Alleviation of Alkalinity-Induced Fe Deficiency in Eggplant (Solanum melongena L.) by Foliar Application of Different Fe Sources in Recirculating System

This study was carried out to investigate the effects of foliar sprays of different iron (Fe) sources on eggplant grown in alkaline aquaponic solutions. Four treatments were used, untreated control, foliar application of iron sulfate (FeSO₄), ferric ethylenediaminetetraacetic acid (Fe-EDTA) and ferric ethylenediamine bis(2-hydroxyphenyl)acetic acid (Fe-EDDHA). The results showed that overall growth was significantly increased by foliar Fe application, and the highest values of vegetative growth parameters were recorded in plants treated with FeSO₄. The Fe treatment led to a significant increase of shoot Fe concentration, and the highest Fe was observed in plants sprayed with FeSO₄, compared to Fe-EDTA and Fe-EDDHA. The lowest chlorophyll content was observed in untreated plants. The highest SPAD index, maximal quantum yield of photosystem (PS II) photochemistry (F_v/F_m) and performance index (PI) values of young and old leaves were found with FeSO₄ treatment. It is concluded that application of foliar Fe must be performed in the aquaponic system, to overcome Fe deficiencies in alkaline conditions.     

Effects of soil chemistry on the response of potted Sitka spruce to acid mist in open-top chambers

Bare rooted Sitka spruce seedlings were grown in an agricultural loam, acid brown forest and a peaty forest soil in open-top chambers. Visible injury (brown lesions and necrosis) was observed after 3 weeks of treatment with pH 2.5 mist applied 4 times a week in all 3 soil types. The overall N dose, equivalent to 25 kg N ha^?1, stimulated seedling growth in the two acid forest soils but not in the base rich agricultural soil. In this soil the effect of the additional N on the available N pool was much smaller than on the more acid soils. Frost hardiness was reduced on all 3 soils. There was no relationship between hardiness (LT₅₀) and N availability, foliar N or foliar S concentrations. The reduction in frost hardiness and the amount of visible injury was greatest on the most acid soil, where soil pH was significantly reduced by acid treatment. Significant effects of soil chemistry on seedling performance were also observed in the absence of acid treatment. These results suggest that results of acid mist effects studies based on plants grown in compost provide an ‘incomplete’ potentially misleading picture of acid mist effects on trees.     

Comparison of Foliar and Root Application of Potassium Dihydrogen Phosphate in Regulating Cadmium Translocation and Accumulation in Tall Fescue (<Emphasis Type="Italic">Festuca arundinacea</Emphasis>)

The efficiency of phytoremediation is mainly dependent on the capacity of plants in absorption, translocation, and accumulation of Cd. This study was designed to investigate whether Cd translocation and accumulation in tall fescue plants was regulated by foliar application of KH₂PO₄. The results showed that the foliar application of KH₂PO₄ significantly increased Cd concentration and total Cd accumulated in leaves and the capacity of Cd extraction, compared to the root application. The water-soluble organic acid complexes and the pectate- and protein-integrated Cd were the two major Cd chemical forms deposited in leaves. The foliar application increased Cd in the pectate- and protein-integrated forms and decreased the water-soluble forms in leaves. Cd phosphates were not the major chemical forms deposited in leaves in both foliar and root applications. The results indicated that the foliar application of KH₂PO₄ enhanced Cd accumulation in leaves of tall fescue, which might be associated with the leaf deposit of the pectate- and protein-integrated Cd forms.     

Effect of humic acid and fulvic acid based liquid and foliar fertilizers on the yield of wheat crop

Abstract

An organic-mineral liquid fertigation fertilizer containing humic acid, nitrogen (N)–phosphorus (P)–potassium (K), zinc (Zn), sulfur (S), manganese (Mn) and a liquid foliar fertilizer consisting of fulvic acid and gibberellic acids were formulated and applied to wheat. The purpose of this study was to develop an efficient and cost effective liquid and foliar fertilizer and compare their potential with commercially available urea and DAP. The fulvic acid and humic acids were obtained by alkaline extraction of lignite coal. All the treatments were significant over the control. The application of the liquid fertigation fertilizer and liquid foliar fertilizer along with 50?kg of urea per acre showed the best results biological yield (grain plus straw yield). It was found that the highest yield was obtained in T₆ treatment and the second best results were obtained with T₂ treatment, but has a high cost, while treatment T₆ was the most significant economical and yielded a high income when compared to other treatments.     

