275-280. Kluwer Academic Publishers, Dordrecht.
Blaser-Grill J, Knoppik D, Amberger A and Goldbach H 1989 Influence of boron on the membrane potential in Elodea densaand Helianthus annuusroots and H+ extrusion of suspension cultured Daucus carotacells. Plant Physiol. 90, 280-284.
Chaney R L, Bell P F and Coulombe B A 1989 Screening strategies for improved nutrient uptake and use by plants. HortScience 24, 565-572.
Corning Technical Data 1994 Pyrex Borosilicate Glass. Laboratory Division Stone. Corning Limited. Staffordshire ST15 OBG, UK.
Gagnon J, Roth J, Finzer B, Hofmann R, Haycock K, Simpson J and Fieldman D 1984 The accessible general linear modelling package. Abacus Concept Publishers. Bonita Avenue, Berkeley, California.
Hocking P J 1993 Effects of sowing time and plant age on critical nitrogen concentrations in canola (Brassica napusL.). InPlant Nutrition-from Genetic Engineering to Field Practice. Ed. N J Barrow. pp 521-524. Kluwer Academic Publishers, Dordrecht.
Huang C, Webb M J and Graham R D 1993 Effect of pH on Mn absorption by barley genotypes in a chelate-buffered nutrient solution. InPlant Nutrition-from Genetic Engineering to Field Practice. Ed. N J Barrow. pp 653-656. Kluwer Academic Publishers, Dordrecht.
Keren R and Bingham F T 1985 Boron in water, soils and plants. Adv. Soil Sci. 1, 229-276.
Kirk G and Loneragan J F 1988 Functional boron requirement for leaf Expansion and its use as a critical value for diagnosis of boron deficiency in soybean (GlycinemaxL. Merr.) cv.Buchanan. Agron. J. 80, 758-763.
Kunin R and Preuss A F 1964 Characterisation of a boron-specific ion exchange resin. I and EC Prod. Res. Develop. 3, 304-306.
Loneragan J F 1975 The availability and absorption of trace elements in soil-plant systems and their relation to movement and concentrations of trace elements in plants. InTrace Elements in Soil-Plant-Animal Systems. Eds. D J D Nicholas and A R Egan. pp 109-134. Academic Press, New York.
Loomis W D and Durst RW 1992 Chemistry and biology of boron. Bio-Factors 3, 229-239.
Lyman W and Preuss A F 1957 Ion exchange resin. U.S. Patent 2, 813-838.
Martell A E and Smith RM 1974 Critical stability constants. Amino acids: 1. Plenum Press, New York.
Martell A E and Smith R M 1977 Critical stability constants. 3. Plenum Press, New York.
Martell A E and Smith R M 1982 Critical stability constants. First supplement, 5. Plenum Press, New York.
Martell A E Smith R M 1989 Critical stability constants. Second supplement, 6. Plenum Press, New York, USA.
Sigma Chemical Co. 1980 Technical bulletin Fluid Proocess Chemicals. pp 1-3. P.O. Box 14508, St Louis, MO 63178.
Tisdale S L and Nelson WL 1971 Soil Fertility and Fertiliser. Second Edition. p 316. The Macmillan Company, New York.
Zarcinas BA, Cartwright B and Spouncer L R 1987 Nitric acid digestion and multi-element analysis of plant material by inductively coupled plasma spectrometry. Commun. Soil Sci. Plant Anal. 18, 131-146.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Asad, A., Bell, R., Dell, B. et al. Development of a boron buffered solution culture system for controlled studies of plant boron nutrition. Plant and Soil 188, 21–32 (1997). https://doi.org/10.1023/A:1004291225723
Issue Date:
DOI: https://doi.org/10.1023/A:1004291225723