抑制玉米淀粉回生的面粉蛋白酶解液筛选

为防止玉米淀粉食品会因回生而降低品质,该文利用酸性、中性和碱性3种蛋白酶水解小麦面粉中的球蛋白、谷蛋白和醇溶蛋白,研究酶解物中混合多肽对玉米淀粉回生的影响。研究结果表明,酸性蛋白酶水解谷蛋白所得多肽混合液能强烈抑制玉米淀粉回生,使玉米淀粉回生率由14.0%降低到8.0%。其他2种水解物促进玉米淀粉回生,促进最多的是碱性蛋白酶水解醇溶蛋白,使玉米淀粉回生率由14.0%升高到19.5%。通过红外和核磁分析了混合多肽抑制或促进玉米淀粉回生的可能机理。研究成果为控制淀粉回生提供一条全新的途径。     

挤压体系中可得然胶对小麦淀粉回生特性和冻融稳定性的影响

小麦淀粉的回生现象和较差的冻融稳定性是限制面制品加工的重要原因。为探索一种有效抑制小麦淀粉回生及改善其冻融稳定性的方法,该文研究了挤压体系中不同质量分数的可得然胶对小麦淀粉回生特性和冻融稳定性的影响,利用差示扫描量热仪、X-射线衍射和傅里叶红外光谱等技术表征了可得然胶-小麦淀粉复合物的分子结构,并结合化学试剂处理、质构仪和扫描电镜探讨了可得然胶与小麦淀粉的结合机制。结果表明：随着可得然胶浓度的增加,可得然胶-小麦淀粉复合物的回生值和析水率先降低后增加;与挤压小麦淀粉相比,添加质量分数0.6%的可得然胶能够显著提高小麦淀粉的糊化温度,并降低小麦淀粉的相对结晶度、短程有序性和碘结合力,抑制了直链淀粉的重结晶;挤压体系中可得然胶与小麦淀粉主要通过氢键和弱的静电相互作用结合,使小麦淀粉的结构更加致密,从而抑制小麦淀粉的回生并改善其冻融稳定性,该研究可为开发抗回生和低析水率的挤压小麦淀粉基食品提供参考。     

Partial beta-amylolysis retards starch retrogradation in rice products

Starch retrogradation is the main cause of quality deterioration of starch-containing foods during storage. The current work investigated the effect of partial beta-amylolysis on the retrogradation of rice starch and the potential of beta-amylase in preparing rice products with extended shelf life. Isolated amylopectin, whole rice starch, and rice flour from a regular rice cultivar were partially hydrolyzed by either reagent-grade or food-grade beta-amylase. The degree of beta-amylolysis was expressed as average external chain length () for isolated amylopectin or the degree of hydrolysis (%) for other starch systems. Pulsed nuclear magnetic resonance was used to monitor starch retrogradation during storage at 4 degrees C. The results indicated that partial beta-amylolysis using reagent-grade beta-amylase retarded amylopectin retrogradation by shortening the of amylopectin. When was below DP 11.6, the amylopectin retrogradation was essentially inhibited. Partial beta-amylolysis had a similar effect on the amylopectin retrogradation in the whole starch system. The maltose produced in beta-amylolysis might slightly attenuate the retrogradation-retarding effect of partial beta-amylolysis. The effect of food-grade beta-amylase on starch retrogradation was also evident, although less effective than that of reagent-grade beta-amylase. The retrogradation-retarding effect of food-grade beta-amylase was also demonstrated in rice flour system, indicating a potential method for controlling the starch retrogradation of rice products.     

