DESTRUCTION PROCESS OF PLANT ROOT CELLS BY ALUMINUM

スポンサーリンク

概要

• 論文の詳細を見る

• Observations with the scanning electron microscope revealed that Al induced various morphological changes in the root surface, I.e. decrease in the turgescence of epidermal cells of the tip and elongating regions (barley), occurrence of a large number of small depressions mainly in the elongating region (oats and rice), destruction of epidermal and outer cortex cells in the tip and the elongating regions (maize), and cross-sectional deep cracks in the inner cortex cells mainly in the elongating region (pea); whereas few morphological changes occurred in the proximal portion of the root. Vital staining test for the elongating region after Al treatment showed that cell damage occurred only in the epidermis in the Al-tolerant oat plants, epidermis and outer cortex in the Al-sensitive maize plants, and epidermis and almost all of the cortex in barley plants highly sensitive to Al. Al content was higher in the root tip; K content was lower in the tip of hardly growing root, but was lowest in the middle portion, i.e., elongating region, of the growing root. By the Al treatment, the number of protoplasts of maize roots decreased and the plas-malemma of the protoplasts was abnormal, shrank or was thickened. These results indicate that: (1) in Al-sensitive plants the destruction of the root cells involves the more proximal and the more inner cells, and (2) that the destruction of cells associated with Al toxicity is not restricted to the meristematic region of the root. The following mechanisms are postulated: Al may bind to various kinds of binding sites in the plasmalemma of root cells, and consequently leakage of K out of the plasmalemma and passive Al permeation through the plasmalemma may be induced.

• 社団法人日本土壌肥料学会の論文

著者

• WAGATSUMA Tadao

  Faculty of Agriculture, Yamagata University

• Wagatsuma Tadao

  Laboratory Of Plant Nutrition And Soil Science Faculty Of Agriculture Yamagata University:united Gra

