The Ultrastructure and Analytical Microscopy of Silicon Deposition in the Aleurone Layer of the Caryopsis of Setaria italica (L.) Beauv.

Silicon deposition in the caryopsis of foxtail millet (Setariaitalica (L.) Beauv.) from Lin Xian, Northern China was investigatedusing transmission electron microscopy and energy dispersiveX-ray analysis. The highest silicon count rates were obtained from the pericarpand outer aleurone cell walls, and particularly from a granularelectron-opaque layer external to the outer aleurone cell wall.Silicon was not detected in tissues interior to the aleurone. A possible mechanism for silicon deposition in the caryopsisis suggested, and the results are discussed with respect tothe high incidence of oesophageal cancer in Lin Xian, NorthernChina. Setaria italica (L.) Beauv., foxtail millet, silicon deposition, alcurone layer, caryopsis, ultrastructure, X-ray analysis     

Salt-Induced Ultrastructural Damage to Mitochondria in Root Tips of a Salt-Sensitive Ecotype of Agrostis Stolonifera

In root tips of a salt-sensitive ecotype of Agrostis stolonifera,treatment with 100 mmol I^–1 NaCl for two weeks resultedin conspicuous structural damage to mitochondria, which becamedeficient in cristae, swelled and vacuolated. A salt-tolerantecotype maintained normal root tip mitochondrial structure underthe same salt treatment, in spite of accumulating higher levelsof sodium and chloride in its roots. The subcellular distributionof chloride, as judged by electron microscopy after precipitationwith silver ions, was identical in both ecotypes.     

Opaline Silica Deposits in the Leaves of Bidens pilosa L. and their Possible Significance in Cancer

The occurrence of silica deposits in suitably treated leavesof Bidens pilosa L. of African origin was investigated usinglight and scanning electron microscopy and X-ray analyses. Numerousfibres of amorphous silica were located at the edges and surfacesof the leaves. The deposits were always associated with theepidermal microhairs and were confined to the walls. The significance of these accumulations in a dicotyledonousspecies and in relation to possible deposition mechanisms isdiscussed. Their possible role as a cause of cancer is reviewedin the light of recent investigations involving Bidens pilosa. Bidens pilosa L., opaline silica, oesophageal cancer     

Ion Absorption and Allocation of Carbon Resources in Excised Pea Roots Grown in Liquid Medium in Absence or Presence of NaCl

Freshly excised pea roots (Pisum sativum cv. Alaska) when transferredto growth medium (130 mOsm) or growth medium containing salt( 370 mOsm) suffer an initial osmotic shock and lose water.Contol roots tended to accumulate potassium, particularly inthe apical zone, while those exposed to NaCl accumulated mainlysodium, potassium accumulation being depressed. Exposure tosalinity for 6 d caused increases in root protein, cellulose,uronic acid and lignin content per cell. In roots supplied with¹⁴C-glucose for 24 h immediately after excision there was littledifference in uptake of glucose and in its use in respirationbetween control and salt treated roots. However, there werenoticeable differences in incorporation of labelled carbon intoseveral cell fractions, and particularly into the cellulosefraction in the upper parts of the root. When roots were grownfor six days in culture before being supplied with [¹⁴C]glucose,uptake per root was greater in the 120 mM NaCl treatment, andthe fraction diverted to respiration was decreased by salinity.On a per cell basis incorporation into soluble starch, uronicacid and cellulose fractions was increased in the salt treatedroots. The data obtained are in accord with the previous findingsand are suggestive of increased synthesis of cell wall materials.No conclusion could be drawn as to whether the changes describedare of adaptive value. Pisum sativum L. cv. Alaska, root culture, salinity, osmoregulation, cell wall     

Observations on the Distribution of Mineral Elements in the Leaf of Wheat (Triticum aestivum L.), with Particular Reference to Silicon

Wheat (Triticum aestivum L. cv. Wheaton) plants were grown inwater culture or in soil. Basal leaves (B) were harvested after3 weeks from the water culture plants, while flag leaves werecollected from soil-grown material at the time of inflorescenceemergence (E0) and 7 d after emergence (E + 7). Mineral distributionin bulk frozen leaves was investigated using SEM and X-ray microanalysis.The elements detected were silicon, phosphorus, chlorine, sulphur,potassium and calcium. Potassium was present in all cell typesat all harvests, chlorine was almost entirely confined to theadaxial and abaxial epidermi, while sulphur was only rarelydetected in the E0 and E + 7 leaves. Phosphorus was presentat higher levels in the E + 7 leaves than in the B or E0 leaves.At the B harvest calcium was confined to the adaxial epidermalcells, but in the E0 and E + 7 leaves it was present in bothepidermi. Silicon was, initially, mainly detected in the abaxialepidermal cells, but in older (E + 7) leaves it was presentin both epidermi and in some internal tissues. Mineral transportwithin the leaf and ionic environment at silica deposition sitesare discussed. Wheat, Triticum aestivum L., leaf, mineral distribution, X-ray microanalysis, silicon, calcium     

Silicon Deposition in the Inflorescence Bristles and Macrohairs of Setaria italica (L.) Beauv.

Silicon deposits in the inflorescence bristles subtending eachspikelet, and in the macrohairs of foxtail millet (Setaria italica(L.) Beauv.) were investigated using scanning electron microscopyand electron-probe microanalysis. High concentrations of silicon were detected in the pricklehairs which covered the bristles. In the unicellular macrohairscovering the inflorescence axis and its branches, silicon wasdeposited along the whole length of the hairs. The mechanisms by which silicification may have taken place,and the possibility that the bristles and macrohairs are involvedin the aetiology of oesophageal cancer in N. China are discussed. Setaria italica (L.) Beauv., foxtail millet, millet, silicon deposits, silicification, prickle hairs, scanning electron microscopy, electron-probe microanalysis