Effect of alpha-amylases from different sources on the retrogradation and recrystallization of concentrated wheat starch gels: relationship to bread staling

Concentrated starch gels were supplemented with four alpha-amylases from different sources. The retrogradation and recrystallization of the gels were evaluated using differential scanning calorimetry (DSC) and X-ray crystallography. Correlations between the retrogradation data and the carbohydrate fractions extracted from these gels were determined. The thermostable (TBA) and intermediate temperature stability (ISBA) bacterial alpha-amylases were most effective in decreasing the rate of retrogradation of the starch in the gels. The cereal alpha-amylase at the high level (CAH) was also effective. Supplementation with the alpha-amylases increased the crystallinity of the gels. Gels supplemented with TBA or ISBA were most crystalline and retrograded to a lesser extent. The results indicated that DSC gives not only a measure of recrystallized amylopectin but also a measure of total order (recrystallized amylopectin and double-helical content). The maltooligosaccharides produced by the enzymes did not appear to be responsible for the reduced rates of retrogradation, but they appeared to be an expression of the degree of starch modification that was responsible for the inhibition of retrogradation. The crystallinity and retrogradation data were similar to results reported for bread and strongly suggest that bread staling is caused by the retrogradation of starch. The results also indicate that alpha-amylases decrease the rate and extent of retrogradation of starch gels by inhibiting the formation of double helices.     

Effect of storage time on the retrogradation of banana starch extrudate

Starch was isolated from banana starch and the retrogradation phenomenon was studied using diverse techniques, including an enzymatic measurement. Wide-angle X-ray scattering (WAXS) showed that the sample stored for 7 h presented small peaks and when the storage time increased the peaks increased in intensity. The type of diffraction pattern found in banana extrudates is typical of the A-type crystal polymorph. The crystallinity index from the diffractograms, showed a plateau after approximately 20 h of storage. The short-range order measurement with Fourier transform infrared (FTIR) spectroscopy showed that banana starch retrogradation reached a maximum value at approximately 11 h of storage, a value that agrees with the results obtained with differential scanning calorimetry (DSC), because the maximum enthalpy value (approximately 5 J/g) was calculated in the stored sample for 8 h, without changes in the stored samples for more time. Retrograded resistant starch values did not change after 12 h of storage, obtaining the maximum starch retrogradation level. FTIR, DSC, and the enzymatic technique showed the changes at the molecular level in starch during storage; in the case of WAXS, they determine the long-range order that explains the differences found in the starch retrogradation pattern measurement in banana starch.     

Influence of acyl chain lengths in mono- and diacyl-sn-glycerophosphatidylcholine on gelatinization and retrogradation of starch

The influence of starch with 1- or 2-monoacyl-sn-glycerophosphatidylcholine (GPC) having various chain lengths of fatty acids on gelatinization and retrogradation of starch was studied by the measurement of starch-GPC complex formation, complexing index, and differential scanning calorimetry. The addition of GPC to the starch sample slightly increased the blue value and lambda(max) with increasing chain length of GPC but decreased the phosphorus content and complexing index. The gelatinization onset and peak temperatures of starch complexes increased significantly with increasing chain length, but the enthalpies were statistically lower, except for the treatment with 1,2-distearoyl-sn-GPC when compared with that of the control. Among GPC (di and mono), 1- and 2-monomyristoyl-sn-GPC showed the highest complexing ability, whereas the complexing ability of the GPC decreased with the increasing chain length. According to the Avrami equation, the retrogradation rate (k, day(-1)) of starch was slower than that of the control, whereas the retrogradation rates of 1- and 2-monomyristoyl-sn-GPC were slowest among the GPCs. The positive linear relationship between k and the number of acyl groups of GPC suggests that a GPC with a shorter chain length could retard the retrogradation of starch during storage.     

Surface-associated proteins of wheat starch granules: suitability of wheat starch for celiac patients

Wheat starch is used to make baked products for celiac patients in several European countries but is avoided in the United States because of uncertainty about the amounts of associated grain storage (gluten) proteins. People with celiac disease (CD) must avoid wheat, rye, and barley proteins and products that contain them. These proteins are capable of initiating damage to the absorptive lining of the small intestine in CD patients, apparently as a consequence of undesirable interactions with the innate and adaptive immune systems. In this study, starch surface-associated proteins were extracted from four commercial wheat starches, fractionated by high-performance liquid chromatography and gel electrophoresis, and identified by tandem mass spectrometry analysis. More than 150 proteins were identified, many of which (for example, histones, purothionins, and glutenins) had not been recognized previously as starch-associated. The commercial starches were analyzed by the R-5 enzyme-linked immunosorbent assay method to estimate the amount of harmful gluten protein present. One of these starches had a low gluten content of 7 ppm and actually fell within the range proposed as a new Codex Alimentarius Standard for naturally gluten-free foods (maximum 20 ppm). This low level of gluten indicates that the starch should be especially suitable for use by celiac patients, although wheat starches with levels up to 100 ppm are deemed safe in the proposed Codex standards.     

