ICP-AES法测定水溶肥料中硼含量的不确定度分析     

范洪黎  韩岩松  刘密  王旭 《植物营养与肥料学报》2009,15(5):1240-1244

对ICP-AES测定水溶肥料中硼的分析方法的测量不确定度进行了分析;建立了测定过程中各分量的数学模型,并识别了测量过程中不确定度来源;估算了各不确定度分量对总不确定度的影响,确定了测量结果的置信区间;给出了水溶肥料中硼的含量及其不确定度:w (B)=（0.553±0.042）%（k=2）。  相似文献   

Boron Nutrition,Intracellular Transport,and Knife-Cut Disease in Sunflower     

《Communications in Soil Science and Plant Analysis》2012,43(6):665-678

The present study was conducted to investigate in sunflower the processes of boron (B) uptake, intracellular compartmentation, and xylem translocation in response to B supply, ranging from deficiency to incipient toxicity, and to short-term changes in B supply. The experiments were conducted with two sunflower genotypes, selected on the basis of their susceptibility to knife-cut disease. It appears that the roots of the susceptible genotype of sunflower were more sensitive to low B contents in the solution media than the shoots. The decrease in root dry weight in high-B treatments could also indicate it was more sensitive to B toxicity. Though root dry weight decreased, the shoot/root dry-weight ratio was smaller in the resistant genotype, suggesting that this genotype would have a substantially larger root volume, capable of supporting the B demand of its shoots. The B contents in the water-insoluble residue (WIR) of roots were similar for all genotypes and treatments. In contrast, the B concentration in WIR of leaves reached values near saturation only when B started to accumulate in the cell sap (CS) of roots to the level as detected in CS of leaves. The critical values of B concentrations in shoot tissues would then be established after the B requirement for cell walls was satisfied and a proper metabolic B content in CS of roots was reached. Uptake efficiency (UE) values less than 1.00, detected as a result of treatments with high concentrations of B in the nutrient solution, suggested the presence of an exclusion mechanism that restricted B accumulation. The high UE value obtained with low-B treatments indicated that mechanisms other than mass flow had played a role in providing the acquired B.  相似文献   

Comparative Boron Nutritional Diagnosis for Olive Based on July and January Leaf Samplings     

《Communications in Soil Science and Plant Analysis》2012,43(6):709-720

In this work, diagnosis of boron (B) nutritional status based on leaf B concentrations was compared for the most common leaf-sampling times for olive trees, January and July. For this purpose, field experiments were conducted over 4 years (2003–2006) in two rainfed olive groves located in Mirandela and Bragança, northeastern Portugal. Leaf samples were collected in January and July and analyzed for B by standard procedures. Fruit harvest occurred in December of each year. The crops followed typical alternate fruiting cycles. During the 4 years of the study, mean olive yields in the Bragança orchard fluctuated, yielding 3.6, 28.1, 5.5, and 22.7 kg tree^?1. Yield variation per individual tree was also great. In the Bragança orchard and in the 2004 harvest, yields ranged from 1.2 to 52.7 kg tree^?1. Leaf B concentrations also varied greatly between individual trees. In the Bragança orchard in the July sampling of 2004, values for individual trees varied from 12.2 and 23.7 mg B kg^?1. From a total of 16 scatterplots generated from the relationship between leaf B concentrations and olive yields, 10 significant linear relationships were established; six of them were related to July sampling dates and four were related to January dates. The number of significant linear relationships established between leaf B concentration and olive yield was used as a criterion of the accuracy of the B nutritional diagnosis, because this represented the lowest experimental variability. By using this criterion, the July sampling date proved as better for B nutritional diagnosis, although the difference from January sampling date was not sufficient to disregard this. Leaf B concentrations were consistently greater in July than in January. Averaged across the 4 years of the study in both orchards, the difference was 4.3 mg B kg^?1. This difference should be taken into account in the interpretation of leaf analysis results when B levels are close to the deficient critical concentration.  相似文献   

Comparative Evaluation of Inductively Coupled Plasma–Atomic Emission Spectroscopy and Colorimetric Methods for Determining Hot-Water-Extractable Boron in Soils     