DIFFERENTIAL TRANSLOCATION OF 59IRON IN IRON SUFFICIENT AND DEFICIENT SORGHUM PLANTS

Radioactively labeled iron (⁵⁹Fe) was used to study differential uptake in sorghum plants in the recovery stage of chlorosis. Radio-labeled ⁵⁹Fe was supplied through root feeding in nutrient solution experiment (48 hrs, pH 6.2) to non-chlorotic and chlorotic plants. Chlorotic plants were further treated with foliar spray [ferrous sulfate (FeSO₄), FeSO₄ + thiourea (TU), FeSO₄ + citric acid (CA), FeSO₄ + thioglycollic acid (TGA)] to study the uptake of radio-labeled ⁵⁹Fe through root feeding during recovery process of chlorosis. Under iron deficiency, the differential uptake of ⁵⁹Fe was markedly increased in leaves and stem of chlorotic control (-Fe) sorghum plants as compared to non-chlorotic control (+Fe) and foliar sprayed (FeSO₄, FeSO₄ + TU, FeSO₄ + CA, and FeSO₄ + TGA) plants. The lowest uptake of ⁵⁹Fe was observed in younger leaves (24.33 nmol, g^?1 fresh weight h^?1) and stem (1.98 nmol, g^?1 fresh weight h^?1) of non-chlorotic control followed by foliar sprayed plants in comparison to chlorotic control, respectively. Similarly less ⁵⁹Fe uptake was observed in the older leaves of FeSO₄ + CA sprayed (21.70 nmol, g^?1 fresh weight h^?1) plants in comparison to chlorotic control (35.60 nmol, g^?1 fresh weight h^?1). The highest differential ⁵⁹Fe uptake through nutrient medium was in the roots of plants, which were foliar sprayed with FeSO₄ along with TU. The role of iron alone and along with citric acid and thiol compounds is discussed in recovery of chlorosis.     

Protoplast culture utilization in studies on legume crops

Abstract

The available literature on whether or not foliar iron (Fe)-containing solutions can be one of the sustainable and low-cost strategies to increase Fe concentration in edible portions of staple food crops consisted of a few previous studies of Fe in plants, and mainly focused on Fe-deficiency remedies. Our experiment was carried out to examine the effects of foliar Fe-containing solutions on Fe enrichment and on the nutritional, cooking, and eating qualities of polished rice of the japonica ‘Bing 98110’ planted on a powdery loam soil under pot conditions. The results showed that Fe concentration in polished rice could be enriched with foliar Fe(II)-amino acids [the main formulation was the complex of 0.1% (w/v) FeSO₄ ^?7H₂O and 0.4% (w/v) compound amino acids, 18.6% N] application. Compared with the control, Fe concentration increased significantly, by 88.0%. Meanwhile, the positive effects on Zn concentration and protein and amino acid content improvement were found with boric acid (H₃BO₃, B) added to Fe(II)-amino acids foliar application. In detail, Zn concentration significantly increased (19.6%), and protein and lysine were increased significantly by 30.1 and 35.1%, respectively. Also the cooking and eating qualities were improved with foliar Fe(II)-amino acids and B compound spray.     

Response of wheat to foliar phosphorus treatments under field and high temperature regimes

Potassium phosphate (KH₂PO₄) is applied commonly in dilute foliar sprays to wheat (Triticum aestivum L.) in China. Yield responses to foliar P sources have also been reported for several crop species in other countries. Experiments were conducted to determine efficacy of four P sources and four rates of KH₂PO₄ as foliar treatments on wheat under field conditions and KH₂PO₄ under two controlled temperature regimes. Grain yields were increased most by KH₂PO₄ followed by β‐glycerophosphate and tripolyphosphate; only phytic acid was ineffective. All rates of 1 to 4 kg ha^‐1 KH₂PO₄ increased grain yields. Foliar KH₂PO₄ applications increased grain weight early under low controlled temperatures, but did not affect final grain weight under either temperature regime. Beneficial effects of foliar P treatments were associated with increased plant P content, which may have increased cell sugar content and protected membranes. Although preliminary results are favorable, additional research is needed to determine optimum methods and conditions for treating wheat with foliar P sources.     