Analysis of genotypic and environmental effects on rice starch. 2. Thermal and retrogradation properties

Eight rice varieties with wide diversity in apparent amylose content (AC) were selected and planted in the early (HZE) and late season (HZL) in Hangzhou and in the winter season in Hainan (HN) for two consecutive years to study the genotypic and environmental effects on starch thermal and retrogradation properties of grain. Genotypic variation (all at P < 0.01) accounted for >56% of the total variation for onset (T(o)), peak (T(p)), and completion (T(c)) temperature, width at half-peak height (DeltaT(1/2)) of gelatinization, enthalpy (DeltaH(r)) of retrograded starch, percentage of retrogradation (R%), and 45.8% for enthalpy (DeltaH(g)) of gelatinization. Seasonal variation accounted for about one-fifth for T(o), T(p), and T(c) and one-third for DeltaH(g), but less for T(1/)(2), DeltaH(r), and R% of the total variation, indicating that T(o), T(p), T(c), and DeltaH(g) were highly affected by seasonal environment in addition to the genotypic variation. The T(o), T(p), T(c), and DeltaH(g) in HZL were much smaller than those in HZE and HN. Correlation analysis for the eight genotypes showed that AC was significantly correlated with DeltaH(g) (r = -0.83, P < 0.01) and R% (r = 0.734, P < 0.05). DeltaH(g) was also positively correlated with T(c) (r = 0.878, P < 0.05), but it did not have any correlation with DeltaH(r), whereas the latter was positively correlated with R% (r = 0.994, P < 0.001). The intercorrelation of T(o), T(p), T(c), and DeltaT(1/)(2) themselves was significant at P < 0.001. The correlation analysis results suggest that there are different molecular mechanisms to regulate thermal properties (T(o), T(p), T(c), and DeltaH(g)) and retrogradation properties (DeltaH(r) and R%) as affected by environmental conditions. The implications of the results for rice breeders and starch-based food processors are discussed.     

超高压处理对太白葛根淀粉理化特性的影响

采用超高压技术对太白葛根淀粉进行处理,研究超高压处理对太白葛根淀粉理化特性的影响。试验结果表明,超高压处理对太白葛根淀粉的颗粒大小和形态没有明显影响。超高压处理可使太白葛根淀粉糊的透明度明显增大,淀粉糊的冻融稳定性降低,提高太白葛根淀粉糊黏度对pH值的稳定性,但对其糊化黏度特性的影响不明显。300 MPa高压处理可改善太白葛根淀粉的理化特性。     

Pressure-temperature phase transition diagram for wheat starch

Wheat starch suspensions in water (5% dry matter) were subjected to various pressures (0.1-600 MPa) and temperatures (-20 to 96 degrees C) for 15 min. The gelatinization rate was measured after treatment by using microscopic measurements of the loss of birefringence of the granules. This method was previously calibrated by differential scanning calorimetry. Curves of isogelatinization were found to be quite similar to a pressure-temperature (P-T) diagram of unfolding proteins. Results were first analyzed by considering the thermodynamic aspects related to the dT/dP curve shifts. On the basis of equations already shown for proteins, the P-T gelatinization diagram of wheat starch would show different kinds of thermal contributions, suggesting endothermic, athermic, or exothermic melting reactions. Second, as a practical consequence, these previous P-T areas corresponded to specific gelatinization conditions as confirmed by hydration evaluation measured by starch swelling index. Depending on the pressure-temperature conditions, gelatinization would involve hydration. Lowering the pressure and temperature resulted in a complete gelatinization with less hydration in comparison with a thermal treatment at atmospheric pressure. A hydration model based on an energetic approach was proposed.     

