不同磷水平对水稻土供锌能力的影响

通过室内培养的方式研究了不同磷浓度对土壤供锌容量-强度(Q/I)关系的影响,并应用能量的观点探讨不同磷浓度对土壤中锌的交换过程的影响。结果表明:在不供磷条件下,盘锦盐渍型水稻土的供锌能力最强,沈阳盐渍型水稻土次之,而抚顺潜育型水稻土最差;不同磷水平对锌浓度的改变值(△Zn)、活度比(AR)和交换自由能(△G)均没有显著影响,而这些指标的显著变化是由于不同锌水平的差异引起的。     

Diffusion of Zinc as Influenced by Physical and Chemical Properties of Soils

The self diffusion coefficients of zinc (D_aZn), determined by half cell technique, were found to be greatly influenced by variations in soil characteristics such as volumetric moisture content, bulk density, temperature, carrier zinc concentration and soil pH. The D_aZn values showed exponential decrease with increase in soil pH but with increasing volumetric moisture content, D_aZn values showed logarithmic increase. The highest D_aZn value was obtained at a compaction of 1.50 g/cm³. Increase in temperature from 5°C to 30°C showed 4 to 20 times increase in D_aZn values. An attempt was made to study the relationship between soil characteristics and D_aZn values for 87 illitic soils differing in physical and chemical properties. The simple and multiple correlation coefficients did not account for more than 21 per cent of variations indicating that D_aZn values cannot be predicted accurately from soil properties.     

Zinc Desorption of Calcareous Soils as Influenced by Applied Zinc and Phosphorus and Described by Eight Kinetic Models

The activity of zinc (Zn) ions in the soil solution bathing plant roots is controlled by the simultaneous equilibrium of several competing reactions, such as surface exchange, specific bonding, lattice penetration, precipitation reactions, and the processes leading to the desorption of surface and lattice-bound ions. Desorption of Zn in 15 calcareous soils from southern Iran, treated with 10 mg Zn kg^?1 soil as zinc sulfate (ZnSO₄·7H₂O) and 100 mg phosphorus (P) kg^?1 soil as calcium phosphate [Ca(H₂PO₄)₂H₂O] and then equilibrated and extracted with diethylentriaminepentaacetic acid (DTPA), was studied in this experiment. The results were fitted to zero-order, first-order, second-order, third-order, parabolic diffusion, two-constant rate, Elovich, and simple Elovich kinetic models. Two-constant rate, simple Elovich, and parabolic diffusion models were determined to best describe Zn-desorption kinetics. Zinc desorption increased as Zn was applied but decreased with applied P.     

Zinc Concentration in Rice (Oryza sativa L.) Grains and Allocation in Plants as Affected by Different Zinc Fertilization Strategies

Concern over the food chain transfer of zinc (Zn) is increasing because of its importance in human health. A field experiment was conducted on a low Zn soil to determine the effect of different Zn fertilization strategies on grain Zn concentration and Zn allocation in different plant tissues of rice. Six treatments were used: (1) no Zn fertilization; (2) soil fertilization at transplanting; (3) Zn soil fertilization at transplanting and flowering; (4) foliar application during grain filling; (5) foliar applications during tillering, flowering, and grain filling; and (6) combination of treatments 3 and 5. Zn fertilization significantly increased Zn concentration in brown rice. The largest effect on grain Zn was observed by combination of soil and foliar applications. The increase in brown rice was much smaller (20%) than the increase in the vegetative parts (100%), indicating that grain Zn concentration of rice is not strongly increased by Zn fertilization. More increased Zn by Zn fertilization was allocated into straw not into grain. From the perspective of human nutrition, it seems that there is too little scope to enhance Zn concentration in rice by fertilization alone. the major bottleneck to increase Zn concentration in rice grain seems to be internal translocation/retranslocation of Zn from shoot to panicle or from rachis to grain, rather than root uptake of Zn from the soil.     