《Communications in Soil Science and Plant Analysis》2012,43(6):948-957

Frequency of boron (B) deficiency is increasing in rainfed systems, and hence there is a need to diagnose the deficiency. Colorimetric methods are still widely used in soil-testing laboratories in India for measuring B. Little information is available on the comparative evaluation of the colorimetric and inductively coupled plasma (ICP) methods for determining extractable B in soils. We describe results of the comparative evaluation of these methods for measuring extractable B in 57 soil samples with pH values ranging from 5.3 to 9.5. There was a significant correlation between B values determined by the two methods, and the correlation coefficient was greater for soil samples with pH in the neutral to alkaline range. Interaction between soil samples and methods (ICP or colorimetric) was significant except for soil samples in the pH range of 8.0 to 9.5. Precision for B determination was greater with the ICP than with the colorimetric method.  相似文献   

Alfalfa Responses to Combined Use of Lime and Limiting Nutrients on an Acidic Soil     

《Communications in Soil Science and Plant Analysis》2012,43(19):2247-2263

An on-farm field experiment was conducted on an acidic soil to investigate the effects of combined use of lime and deficient nutrients on herbage yield of alfalfa (Medicago sativa L.). Omitting lime and limiting nutrients led to elevated concentrations of aluminium (Al), iron (Fe), and manganese (Mn) in alfalfa leaves and stems and caused severe reductions in herbage yield of alfalfa. Combined use of lime (2 t ha^?1) and nutrients [phosphorus (P): 20 kg ha^?1, sulfur (S): 20 kg ha^?1, zinc (Zn): 4 kg ha^?1, and boron (B): 2 kg ha^?1] had the maximum increase in groundcover, root biomass, nodulation, leaf retention, leaf-to-stem ratio, herbage yield, crude protein, and nutrient composition of alfalfa. These beneficial effects were due to raised soil pH; improved calcium (Ca), P, S, Zn, and B nutrition; and reduced Al, Mn, and Fe toxicity. Aluminium and all the nutrients except copper (Cu) were more concentrated in alfalfa leaves than stems.

Aluminum concentration was about three times greater in the lower leaves than in upper leaves. Lower leaves also had much greater concentrations of Ca, Mg, K, S, Fe, Mn, Cu, and B compared with upper leaves. In contrast, P and Zn concentrations were greater in the upper leaves than in lower leaves. Results suggest that the combined use of lime and all the limiting nutrients may realize potential beneficial effects of alfalfa on acidic soils where more than one essential nutrient is deficient. This may increase growth potential, nitrogen contributions, and groundcover by alfalfa and reduce soil erosion and runoff.  相似文献   

Effect of Soil Properties on Boron Adsorption and Release in Arid and Semi-Arid Benchmark Soils     

《Communications in Soil Science and Plant Analysis》2012,43(21):2532-2544

The adsorption isotherms indicated that the adsorption of boron (B) increased with its increasing concentration in the equilibrium solution. The Langmuir adsorption isotherm was curvilinear and it was significant when the curves were resolved into two linear parts. The maximum value of adsorption maxima (b1) was observed to be 7.968 mg B kg^?1 in Garhi baghi soil and the bonding energy (k) constant was maximum at 0.509 L mg^?1 in Jodhpur ramana soil. The Langmuir isotherm best explains the adsorption phenomenon at low concentrations of the adsorbent, which of course was different for different soils. There was significant correlation between b1 and clay (r = 0.905**), organic matter contents (r = 0.734*), and cation exchange capacity (CEC; r = 0.995**) of soils. A linear relationship was observed in all the soils at all concentration ranges between 0 and 100 mg B L^?1, indicating that boron adsorption data conform to the Freundlich equation. Soils that have a higher affinity for boron adsorption, like Garhi baghi, tended to desorb less amount of boron, that is, 43.54%, whereas Ballowal saunkhari desorbed 48.00%, Jodhpur ramana 48.42%, and Naura soil 58.88% of the adsorbed boron. Boron desorption by these soils is positively and significantly correlated with the sand content (r = 0.714**) and negatively with clay content (r = ?0.502*) and CEC (r = ?0.623**). The maximum value of 37.59 mg kg^?1 for desorption maxima (Dm) was observed in Garhi baghi soil and also a constant related to B mobility (Kd) was found to be maximum in Garhi baghi (0.222 L kg^?1) soil Note: *P<0.05; ^**P<0.01.  相似文献   