Comparative study of the retrogradation of intermediate water content waxy maize, wheat, and potato starches

The retrogradation of extruded starches from three different botanical sources was studied in concentrated conditions (34 +/- 1% water) at 25 degrees C using differential scanning calorimetry (DSC) and isothermal calorimetry, Fourier transform infrared spectroscopy (FTIR), and wide-angle X-ray scattering. Potato starch showed the highest rate of retrogradation (approximately 0.17 h(-1)) followed by waxy maize (approximately 0.12 h(-1)), while the retrogradation of wheat starch was the slowest (approximately 0.05 h(-1)). In addition to the kinetics, the extent of molecular order in the retrograded samples was studied in detail in terms of "short-range" (helical) and "long-range" (crystalline) distance scales. The amylopectin crystallinity indices were essentially the same (approximately 47-51% amylopectin basis) for the three starches. However, significant differences were found in the enthalpy of melting measured by DSC after "full" retrogradation (potato, 11.6 +/- 0.7; waxy maize, 9.0 +/- 0.5; and wheat, 6.1 +/- 0.3 J/g of amylopectin). The degree of short-range molecular order in the retrograded state determined by FTIR was waxy maize > potato > wheat. The effect of amylopectin average chain length and the polymorphism of the crystalline phase were taken into account to explain the differences in the retrogradation enthalpies.     

拔节期追氮对春播和秋播糯玉米淀粉胶凝和回生特性的影响

以垦粘1号、苏玉糯1号和苏玉糯5号为材料,研究了拔节期追氮量(N 01、50和300 kg/hm2)对春播和秋播糯玉米淀粉胶凝和回生特性的影响,试验于扬州大学实验农牧场进行。结果看出,播期、品种和拔节期追氮量单因素及其互作对淀粉胶凝和回生主要特征值存在显著影响。糯玉米淀粉胶凝和回生特征值在拔节期追氮150 kg/hm2时和秋播条件下较优,即原淀粉具有较低的峰值温度、较高的热焓值,回生淀粉具有较低的回生值,且以垦粘1号表现较好。糯玉米淀粉胶凝和回生特征值之间存在一定的相关性。回生值分别与回生淀粉的热焓值、原淀粉的终值温度显著正相关,相关系数分别为0.82(P0.01)和0.47(P0.05);原淀粉的热焓值与峰值指数显著正相关,相关系数为0.53(P0.05),与原淀粉峰值温度、回生淀粉的终值温度显著负相关,相关系数分别为-0.53(P0.05)和-0.52(P0.05);回生淀粉的热焓值分别与回生淀粉起始温度、终值指数显著正相关,相关系数分别为0.46(P0.05)和0.66(P0.01)。综合考虑淀粉胶凝和回生特性在不同处理下的变化趋势,以秋播糯玉米淀粉在拔节期追N 150 kg/hm2处理下较优。     

Structural and molecular basis of starch viscosity in hexaploid wheat

Wheat starch is considered to have a low paste viscosity relative to other starches. Consequently, wheat starch is not preferred for many applications as compared to other high paste viscosity starches. Increasing the viscosity of wheat starch is expected to increase the functionality of a range of wheat flour-based products in which the texture is an important aspect of consumer acceptance (e.g., pasta, and instant and yellow alkaline noodles). To understand the molecular basis of starch viscosity, we have undertaken a comprehensive structural and rheological analysis of starches from a genetically diverse set of wheat genotypes, which revealed significant variation in starch traits including starch granule protein content, starch-associated lipid content and composition, phosphate content, and the structures of the amylose and amylopectin fractions. Statistical analysis highlighted the association between amylopectin chains of 18-25 glucose residues and starch pasting properties. Principal component analysis also identified an association between monoesterified phosphate and starch pasting properties in wheat despite the low starch-phosphate level in wheat as compared to tuber starches. We also found a strong negative correlation between the phosphate ester content and the starch content in flour. Previously observed associations between internal starch granule fatty acids and the swelling peak time and pasting temperature have been confirmed. This study has highlighted a range of parameters associated with increased starch viscosity that could be used in prebreeding/breeding programs to modify wheat starch pasting properties.     