Crop Productivity,Grain Quality,Water Use Efficiency,and Soil Enzyme Activity as Influenced by Silicon and Phosphorus Application in Aerobic Rice (Oryza sativa)

ABSTRACT

The experiments were conducted to evaluate the effects of silicon (Si) and phosphorus (P) application on crop productivity, grain quality, water-use efficiency (WUE), and soil enzyme activity in aerobic rice (AR) at Indian Agricultural Research Institute, New Delhi, India. Four levels each of Si (0, 40, 80, and 120 kg Si ha^–1) and P (0, 30, 60, and 90 kg P₂O₅ ha^–1) were tested in a factorial randomized block design (FRBD) replicated thrice. The growth, yield and quality of AR were enhanced with increasing Si and P application rates and a similar trend was observed for WUE and soil enzyme activity. The highest grain yield of AR was recorded with 120 kg Si and 90 kg P₂O₅ ha^–1 followed by 80 kg Si and 60 kg P₂O₅ ha^–1 and the lowest in control. The grain, straw yield and water productivity increased by 10–40%, 5–30%, and 10.2–39%, respectively in different treatments over control. Though, all studied parameters showed increment with increasing dose of Si and P; however 60 kg P₂O₅ and 80 kg Si ha^–1 were statistically superior to their other respective doses. In conclusion, supplementation of Si and P fertilizers substantially increased the AR productivity in Trans-Gangetic plains of India (Figure 1).     

Fractionation of Zinc in Paddy Soils of China

The rice fields in China amount to 25.4 million hectares of which low yield paddy soils areabout 26％(Xu,1981;Xiao,1981).One of the most important causes of low yield is the defi-ciency in nutrients including zinc.Zinc deficiency usually occurs in calcareous paddy soils withpH>6.5(Zhu and Liu,1981).And the availability of zinc in calcareous paddy soils is lowerthan that in neutral and acid paddy soils.     

黑土有效硫含量状况及其评价

对三个典型黑土区采样分析了土壤有效硫的含量情况,并对有效硫分级进行了讨论。结果表明:黑土耕层(0～20cm)土壤有效硫含量平均值为27.7mgkg-1,变幅为7.09～109.14mgkg-1;20～40cm土壤中有效硫含量平均为18.17mgkg-1,变幅为0.43～68.9mg kg-1。黑土有效硫含量耕层最高,随土层深度的增加土壤有效硫含量迅速下降。黑土耕层有效硫含量随开垦年限增长呈下降趋势。黑土有效硫含量随着溶液电导率增加而增加。按缺硫标准进行评价,北安地区耕层土壤有效硫含量小于16.0mg kg-1的农田面积约占9.5%,公主岭地区占16.1%,海伦地区占26.7%。     

Change of Zinc Forms in Rhizosphere and Nonrhizosphere Soils of Maize (Zea mays L.) Plants as Influenced by Soil Drought Condition

A rhizobox experiment was conducted to study the changes of various zinc (Zn) forms in rhizosphere and nonrhizosphere soils of maize (Zea mays L.) plants grown under well-watered and drought conditions. The tested soil was earth-cumulic orthic anthrosol sampled from the Shaanxi Province of China. The experiment was set at two levels of Zn, 0 and 5.0 mg Zn kg^?1 soil, and at two treatments of soil water content, 45%–50% (drought) and 70%–75% (well watered) of soil water-holding capacity. A completely randomized factorial design (2 Zn treatments × 2 water levels × 3 replicates) was set up. Adequate soil water supply enhanced growth and Zn accumulation of maize plants. Applying Zn increased plant biomass and Zn content more notably under well-watered conditions rather than drought conditions. Soil Zn was defined as water-soluble plus exchangeable (WSEXC) Zn, carbonate-bound Zn (CA), iron–manganese oxide–bound Zn (FeMnOX), organic matter–bound Zn (OM), and residual Zn (RES) forms using the sequential extraction procedure. Most of Zn was predominantly in the RES fraction. Zinc application increased the contents of WSEXC Zn, CA Zn, and FeMnOX Zn in soil. When Zn was added to the soil, the concentrations of CA Zn within 0–2 mm and 0–4 mm apart from the central root compartment (CC) were greater than other zones under the conditions of adequate and limited soil water supplies, respectively. Zinc application also resulted in an accumulation of FeMnOX fractions at a distance of 2 mm from CC. The FeMnOX Zn content in this compartment increased with soil drought. Under well-watered conditions, dry-matter weight and Zn concentration of shoots presented better correlations with CA Zn and FeMnOX Zn fractions in and near the rhizosphere as compared with drought conditions. It is suggested that in an earth-cumulic orthic anthrosol, soil moisture conditions affect the transformation of the added Zn into the CA and FeMnOX fractions near the rhizosphere and their bioavailability to maize plants.     