Liming and wet acid deposition effects on tree growth and nutrition: Experimental results

Results from a factorial acid treatment and liming experiment in a stand of Scots pine planted in 1968 to 1970 are presented. Field plots, 75 m² in size, were supplied with 50 mm of artificial rain 38 times from 1974 to 1981. "Rain" of varying acidities was produced using groundwater mixed with H₂SO₄. Lime was applied at four levels in 1974 in a factorial acid treatment-liming design. Tree growth and foliar nutrient concentrations were measured annually from 1974 to 1988. The soil was sampled periodically from 1975 to 1988 at mainly 3 yr intervals. Tree growth was initially stimulated by increased acid loadings. Negative effects occurred after 5 yr. Positive effects of liming developed after 9 yr. No major signs of recovery from the most acid treatments have yet been found. Treatment effects appeared to be linear, indicating no threshold values for growth reactions. Treatment effects on foliar concentrations were found for a majority of elements analyzed. Increased acid loadings decreased the Mg, Ca and Mn concentrations, while K concentrations increased — especially during later years. Liming improved the nutrient status at increased acid loadings for Mg, Ca and Mn and decreased K concentrations. Soil sampling in 1984 showed major losses of Mg, Ca and Mn by increased acid loadings, while the K content was less affected. A link seems to exist between tree growth and the Mg situation in soil and foliage.     

Liming and wet acid deposition effects on tree growth and nutrition:Experimental results

Results from a factorial acid treatment and liming experiment in a stand of Scots pine planted in 1968 to 1970 are presented. Field plots, 75 m² in size, were supplied with 50 mm of artificial rain 38 times from 1974 to 1981. “Rain” of varying acidities was produced using groundwater mixed with H₂SC₄. Lime was applied at four levels in 1974 in a factorial acid treatment-liming-design. Tree growth and foliar nutrient concentrations were measured annually from 1974 to 1988. The soil was sampled periodically from 1975 to 1988 at mainly 3 yr intervals. Tree growth was initially stimulated by increased acid loadings. Negative effects occurred after 5 yr. Positive effects of liming developed after 9 yr. No major signs of recovery from the most acid treatments have yet been found. Treatment effects appeared to be linear, indicating no threshold values for growth reactions. Treatment effects on foliar concentrations were found for a majority of elements analyzed. Increased acid loadings decreased the Mg, Ca and Mn concentrations, while K concentrations increased — especially during later years. Liming improved the nutrient status at increased acid loadings for Mg, Ca and Mn and decreased K concentrations. Soil sampling in 1984 showed major losses of Mg, Ca and Mn by increased acid loadings, while the K content was less affected. A link seems to exist between tree growth and the Mg situation in soil and foliage.     

Effects of 5‐aminolevulinic acid on water uptake,ionic toxicity,and antioxidant capacity of Swiss chard (Beta vulgaris L.) under sodic‐alkaline conditions

Sodic‐alkalinity may be more deleterious to plant growth than salinity. The objectives of this study were to determine whether 5‐aminolevulinic acid (ALA: an essential precursor for chlorophyll biosynthesis) foliar application could improve the sodic‐alkaline resistance of Swiss chard (Beta vulgaris L. subsp. cicla ) by regulating water uptake, ionic homeostasis, photosynthetic capacity, and antioxidant metabolism. Eight‐week‐old uniform plants were grown in nutrient medium without and with a sodic‐alkaline regime generated by a mixture of NaHCO₃ and Na₂CO₃ (NaHCO₃ : Na₂CO₃ = 9:1 molar ratio) for 12 d, and leaves were sprayed daily with water or ALA. The Na⁺ and ALA concentrations were gradually increased to 60 mM and 120 μM, respectively. ALA foliar application alleviated the physiological damage from sodic‐alkalinity, as reflected by the increases in plant dry weight, relative growth rate, chlorophyll, Mg²⁺ concentration, and the decrease in Na⁺ concentration. However, ALA foliar application did not change the water uptake capacity or the concentration of K⁺, Fe³⁺, and endogenous ALA in leaf tissues under sodic‐alkaline conditions. ALA foliar application effectively mitigated damage from sodic‐alkalinity because of the increased activity of antioxidant enzymes (catalase and guaiacol peroxidase), particularly superoxide dismutase activity, which was maintained at the same level as for control plants. These results suggest that ALA foliar application alleviated sodic‐alkaline stress mainly owing to its antioxidant capacity, and superoxide dismutase has the main responsibility for reducing oxidative stress in Swiss chard.     