负压水肥一体化灌溉对黄瓜产量和水、氮利用效率的影响

【目的】本试验采用自行设计的新型负压水肥一体化灌溉系统,进行了系统供水负压对土壤硝态氮分布和黄瓜水氮利用效率影响的研究,以期为实际应用和管理提供理论依据和技术参考。【方法】在遮雨网室内进行了供水和施氮双因素盆栽试验。以常规灌溉为对照(CK),设4个供水水平:0(W1)、–5(W2)、–10(W3)和–15 k Pa(W4),2个施氮水平(N1,N 0.3 g/kg土;N0,不施氮),共10个处理。分析检测了黄瓜生育期内0—25土壤水分变化动态、土壤硝态氮的空间分布特征,计算了黄瓜的水、氮利用效率。【结果】随着黄瓜耗水量的增加,系统供水量也增大,系统累计供水量与黄瓜累计耗水量之间存在极显著线性关系y=0.96x+3.4(R2=0.99,P0.01)。不同供水负压对同一时期土壤含水量变化有极显著影响(P0.01),当供水负压设定在0、–5、–10和–15 k Pa时,土壤平均质量含水量分别为28.7%、22.7%、20.0%和15.6%,而在同一系统供水负压下黄瓜整个生育期土壤含水量保持相对稳定,其变化属于弱变异(变异系数CV≤0.1)。负压灌溉水肥一体化能显著提高0—25 cm土壤氮素分布的均匀性,土壤硝态氮沿垂直方向的平均变差系数分别比常规灌溉降低了58.6%~71.2%。同一系统供水负压下,施氮处理(N1)黄瓜植株干物质量、产量和水分利用效率比不施氮处理(N0)分别提高了4.6%~256.1%、12.6%~196.6%和7.76%~86.27%。当供水负压为–5 k Pa时,黄瓜植株平均干重和产量均为最高,分别为153 g/pot和1406 g/pot,黄瓜平均水分利用效率和氮肥表观利用率分别比常规灌溉提高了136.8%和52.32%。【结论】适宜的供水负压下,负压灌溉系统通过土壤水分平衡供应机制,实现了作物对水分的连续自动获取,黄瓜整个生长期间,灌溉系统可以保持平稳均匀与适时适量供水,因而,负压灌溉水肥一体化显著提高了黄瓜的水、氮利用效率。本试验条件下,系统供水负压为–5 k Pa更有利于黄瓜的产量和氮素利用率的提高。     

Analysis of the retrogradation of low starch concentration gels using differential scanning calorimetry,rheology, and nuclear magnetic resonance spectroscopy

The retrogradation of 5, 10, 15, and 25% corn starch gels was measured using differential scanning calorimetry (DSC), rheology, and an array of NMR spectroscopy techniques. During the initial (<24 h) stage of retrogradation, an increase in G' corresponding to an increase in the number of solid protons participating in cross-relaxation (M(B)(0) was observed for all four concentrations studied. During the latter (>24 h) stage of retrogradation, amylopectin recrystallization becomes the dominant process as measured by an increase in deltaH(r) for the 25% starch gel, which corresponded to a further increase in. A decrease in the molecular mobility of the liquid component was observed by decreases in (17)O T(2), (1)H D(0), and T(2A). The value for T(2B) (the solid transverse relaxation time) did not change with concentration or time indicating that the mobility of the solid component does not change over time despite the conversion of the highly mobile starch fraction to the less mobile solid state during retrogradation.     

Rheological characteristics of intermediate moisture blends of pregelatinized and raw wheat starch

Rheological properties of intermediate moisture (35-45% wet basis) doughs from pregelatinized and raw wheat starch blends of various ratios were characterized using off-line capillary rheometry and online slit-die extrusion. In the case of capillary rheometer, viscosity of blends decreased by up to 50% as pregel starch concentration increased from 5 to 45%, whereas tests could not be conducted beyond 45% pregel starch concentration. For slit-die extrusion, viscosity was at a minimum at 60% pregel concentration, and it decreased by as much as 65% as pregel concentration increased from 0 to 60%. As pregel concentration increased (from 5 to 45% for the rheometer and from 0 to 60% for the extruder), the amount of water available in the system for gelatinization of existing raw starch granules decreased due to the stronger water-binding capacity of pregelatinized starch. This led to decreased additional conversion in the rheometer and extruder, which in turn caused a decrease in the volume fraction of starch and a reduction in viscosity.     