土壤、水稻籽粒镉含量相关性分析及水稻产地土壤镉临界值的研究

在全国采集8个水稻产区、不同镉(Cd)含量的水稻土,添加0~4 mg/kg外源Cd,通过盆栽试验,分析水稻土、水稻籽粒Cd含量间的相关性,基于水稻籽粒Cd含量符合食品安全国家标准污染物限值(GB 2762–2012)的前提,确定8个水稻产地土壤的Cd临界值。结果表明:水稻土中Cd含量为0.20~6.27 mg/kg时,随土壤Cd浓度增加,水稻生长没有出现Cd毒害症状。籽粒Cd含量随水稻土Cd浓度的增加而增加,Logistic方程拟合表明籽粒Cd含量和水稻土Cd浓度间相关性显著;依据食品安全国家标准中稻米Cd限量值(0.2 mg/kg),反推得到8种水稻土Cd临界值范围为0.70~4.79 mg/kg,与现行土壤环境质量标准(GB15618–1995)相比,均高于其相应限值(0.3 mg/kg、pH≤7.5,0.6 mg/kg、pH7.5);对土壤理化性质和水稻土Cd临界值间关系进行多元回归分析,发现水稻土Cd临界值与pH和土壤黏粒显著相关(R2=0.83,P0.01)。     

Kinetics of Ligand-Controlled Release of Zinc in Acid Sulfate Paddy Soils

The elevated solubility of zinc(Zn) in acid sulfate paddy soils can limit rice production and pose a risk of environmental pollution.However, little attention has been paid to the ligand-controlled release of Zn in these soils. Here we quantified the rate of ligandcontrolled Zn release in Thai acid sulfate paddy soils, using ethylenediaminetetraacetic acid as the extractant. Sequential extractions were performed to obtain quantitative information on Zn fractions contributing to the ligand-controlled mechanisms. The amount of Zn released within 192 h varied significantly(8–43 mg kg~(-1)), which corresponded to 12%–40% of the total soil Zn, indicating that Zn solubility in most soils was relatively low and that Zn mainly occurred as residual phases. The kinetics of Zn release was well described by the power function model(r = 0.65–0.99, median = 0.87). The magnitude of initial Zn release(coefficient a) was significantly(P 0.05) related to the aqua regia-soluble Zn. Easily mobile Zn, organically bound Zn, and Zn associated with Fe and Mn oxides also contributed to the ligand-controlled release mechanisms to various degrees. Our results provide a systematic understanding of Zn fractions and release from acid sulfate paddy soils, the dynamics of which have a significant influence on the availability, phytoextraction, and mobility of Zn in terrestrial and engineered environments.     