The effect of ZnSO4 and KNO3 on quantitative and qualitative properties of Punica granatum L.

Abstract

We investigated the effect of foliar application of potassium nitrate (KNO₃) and zinc sulfate (ZnSO₄) on the fruit quality of pomegranate (Punica granatum L. cv. Malas-E–Torsh in Saveh). Potassium was applied as KNO₃ at concentrations of 0%, 0.25%, and 0.5% and zinc was applied as ZnSO₄ at concentrations of 0%, 0.5%, and 1% in a completely randomized block design. To determine the effect of the treatments on fruit quality, we measured fruit weight, peel thickness, aril diameter, phenol content of the juice, pH, total soluble solids (TSS), titratable acidity (TA), and antioxidant capacity. Foliar application of KNO₃ significantly increased fruit weight, 100 aril weight, peel weight, peel thickness, TTS, and antioxidant capacity. In contrast, pH, TA, TSS/TA, and phenol content of the juice were not influenced by foliar application of KNO₃. ZnSO₄ significantly increased fruit weight, aril diameter, and phenol content of the juice. KNO₃ 1% and ZnSO₄ 0.5% were identified as the most appropriate treatments in improving quality and quantity of pomegranate. The fatty acid profile of the pomegranate oil was primarily composed of punicic acid, linoleic acid, oleic acid, palmitic acid, and stearic acid.     

Effects of foliar applied zinc in the form of ZnSO4 and Zn-amino acid complexes on pistachio nut yield and quality

Abstract

Despite the importance of Zn nutrition, little information is available on the effectiveness of foliar Zn application, in general, and Zn-amino acid complexes in particular on pistachio nut yield and quality. Response of pistachio (Pistachio vera L. cv. Akbari) to foliar application of zinc (Zn) in the form of mineral (ZnSO₄) and complexed with methionine (ZnMet), lysine (ZnLys), and lysine plus methionine (ZnLysMet) was investigated. Lysine alone treatment was used to distinguish the effects of accompanying Lys. A control treatment with no amino acids and Zn was also used. The critical deficiency concentration of Zn in the leaf to achieve the highest 100-kernel mass was 37.6?mg kg^?1. Foliar application of Zn significantly increased leaf Zn concentration in comparison with control. In both years, foliar supply of Zn in the form of complexed with amino acids resulted in a significant increase of total nut yield, fresh mass of 100-nut, and spilled nuts. A significant decrease in the empty nuts was also observed by Zn application. The effectiveness of ZnMet in improving yield and quality attributes of pistachio was in general, higher than the other Zn sources.     

Jasmonic acid alleviates negative impacts of cadmium stress by modifying osmolytes and antioxidants in faba bean (Vicia faba L.)

We examined the role of jasmonic acid (JA) in faba bean under cadmium (Cd) stress, which reduces the growth, biomass yield, leaf relative water content (LRWC) and pigment systems. Hydrogen peroxide (H₂O₂) and lipid peroxidation (malondialdehyde [MDA]) levels increased by 2.78 and 2.24-fold, respectively, in plants under Cd stress, resulting in enhanced electrolyte leakage. Following foliar application to Cd-treated plants, JA restored growth, biomass yield, LRWC and pigment systems to appreciable levels and reduced levels of H₂O₂, MDA and electrolyte leakage. Proline and glycine betaine concentrations increased by 5.73 and 2.61-fold, respectively, in faba bean under Cd stress, with even higher concentrations observed following JA application to Cd-stressed plants. Superoxide dismutase, catalase, ascorbate peroxidase and glutathione reductase levels rose by 87.47%, 130.54%, 132.55% and 37.79%, respectively, with Cd toxicity, with further enhancement of antioxidant activities observed following foliar application of JA. Accumulation of Cd in roots, shoots and leaves was also minimized by external supplementation of JA. In conclusion, JA mitigates the negative impacts of Cd stress in faba bean plants by inhibiting the accumulation of Cd, H₂O₂ and MDA, and by enhancing osmolyte and antioxidant activities that reduce oxidative stress.     