Micronutrient topdressing of alfalfa (medicago sativa L.) on a udollic albaqualf     

《Communications in Soil Science and Plant Analysis》2012,43(3):211-221

Abstract

An established stand of alfalfa (Medicago sativa L.) was topdressed with two rates each of borax, zinc sulfate, and copper sulfate at two levels of applied P and K. Yields and plant composition were determined at five harvests over two seasons. Treatments were not effective in increasing yields but topdressing with B and Zn increased the concentration of these elements in the plant tissue. The Cu concentration in alfalfa tissue was not affected by topdressing with copper sulfate. Phosphorus application rates of about four times removal rates were needed to maintain the Bray 2 soil test level of the soil.  相似文献   

Sodium hypobromite digestion for boron analysis of plant and soil materials     

《Communications in Soil Science and Plant Analysis》2012,43(11):1421-1434

Abstract

A sodium hypobromite digestion procedure was developed for total boron content of plant tissue. The method completely released total plant boron and took much less time than a dry ash method. The sodium hypobromite digestion was compatible with a modified curcumin colorimetric method. The sodium hypobromite digestion eliminated interference by nitrate, fluoride and iron, which were previously shown to be potential problems with the colorimetric method. Aluminium eliminated the interference of fluoride on boron analyses by the modified curcumin method without the sodium hypobrornite digestion step.

The sodium hypobromite digestion procedure was applied to a number of different soils after the volume of sodium hypobromite to soil sample weight ratio was optimized to release a constant amount of boron. The boron measured did not appear to be total boron in every soil. However, two other methods (sodium carbonate fusion and hydrofluoric acid treatment) recommended for total boron were not entirely successful either for the same soils. Correlations of soil boron values with selected soil chemical and physical measurements suggested that the hydrofluoric acid method was more successful in measuring boron associated with soil organic matter while the sodium hypobromite and sodium carbonate methods were more successful in measuring boron associated with the mineral portion, especially the silt fraction. The sodium hypobromite digestion appeared to be less efficient than sodium carbonate fusion in determining “total”; boron with increasing pH of the soil. The sodium hypobromite digestion boron values of soils may be useful as a boron fraction measurement but should not be considered as total boron.  相似文献   

The determination of hot‐water‐soluble boron in some acid Oregon soils using a modified azomethine‐H procedure     

《Communications in Soil Science and Plant Analysis》2012,43(12):1311-1322

Abstract

A method is proposed for determination of hot‐water‐soluble boron in acid soils from western Oregon. The soil sample is boiled in 0.02 M CaCl₂, filtered, and B determined using azomethine‐H. Soils extracted in this way yielded extracts with little color in them and the predicted error due to this color was 0.00–0.07 ppm B. The use of charcoal as a decolorizing agent resulted in comparatively high predicted errors.

Inductively‐coupled plasma emission spectroscopic (ICP) analysis of distilled water and 0.02 M CaCl₂ extracts indicated that the extractable B level was not affected by the presence of CaCl₂. Azomethine‐H yielded comparable values to ICP but the curcumin method tended to give high values for hot‐water‐soluble B.  相似文献   

不同水平硼与小麦体内氮积累的关系     

严红  李文雄  赵久明  孙滨  谭志娟  李广忠  王兴琴 《东北农业大学学报》2001,32(2):117-122

用溶液培养方法研究不同水平硼与小麦体内氮的积累关系。结果表明 ,在小麦生长发育过程中 ,无硼影响氮的积累 ,尤以分蘖期氮的积累最少 ,仅有 1.2 3 2× 10 -2 g/株 ,其它施硼处理为1.4 69～ 1.4 73× 10 -2 g/株。硼不足只在繁殖生长阶段影响氮的积累。  相似文献