文山植烟土壤有效锌含量及其影响因素研究

为探明文山烟区植烟土壤有效锌分布情况及其影响因素,并为烤烟合理施用锌肥提供理论依据,运用GPS定位技术采集了276份土样,测定其有效锌含量,采用经典统计学方法和GIS技术,对其基本特征、空间分布状况及影响因素进行了分析。结果表明:(1)文山烟区植烟土壤有效锌平均含量为1.93 mg/kg,变幅为0.20~8.17 mg/kg,变异系数为70.47%,属于中等变异强度。全烟区有70.12%的区域土壤有效锌在适宜范围内(1.00~5.00 mg/kg)。(2)县域间植烟土壤有效锌平均含量从高到低排序为:麻栗坡西畴县文山县马关县砚山县丘北县广南县。(3)土壤中有效锌含量随着有机质增加而增大,随海拔升高呈抛物线变化;不同海拔组和有机质组间有效锌含量差异均达极显著水平。有效锌含量在土壤p H为6.5~7.5时最低,在偏酸和偏碱的环境中含量较高。(4)文山烟区分布最广的是红壤,其次是黄壤。不同土壤类型有效锌含量差异达极显著水平,含量最高的是水稻土,最低的是紫色土。因此,文山烟区植烟土壤有效锌含量总体满足优质烟叶生产的需求,部分缺锌区域应加强锌肥、有机肥的施用以提高土壤中有效锌含量。     

Phosphorus Availability as Influenced by Organic Residues in Five Calcareous Soils

The use of organic residue is appropriate in maintaining long-term phosphorus (P) requirement of crops. This study was conducted to investigate the effect of time and organic residue addition on P availability in some calcareous soils. Five plant residues and two manures in a wide range of C/N ratios were added to the soil samples at rates of 20 g kg^?1 soil. The samples were incubated for 2, 72, 336, 672, 1440, and 2160 hours at constant temperature and moisture. Extractable phosphorus (Olsen-P) was determined after the incubation. There were decreases in the Olsen-P in all five amended soils during 2160 hours of incubation. The power model was found to be suitable to describe P transformation rates from amended soils. The constant b in the power model of P for amended soils was defined as transformation rate were in the order (average of five soils) vegetables waste > sheep manure > potato > poultry manure > sunflower > rape > weeds residues. There were significant correlations between C/P in residues and parameters a and parameter b. There were significant correlations between clay content and calcium carbonate and transformation rate of P in soils. The model parameters of P are suitable to estimate the P-fertilizer effect of organic residues.     

Formation of Methyl Mercaptan in Paddy Soils (II)

In the previous paper₁₎, the authors proposed a method for determining methyl mercaptan formed in paddy soils. In this method, methyl mercaptan was expelled by nitrogen gas from Paddy soils, and was introduced into 4% mercuric CYanide solution after separation from hydrogen sulfide by hydrous calcium chloride and lead acetate (solid). The methyl mercaptan caught by mercuric cyanide solution was measured by colorimetric method using dimethyl-p-phenylenediamine and ferric chloride solutions. And then, the analysis of several field soils was conducted by using this method.     

不同施肥模式对稻田土壤速效养分含量及水稻产量的影响

为了综合评价中国南方稻田不同施肥模式对土壤速效养分及水稻产量的影响,并找到最佳施肥模式,本试验在浏阳市北盛镇、荷花镇和达浒镇3个不同基础地力水稻田块从2013年起进行田间定位试验,比较不施肥、常规施肥、60%化肥+40%有机肥(秸秆+紫云英)和单纯施用化肥处理的水稻产量和土壤速效养分含量变化。3年定位试验表明:不同施肥模式相比无肥处理均能显著提高水稻生物产量,以60%化肥+40%有机肥处理最为显著,且生物产量表现出逐年递增的趋势。通过提高水稻有效穗数和穗粒数使水稻产量显著高于其他处理,60%化肥+40%有机肥处理相比不施肥、纯化肥、常规施肥处理分别增产38.3%~62.4%、1.7%~9.6%、8.4%~12.0%。土壤中速效养分含量表现出60%化肥+40%有机肥处理显著高于其他处理的规律,且速效养分含量逐年递增,而纯化肥处理速效养分逐年递减。从当季作物产量而言,低肥区应加大化肥在有机无机配施中的比例,但从长远培肥地力方面,应适当加大有机肥在配施中所占比例,对于中高肥区则可逐步增加有机肥施用比例。不施肥会降低土壤肥力,而施肥具有明显培肥地力的效果,60%化肥+40%有机肥的施肥模式培肥地力效果最为显著,有利于增加水稻有效穗数和穗粒数,产量显著高于其他处理。     