Response of two western Canadian conifers to simulated acidic precipitation

Ready-to-plant nursery stock of jack pine (Pinus banksiana Lamb.) and white spruce (Picea glauca (Moench) Voss) were subjected to simulated acid rains of pH 5.6 (control), 4.6, 3.6, and 2.6 under controlled growth room conditions to determine the threshold for damage. The two species exhibited contrasting response patterns to simulated acid rain treatments. Growth and chlorophyll content of jack pine were not adversely affected at any of the levels applied. Furthermore, no macroscopic foliar injury symptoms were evident and foliar nutrient levels remained unaffected. White spruce showed no statistically significant reduction in growth rate at any of the treatments. Needle chlorophyll a content of white spruce was not affected by any of the treatments, while chlorophyll b level was significantly reduced at pH 2.6. Symptoms of visible injury were observed to increase with rain acidity. No statistically significant change in the levels of foliar nutrients of white spruce were found, with the exception of the elevated S concentration at pH 2.6.     

Zinc Nutrition in ‘Nagpur’ Mandarin on Haplustert

ABSTRACT

Zinc (Zn) deficiency is the most prevalent nutritional disorder in citrus orchards world over. The management strategy of Zn deficiency today is still governed by the efficacy of two conventionally used methods of Zn supply to plants via soil or foliar fertilization. A field experiment with 12-yr-old ‘Nagpur’ mandarin (Citrus reticulata Blanco) orchard was, therefore, carried out during 2004–07 comparing soil application versus foliar application of Zn, each at three levels viz., 100, 200, and 300 g tree^?1 with constant doses of N (600 g tree^?1), P (200 g tree^?1), K (300 g tree^?1), and Fe(60 g tree^?1) on Haplustert soil type with reference to response on flowering intensity, fruit set, tree volume, fruit yield, changes in soil fertility/leaf nutrient status, fruit quality, and transformation of native soil Zn fractions. Soil application of Zn at all the three levels, produced significantly higher increase in tree volume over foliar application on equivalent rates viz., T₁ (2.53 m³) vs. T₄ (2.06 m³) and T₂(4.30 m³) vs. T₅ (2.23 m³). The yield-determining parameters like flowering and fruit set intensity (no. m^?1 shoot length) were, respectively, much higher with soil applied (135.74 and 21.90) than foliar applied Zn (31.20 and 11.6). These observations set the favorable conditions required for yield response, e.g., all the three treatments involving soil application of Zn, T₁ (32.1 kg tree^?1), T₂ (52.6 kg tree^?1), and T₃ (51.8 kg tree^?1) were correspondingly superior over T₄ (22.5 kg tree^?1), T₅ (34.3 kg tree^?1), and T₆ (42.1 kg tree^?1) as foliar application treatments. All the three major fruit quality parameters (juice, acidity, and TSS) were likewise more influenced by soil application than foliar application of Zn. Improvements in soil Zn fractions (mg kg^?1) viz., exchangeable Zn (0.25–0.60), complex-Zn (2.71 to 4.86), organically bound Zn (0.86 to 2.0), and Zn-bound to carbonates and acid soluble minerals (2.56–4.96) were observed in response to Zn fertilization with treatments T₁–T_3. On the other hand, foliar applied Zn treatments (T₄–T₆) produced no such changes in any of the soil Zn fractions.     