• Wagatsuma Tadao

  Faculty Of Agriculture. Yamagata University

• Wagatsuma Tadao

  Faculty Of Agriculture

• KANEKO Minoru

  Faculty of Agriculture. Yamagata University

• HAYASAKA Yasuhlro

  Faculty of Agriculture. Yamagata University

• Kaneko Minoru

  Faculty Of Agriculture Yamagata University

関連論文

• Chemical Composition of Guttation Fluid and Leaves of Petasites japonicus v. giganteus and Polygonum cuspidatum Growing on Ultramafic Soil
• Greater contribution of low-nutrient tolerance to sorghum and maize growth under combined stress conditions with high aluminum and low nutrients in solution culture simulating the nutrient status of tropical acid soils(Plant Nutrition)
• Methylene Blue Stainability of Root-Tip Protoplasts as an Indicator of Aluminum Tolerance in a Wide Range of Plant Species, Cultivars and Lines(Plant Nutrition)
• A New and Simple Technique for the Isolation of Plasma Membrane Lipids from Root-Tips(Plant Nutrition)
• Effect of Arbuscular Mycorrhizal Fungi Glomus mosseae, Glomus fasciculatum and Glomus caledonium on Phosphorus Uptake and Growth of Welsh Onion (Allium fistulosum L.) in Andosols
• Aluminum-tolerant Protoplasts from Roots Can be Collected with Positively Charged Silica Microbeads : a Method Based on Differences in Surface Negativity : ENVIRONMENTAL AND STRESS RESPONSES : MEMBRANES AND BIOENERGETICS
• Plasma Membrane Lipids Are the Powerful Components for Early Stage Aluminum Tolerance in Triticale
• The Plasma Membrane Strength of the Root-Tip Cells and Root Phenolic Compounds Are Correlated with Al Tolerance in Several Common Woody Plants
• Comparison of the Amount of Citric and Malic Acids in Al Media of Seven Plant Species and Two Cultivars Each in Five Plant Species
• Arbuscular Mycorrhizal Fungal Communities Associated with Some Pioneer Plants in the Lahar Area of Mt. Pinatubo, Philippines(Soil Biology)
• Inhibition of Pre-Symbiotic Hyphal Growth of Arbuscular Mycorrhizal Fungus Gigaspora margarita by Root Exudates of Lupinus spp.
• Semi-Quantitative Analysis of Arbuscular Mycorrhizal Colonization of Onion Roots Inoculated with Single or Mixed Species Based upon PCR-RFLP
• Arbuscular Mycorrhizal Colonization in Lupinus and Related Genera
• Effect of Concentration of Phosphate on Spore Germination and Hyphal Growth of Arbuscular Mycorrhizal Fungus, Gigaspora margarita Becker & Hall
• Effect of Phosphate Application to Arbuscular Mycorrhizal Onion on the Development and Succinate Dehydrogenase Activity of Internal Hyphae
• Formation of appressoria by the arbuscular mycorrhizal fungus Gigaspora margarita on roots of Allium cepa is linked with root age
• 9-5 Specific construction of lipid molecules for the root-tip plasma membrane of aluminum-tolerant rice cultivar : Comparative studies on resistance response to high Al conditions (48)
• Is Brassica juncea a suitable plant for phytoremediation of cadmium in soils with moderately low cadmium contamination? : Possibility of using other plant species for Cd-phytoextraction(Plant Nutrition)
• The Plasma Membrane Intactness of Root-Tip Cells Is a Primary Factor for Al-Tolerance in Cultivars of Five Species
• P9-2 Connection of lipid composition in root-tip portion with differential aluminum tolerance between cultivars in several plant species : Comparative studies on resistance response to high aluminum conditions (51)
• P9-1 Characterization of the primary strategies for production of sorghum and maize grown in different concentrations of aluminum and nutrients : Comparative studies on resistance response to high aluminum conditions (52)
• P9-8 Characterization of the primary strategies for better sorghum production in high aluminum and low nutrients conditions mimicking typical acid soil : Comparative studies on resistance response to high aluminum conditions (49)
• 9-8 Aluminum tolerance is not the primary strategy to determine long-term growth of rice in low ionic strength medium : Comparative studies on resistance response to high aluminum conditions (47)
• 9-7 Plasma membrane lipids and its associated flavonoids controlling differential early stage aluminum tolerances in pedigree cultivers of aluminum-tolerant Sasanishiki : Comparative studies on resistance response to high aluminum conditions (46)
• Decrease of Methane Concentration and Increase of Nitrogen Gas Concentration in the Rhizosphere by Hygrophytes
• DESTRUCTION PROCESS OF PLANT ROOT CELLS BY ALUMINUM
• HIGH TOXICITY OF HYDROXY-ALUMINUM POLYMER IONS TO PLANT ROOTS
• Effect of Phosphorus Application on the Contents of Amino Acids and Reducing Sugars in the Rhizosphere and VA Mycorrhizal Infection of White Clover
• CHARACTERISTICS OF UPWARD TRANSLOCATION OF ALUMINUM IN PLANTS
• EFFECT OF pH ON IONIC SPECIES OF ALUMINUM IN MEDIUM AND ON ALUMINUM TOXICITY UNDER SOLUTION CULTURE
• RELATIONSHIP BETWEEN DIFFERENTIAL ALUMINUM TOLERANCE AND PLANTINDUCED pH CHANGE OF MEDIUM AMONG BARLEY CULTIVARS
• CHARACTERIZATION OF ABSORPTION SITES FOR ALUMINUM IN THE ROOTS
• EFFECT OF NON-METABOLIC CONDITIONS ON THE UPTAKE OF ALUMINUM BY PLANT ROOTS
• Leaf herbivory by Spodoptera litura increases arbuscular mycorrhizal colonization in roots of soybean(Soil biology)
• Leaf herbivory by Spodoptera litura increases arbuscular mycorrhizal colonization in roots of soybean

もっと見る 閉じる

スポンサーリンク