Skip to Content
Merck
  • Review: mechanisms for boron deficiency-mediated changes in plant water relations.

Review: mechanisms for boron deficiency-mediated changes in plant water relations.

Plant science : an international journal of experimental plant biology (2013-02-19)
Monika A Wimmer, Thomas Eichert
ABSTRACT

Boron (B) is an essential microelement for plants and is constantly needed throughout the plant life due to its function as a structural element of the plant cell wall. B deficiency is a wide-spread problem in agricultural areas world-wide, and management of B nutrition is challenged by sudden occurrences of B deficiency or inconsistent effects of foliar B application. The effects of insufficient B supply on different structures relevant for the plant water status have been heavily researched, but the resulting conclusions are contradictory and no clear picture has so far emerged that fully explains the inconsistencies. B deficiency can affect water uptake by inhibition of root and shoot growth and by upregulation of water channels. Structural damage to xylem vessels can limit water transport to arial plant parts, while water loss can be altered by impaired barrier functions of leaf surfaces and reduced photosynthesis. In consequence of all these effects, transpiration is reduced in B-deficient plants under well-watered conditions. Under drought conditions, the responsiveness of stomata is impaired. Possible consequences of damaged vasculature for plant B nutrition include the reduced effectiveness of foliar B fertilization, especially in species with high B phloem mobility. Changes in leaf surface properties can further reduce B uptake after foliar application. In species with low B phloem mobility, weakened xylem vessels may not be able to supply sufficient B to arial parts under conditions of increased B demand, such as during bud development of trees. Since structural damage to vessels is hardly reversible, these effects could be permanent, even if B deficiency was only transient. Another consequence of reduced water status is the higher susceptibility of B-deficient plants to other abiotic stresses, which also impair water relations, especially drought. Since damage to vasculature can occur before visible symptoms of B deficiency appear in shoots, the importance to develop reliable diagnostic tools for detection of sub-acute B deficiency is highlighted.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Boron, crystalline, 1 cm, 99.7% trace metals basis
Sigma-Aldrich
Boron, crystalline, −60 mesh, 99% trace metals basis
Sigma-Aldrich
Boron, ≥95% (boron), amorphous powder
Boron, monofilament, 200m, diameter 0.1mm
Boron, monofilament, 50m, diameter 0.1mm
Boron, monofilament, 20m, diameter 0.2mm
Boron, monofilament, 20m, diameter 0.1mm
Boron, monofilament, 10m, diameter 0.1mm
Boron, monofilament, 10m, diameter 0.2mm
Boron, monofilament, 5m, diameter 0.1mm
Boron, monofilament, 5m, diameter 0.2mm
Boron, monofilament, 50m, diameter 0.2mm