Leaf Potassium Accumulation in Olive Plants Related to Nutritional K Status,Leaf Age,and Foliar Application of Potassium Salts

Four separate experiments were carried out in greenhouse conditions from spring of 2001 to summer of 2003. The aim of this research was to study the effect of factors such as leaf age, salt type and concentration, number of foliar applications, and the nutritional status on the efficiency of foliar applications of potassium (K) in olive plants. In all experiments, mist-rooted ‘Picual’ olive plants growing in 2 L pots containing perlite were fertigated with a complete nutrient solution containing 0.05 mM or 2.5 mM potassium chloride (KCl). In one experiment, plants received two foliar applications with five concentrations of KCl (0%, 2%, 4%, 6%, or 8%) at 63 and 84 days after transplanting. Foliar KCl applications at 2% or 4% increased shoot lengths and the K content of plants fertigated with 0.05 mM KCl (poor K nourished), while foliar KCl application did not have any influence on the growth or K content of plants fertigated with 2.5 mM KCl (normal K nourished). When the number of foliar applications was increased, the results showed that two foliar applications were enough to increase leaf K concentration in olive plants above the sufficiency level. Leaf age could influence the efficiency of foliar K application. Leaf K concentration were higher in young leaves than in mature ones. All K-salts studied as foliar sprays [KCl, potassium sulfate (K₂SO₄), potassium nitrate (KNO₃), potassium carbonate (K₂CO₃), and potassium phosphate (KH₂PO₄)] were effective in increasing leaf K concentration. The results obtained in the present study indicate that foliar applications of K effectively increase K content in K-deficient olive plants, and that foliar applications might be more effective on young leaves. Two foliar applications of 4% KCl or the equivalent for other salts are enough to increase leaf K concentration.     

Morphophysiological and Grain Yield Responses to Foliar and Soil Application of Boric Acid on Soybean

ABSTRACT

Boric acid (H₃BO₃) fertilization as source of boron (B) is a common practice in modern agriculture, aims to correct the deficiency of this micronutrient in the Cerrado soils, and ensure the maintenance of plant metabolism for the proper crops’ development. Therefore, the aim of this work was to evaluate the effects of H₃BO₃ fertilization on soil and leaves during the soybean development. The experimental design was completely randomized with six replicates. The treatments were obtained in a 3 × 2 factorial scheme, fertilization with H₃BO₃ for three doses of B in the soil: 0 (control); 0.62 and 3.4 kg ha^?1 and two foliar supplementation conditions: absence and presence. The best results for the variables length, dry mass and leaf area of soybean plants occurred with B applied to soil at doses 0 and 3.4 kg ha^?1 in the absence of foliar supplementation. B content in the plants gradually increased with the micronutrient supply via soil and in leaves. Physiological apparatus of the plants was more efficient in the absence of foliar supplementation, independently of the fertilization with doses in the soil. The grain mass was up to 57% higher in the control treatment. Fertilization with H₃BO₃ in the soil and foliar did not improve the morphophysiological traits and the production of soybeans grown in greenhouse using clayey soil with initial B content of 0.30 mg dm^?3.     

黄腐酸对蒜套棉制度下棉花产量品质及土壤性状的影响

为明确黄腐酸在蒜套棉生产中棉花上的应用效果,实现棉花高产优质高效施肥,进行两季大田试验,试验设不施肥(CK)、常规施肥(BF)、常规施肥配施低、中、高量黄腐酸微生物菌剂(FA20、FA30、FA40)、常规施肥配施黄腐酸叶面肥(BFL50)、常规施肥配施低量黄腐酸微生物菌剂及黄腐酸叶面肥(FA20L50)共7个处理,研究不同黄腐酸肥料与常规肥料配施对蒜套棉制度下棉花产量、纤维品质及土壤养分的影响。结果表明:(1)与常规施肥相比,皮棉产量随着黄腐酸微生物菌剂用量的增加而增大,FA30、FA40皮棉产量较BF显著增产12.07%和22.41%,在苗期和盛花期显著提高土壤硝态氮、铵态氮和速效钾含量,FA40还提高了土壤有效磷含量。(2)常规施肥配施黄腐酸叶面肥处理皮棉产量较常规施肥处理平均增产7.19%,在盛花期叶片SPAD提高7.78%,并显著提高了气孔导度和净光合速率,降低胞间CO2浓度。(3)FA20L50较FA20和BFL50皮棉产量提高7.68%~27.51%,同时提高了纤维长度、整齐度指数和断裂比强度,并提高了土壤硝态氮、铵态氮、有效磷和速效钾含量,土壤磷酸酶活性显著高于其他各处理。FA20L50处理的棉花茎和叶中氮、磷和钾总量与FA40差异不显著,但显著高于其他各处理;在铃壳中的养分总量较其他各处理提高8.96%~47.35%,净光合速率显著高于未施用黄腐酸叶面肥的处理。综上所述,常规肥料配施300kg/hm^2黄腐酸微生物菌剂与750mL/hm^2黄腐酸叶面肥处理田间施用效果最佳,能够提高棉花各生育期土壤速效养分供应,有利于养分在生殖器官中的积累,促进棉花叶片的净光合速率,提高棉花产量及品质。     