Yield and Zinc,Copper, Manganese and Iron Concentration in Maize (Zea mays L.) Grown on Vertisol as Influenced by Zinc Application from Various Zinc Fertilizers

Zinc (Zn) deficiency in soils and field crops is widespread across the world, including India, resulting in severe reduction in yield. Hence, soil application of Zn fertilizers is recommended for ameliorating Zn deficiency in soil and for obtaining higher crop yield and better crop quality. Zinc sulfate is commonly used Zn fertilizer in India because of its solubility and less cost. However, good quality and adequate quantity of zinc sulfate is not available in the market round the year for farmers' use. Field experiments were therefore conducted during rainy season of 2010 and 2011 at research farm of Indian Institute of Soil Science, Bhopal, India to assess the influence of Zn application through zinc sulfate monohydrate (33% Zn), zinc polyphosphate (21% Zn) and Zn ethylenediaminetetraacetate (EDTA) (12% Zn) on yield and micronutrient concentration and uptake by maize (Zea mays L.). In both the years, grain and vegetative tissue (stover) yield of maize increased significantly with successive application of Zn up to 1 kg ha^?1 added through zinc sulfate monohydrate and zinc polyphosphate. Addition of 2.5 kg Zn ha^?1 did not increase yield further but resulted in highest stover Zn concentration. Zinc, copper (Cu), manganese (Mn), and iron (Fe) concentration in maize grain varied from 22.2 to 27.6, 1.6 to 2.5, 3.5 to 4.7 and 19.9 to 24.5 mg kg^?1 respectively in both the years. Maize stover had 25.9 to 36.2, 7.9 to 9.8, 36.7 to 44.9 and 174 to 212 mg kg^?1 Zn, Cu, Mn, and Fe, respectively. Zinc application did not influence Cu, Mn and Fe concentration in both grain and stover of maize. Transfer coefficients (TCs) of micronutrients varied from 0.72 to 0.95, 0.18 to 0.30, 0.08 to 0.13 and 0.10 to 0.15 for Zn, Cu, Mn, and Fe respectively. Total Zn uptake significantly increased with Zn application from 0.5 to 2.5 kg ha^?1 supplied through zinc sulfate monohydrate and zinc polyphosphate. Recovery efficiency of Zn declined with increased Zn rates.     

Extractability of Cu in Alkaline Biosolids-Amended Soils as Influenced by γ-Irradiation

An incubation experiment was conducted to investigate the microbial biomass associated Cu in four contrasting soils to which an alkaline stabilised sewage sludge cake was applied. The organisms of sludgeamended and control soils were killed using γ-irradiation technique, and the aqueous and acid-extractable Cu concentrations were determined. Addition of the sludge product increased significantly the concentration of both the aqueous and dilute HOAc-extractable Cu in all the irradiated soils compared to the non-sterilised sludge/soil mixtures, but the increase was more pronounced in the dilute acid-extractable Cu, indicating that the Cu rendered extractable in water and dilute acetic acid by γ-irradiation existed in the both soil liquid and solid phases. The additional increase in extractable Cu following the biocidal treatment is likely to be due to release of Cu from the same fraction of soil microbial biomass.     

