Effect of low phosphorus and iron-deficient conditions on phytosiderophore release and mineral nutrition in barley(Plant Nutrition)
スポンサーリンク
概要
- 論文の詳細を見る
To investigate the effect of low phosphorus (P) conditions on phytosiderophore (PS) release and mineral nutrient status in graminaceous plants, an experiment was conducted in a phytotron with barley plants grown in iron-deficient (Fe0) nutrient solutions with four P levels (0.5, 5, 50, 500 [control] μmol L^<-1>) at pH 6.5 for 21 days after treatment (DAT). The results showed that the growth and chlorophyll index of plants cultured under low P conditions (0.5, 5 and 50 μmol L^<-1>) were higher than those of the control plants. The accumulation amount (mg or μg/plant) of mineral nutrients in shoots was higher for potassium, iron and copper in plants in the low P treatment than in the control plants. The accumulation of PS in roots and the amount of PS released from the roots at 14 DAT were lower in plants in the Fe0 and low P treatments. These results indicated that low P depressed PS release from roots and PS accumulation in roots in Fe0 barley. This might result from the higher Fe content in shoots and the alleviation of Fe chlorosis with low P treatment of plants. These results showed that low P treatment enhanced the growth, chlorophyll index and Fe mobilization to shoots in Fe0 barley. Low P conditions alleviated Fe-deficiency symptoms, suggesting that P is physiologically competing with Fe in plant tissues.
- 社団法人日本土壌肥料学会の論文
著者
-
Alam Shah
Faculty Of Agriculture Iwate University
-
Alam Shah
岩手大農
-
Kamei Shigeru
岩大農
-
Ladouceur Antoine
Iwate Univ. Morioka Jpn
-
Ladouceur Antoine
The United Graduate School Of Agricultural Sciences
-
Kamei S
Faculty Of Agriculture Iwate University
-
Kawai Shigenao
Faculty Of Agriculture Iwate University
-
Kamei Shigeru
Iwate Univ. Morioka Jpn
-
Kamei Shigeru
Faculty Of Agriculture Iwate University
-
TOZAWA Seitoku
Faculty of Agriculture, Iwate University
-
Tozawa Seitoku
Faculty Of Agriculture Iwate University
-
Alam S
岩大農
関連論文
- Effect of supplied phytosiderophore on ^Fe absorption and translocation in Fe-deficient barley grown hydroponically in low phosphorus media(Plant Nutrition)
- 20-13 Effect of application of peridotite and super phosphate on the growth of sorghum grown on acidic soil
- 9-35 Absorption and Translocation of Fe in Barley Plant Grown hydroponically under Fe-deficient and low Phosphorus conditions : Including the Effect of Phytosiderophore
- 9-22 Physiological and mineralogical properties of Arsenic-induced-Fe-deficient barley plant
- Concentrations of Iron and Phytosiderophores in Xylem Sap of Iron-Deficient Barley Plants
- Effect of low phosphorus and iron-deficient conditions on phytosiderophore release and mineral nutrition in barley(Plant Nutrition)
- Effects of Excess Manganese and Metal Chelators on Micronutrient Concentrations in the Xylem Sap of Iron-Deficient Barley Plants
- Rapid Incorporation of ^C of Glucose into Phytosiderophores in Iron-Deficient Barley Roots
- Diurnal Variations in Absorption and Translocation of a Ferrated Phytosiderophore in Barley as Affected by Iron Deficiency(Plant Nutrition)
- 9-27 Mechanism of potassium alleviation of manganese phytotoxicity in barley
- Mechanism of Potassium Alleviation of Manganese Phytotoxicity in Barley Evaluated by Short-Term Absorption of Manganese-54 and Iron-59
- Mechanism of Potassium Alleviation of Manganese Phytotoxicity in Barley Evaluated by Short-Term Absorption of Manganese-54 and Iron-59 (Plant Nutrition)
- Alleviation of Manganese Toxicity and Manganese-Induced Iron Deficiency in Barley by Additional Potassium Supply in Nutrient Solution
- Effect of Iron Deficiency on the Chemical Composition of the Xylem Sap of Barley
- Metal Micronutrients in Xylem Sap, of Iron-Deficient Barley as Affected by Plant-Borne, Microbial, and Synthetic Metal Chelators
- 9-49 Amelioration of Manganese Toxicity in Barley with Iron
- 9-9 Effect of Excess Manganese on the Induction of Iron Deficiency in Barley
- 9-42 オオムギのマンガン過剰誘導鉄欠乏症に対するカリウムの軽減効果 : ムギネ酸分泌とマンガン吸収量(9.植物の無機栄養)
- 9-3 ムギネ酸分泌と微量必須元素(3) :オオムギ道管液中のマンガン、鉄、ムギネ酸(9.植物の無機栄養)
- 9-13 オオムギ道管中を移行する鉄、ムギネ酸、クエン酸(9.植物の無機栄養)
- Arsenic-iron interaction : Effect of additional iron on arsenic-induced chlorosis in barley grown in water culture(Plant Nutrition)
- Effect of arsenic on phytosiderophores and mineral nutrition of barley seedlings grown in iron-depleted medium(Plant Nutrition)
- 14 Effect of Arsenic on the Growth of Sorghum Seedlings Grown Hydroponically
- Physiological and mineralogical properties of arsenic-induced chlorosis in rice seedlings grown hydroponically(Plant Nutrition)
- EFFECT OF HyA-INTERLAYERING ON NH_4/Ca SELECTIVITY OF EXPANDABLE LAYER SILICATES
- 22-2 Use of Sequential Extraction to Assess Distribution of Heavy Meatals in Some Cd-Contaminated and Noncontaminated Soils in Japan
- Cadmium uptake in barley affected by iron concentration of the medium: Role of phytosiderophores(Plant Nutrition)
- 6-1 Mineral Absorption of High Magnesium Containing Cultivars of Italian Ryegrass and Tall Feseue.
- 16 Cadmium tolerance and uptake by accumulator Arabidopsis halleri ssp. gemmifera grown in nutrient solution
- P9-18 Abrabidopsis halleri gemmifera as a potential candidate for hyper-accumulator of cadmium and zinc
- 9-26 Effect of phytosiderophore on iron absorption and translocation in arsenic-stressed graminaceous plants : Experiment with hydroponical plants fed with iron-59
- 9-14 Inorganic and Organic Solutes of Xylem Fluid of Arsenic Stressed Barley seedlings Grown Hydroponically
- Detection of the Regions of Phytosiderophore Release from Barley Roots