Impacts of Combination of Foliar Iron and Boron Application on Iron Biofortification and Nutritional Quality of Rice Grain

To increase iron (Fe) concentration in edible portions of staple food crops, an agronomic approach via foliar Fe-containing solutions might be sustainable and economical strategy; however, little information is available in the literature. So the present work was carried out to examine the effects of Fe in association with boron (B) foliar fertilization on Fe biofortification and the nutritional quality of rice (Oryza sativa L.) grain. The work was conducted in 2006 at the research experiment station at Zhejiang University on japonica rice ‘Bing 98110’ planted on a silty loam soil in pots. The following spray treatments were performed at rice anthesis: (1) control (the deionized water spray); (2) 0.1% (w/v) FeSO₄ · 7H₂O; (3) 0.1% (w/v) Fe(II)-AA (Complex of 0.1% FeSO₄ · 7H₂O and 0.4% compound amino acids; 18.6% N); (4) 0.2% (w/v) H₃BO₃ (boric acid, 17.5% B); (5) combined spray of 0.1% (w/v) FeSO₄ · 7H₂O and 0.2% (w/v) H₃BO₃; (6) combined spray of 0.1% (w/v) Fe(II)-AA and 0.2% (w/v) H₃BO₃. Foliar Fe and B complex application did biofortify Fe concentration and other measured nutritive values in polished rice. Compared to the control, Fe concentration in seed increased significantly 18.9% with the combination of foliar Fe(II)-AA and B, Zn content increased significantly 26.7%, and protein and total 16 amino acids, such as lysine, threonine, and arginine that were essential for human nutrition as well as glutamic acid, aspartic acid, valine, leucine, and phenylalanine, etc., also increased markedly by 30.9% and by 37.0%, respectively.     

Foliar Applied Phosphorous Enhanced Growth,Chlorophyll Contents,Gas Exchange Attributes and PUE in Wheat (Triticum aestivum L.)

A pot experiment was conducted to evaluate the foliar applied phosphorous with and without pre-plant dose (50 kg hac.^?1) of phosphorous on growth, chlorophyll contents, gas exchange parameters and phosphorous use efficiency (PUE) of wheat. The experiment was conducted in net house at Department of Crop Physiology, University of Agriculture Faisalabad, Pakistan. Two promising wheat cultivar AARI 2011 and FSD 2008 were used as a test crop with 5 foliar phosphorus (P) rates (0, 2, 4, 6, 8 kg ha^?1). The foliar applied P with pre-plant performed better than without pre-plant and control treatments. Foliar treatment of phosphorus at 6 kg ha^?1 P proved to be the best among other foliar treatments followed by 8 kg ha^?1 P. The foliar application of phosphorous at 6 kg hac.^?1 with pre-plant soil applied P increased the shoot length, root length, shoot fresh weight, root fresh weight, shoot dry weight and root dry weight. The chlorophyll contents (Chl. a and b) were increased with the foliar application of phosphorous. The gas exchange parameters (net carbon dioxide (CO₂) assimilation rate, transpiration rate, stomatal conductance and sub-stomatal CO₂ rate) were significantly improved by foliar applied P. The maximum values of net CO₂ assimilation rate (5.27 μ mol m^?2 sec.^?1), transpiration rate (3.44 μ mol m^?2 sec.^?1), stomatal conductance (0.81 μ mol m^?2 sec.^?1) and sub-stomatal CO₂ (271.67 μ mol m^?2 sec.^?1), were recorded in the treatment where P was foliar applied at 6 kg hac.^?1 with pre-plant soil applied Phosphorous. The foliar application of phosphorous with pre-plant soil applied P enhanced Phosphorous use efficiency (PUE) in both varieties. The maximum value of PUE (15.42%) was recorded in the treatment where foliar feeding of P was done at 6 kg hac.^?1 with pre-plant soil applied P in both genotypes.