干湿交替对水稻土碳氮矿化的影响

通过室内培育试验,研究干湿交替条件下长期不同施肥处理水稻土微生物生物量和理化性状变化对土壤C、N矿化的影响机制.结果表明,与连续淹水(Cw)处理相比,干燥处理不仅显著地提高了所有施肥处理土壤有机C的矿化速率,其幅度为78%～204%,而且也提高了各处理土壤微生物生物量C和N,其幅度分别为55%～77%和57%～72%;干燥后淹水处理土壤有机C矿化速率的提高幅度为74%～95%,呈先降低再升高的趋势.土壤N的矿化在干湿交替过程的干燥处理中降低34%～78%:干燥后淹水过程仅使NPK处理的升高21%,而CK和NPKOM处理分别降低5%和13%.在培养过程中土壤Eh值仅在-60～60 mV范围时,与土壤微生物生物量C之间有显著的负相关关系.在干湿交替的干燥过程,随土壤pH值的升高土壤微生物生物量C有增加的趋势,在淹水条件下土壤pH值则仅与NPKOM处理土壤微生物生物量C之间有明显的负相关关系.干湿交替条件下土壤 pH和 Eh 值、微生物群落组成和数量与有机质的矿化之间的相互作用关系复杂,三者间的作用机理需进一步研究.     

Adsorption-Desorption of Zinc as Influenced by Fly Ash in Inceptisols of Assam

This study investigates the influence of fly ash (FA) application on zinc adsorption-desorption in recommended chemical fertilizer (RDF) and farmyard manure (FYM) treatments of acidic Inceptisols of Assam. Zinc adsorption was better explained by Freundlich over the Langmuir adsorption equation. Adsorption was greatest in the treatment receiving FA only at 15 t ha^?1 and least in the treatment receiving RDF 50 percent + FYM 5 t ha^?1 + FA 5 t ha^?1. The zinc distribution coefficient of treatment FA 15 t ha^?1 was 40 to 31 times greater than treatments containing FA + RDF + FYM. The zinc supply parameter increased when FA was applied with RDF and FYM, and zinc desorption followed the order of exctractants CaCl₂ > MgCl₂ > DTPA > HCl. They desorbed more Zn from soils with low “b” and vice versa. Results confirm that fly ash integrated with RDF + FYM can effectively be used to maintain substantial concentrations of Zn in soil.     

Evaluation of Growth Responses in Wheat as Affected by the Application of Zinc and Boron to a Soil Deficient in Available Zinc and Boron

A soil–pot culture experiment was conducted to study the individual and interactive effects of zinc (0, 5, and 10 mg kg^?1 soil) and boron (0, 0.75, and 1.5 mg kg^?1 soil) on growth, enzymatic activity, nutrient uptake, seed reserve content, and yield in wheat (var. HD2285) in a soil deficient in available zinc and hot water–extractable boron. Although the application of zinc and boron alone significantly increased the plant height, grain yield, total dry-matter yield, tissue zinc, and boron content in maize, maximum increase was obtained with the combined application of zinc and boron. The activities of enzymes peroxidase and starch phosphorylase decreased as compared to untreated control but the activity of carbonic anhydrase increased. Protein, starch, and phytate content of grains also increased with the application of the micronutrients. Moreover, in the absence of zinc, application of boron decreased the starch content of grains.     

Zinc Diffusion and Self-Diffusion Coefficient in Alkaline Soils as Affected by Soil Properties and Zinc Carrier

The apparent diffusion coefficients, D_p/b+ø, of Zn and ZnEDTA were linear functions of added Zn, and were related to the adsorption and fixation capacities of soils rather than their pH. Lower apparent diffusion coefficient values were found in an Haplustoll soil that had higher clay and humus contents inspite of its lower pH. At comparable rates of added Zn, the apparent diffusion of ZnEDTA was 930–1010 (Bakyria), 700–1330 (Dirab), and 730–1880 (Baha) times that of Zn in the soils. The adsorbed Zn per cm³ of soil/Zn per cm³ of the equilibrium solution at the water content existing in the diffusion experiment approximated the capacity factor and was determined by extrapolation. The self-diffusion coefficient of Zn in Baha soil (5 × 10^?7 cm²sec^?1) of higher clay and water content was higher than in Bakyria or Dirab soil (2 × 10^?7 cm²sec^?1). These values were similar to the self-diffusion coefficient of P in soils of similar texture at similar water content.