喷灌促进小麦籽粒淀粉积累提高其品质

为研究喷灌和地面灌溉对小麦籽粒淀粉积累及其品质性状的影响,该文以中筋小麦百农矮抗58为试验材料,通过2012-2014年2个生长季的大田试验,以地面灌溉为对照,分析了喷灌对小麦籽粒淀粉及其组分积累过程、淀粉糊化特性等的影响。结果表明:1)与地面灌溉相比,喷灌显著提高了小麦总淀粉和支链淀粉的含量,降低了直链淀粉含量,进而降低了淀粉的直/支比;2)喷灌条件下小麦总淀粉和支链淀粉的积累量较地面灌溉分别显著提高了7.8%~8.0%和12.2%~12.5%(P0.05);3)喷灌条件下小麦直链淀粉的积累量较地面灌溉显著降低了8.3%~11.4%(P0.05);4)Logistics方程模拟淀粉积累过程表明,与地面灌溉相比,喷灌提高了小麦总淀粉和支链淀粉的最大积累速率、平均积累速率,但降低了直链淀粉的最大积累速率、平均积累速率;5)喷灌与地面灌溉条件下淀粉糊化特性表现出明显的不同:除糊化温度和糊化时间差异不显著外,喷灌小麦淀粉的高峰黏度、低谷黏度、稀懈值和最终黏度分别较地面灌溉提高了0.169~0.186、0.053~0.062、0.116~0.124和0.155~0.171 Pa·s(P0.05)。综上,与地面灌溉相比,喷灌有利于中筋小麦成熟期籽粒淀粉积累,并在一定程度上提高了中筋小麦淀粉品质。该研究可为小麦高产优质栽培提供理论依据。     

Hydrocolloid interaction with water, protein, and starch in wheat dough

Interaction of hydrocolloids (xanthan gum, locust bean gum, guar gum, and high-methoxyl pectin) with macrocomponents of dough (water, starch, and protein) was evaluated by different techniques. (1)H spin-spin NMR relaxation assays were applied to study the mobility of the gluten-hydrocolloid-water matrix, and the amount of freezable water was determined by differential scanning calorimetry (DSC). Starch gelatinization parameters (T, enthalpy) were also analyzed by DSC. The influence of additives on the protein matrix was studied by Fourier transform (FT) Raman assays; analysis of the extracted gliadins and glutenins was performed by electrophoresis (SDS-PAGE). A significantly higher molecular mobility was found in matrices containing xanthan gum, whereas pectin led to the lowest molecular mobility. Freezable water showed a trend of increasing in the presence of hydrocolloids, particularly under conditions of water restriction. Starch gelatinization final temperature was decreased when hydrocolloids were added in the presence of enough water. In general, FT-Raman and SDS-PAGE indicated that hydrocolloid addition promoted a more disordered and labile network, particularly in the case of pectin addition. On the other hand, results obtained for dough with guar gum would indicate a good compatibility between this hydrocolloid and the gluten network.     

Water and temperature dynamics in a clay soil under winter wheat: influence on straw decomposition and N immobilization

Summary Winter wheat grown on a clay soil was subjected to one of four treatments. The control was not irrigated; the drought treatment had screens to divert rainwater; the irrigation and irrigation/fertilization treatments were irrigated using a drip-tube system with liquid fertilizer (200 kg N ha^-1 year^-1) applied daily in the irrigation/fertilization treatment according to predicted plant uptake. All other treatments also received 200 kg N, but as a single application of bag fertilizer. Soil temperature was monitored. Soil moisture was measured using gravimetric samplings and a capacitance method. Litter bags with barley straw were buried at 10 cm depth in the spring and sampled repeatedly during the growing season. Decomposition rates were calculated assuming exponential decay and that water-soluble components were immediately decomposed or leached from the litter bags. Rates were highly dependent on soil moisture, and the constants ranged from 0.11% day^-1 in the drought treatment to 0.55% day^-1 in the irrigation/fertilization treatment. A simulation model with driving variables based on Q ₁₀ temperature dependence and a log/linear relationship between soil water tension and activity was fitted to the data. The control and drought treatments showed high climate-corrected decomposition constants. The high values were attributed to low and erratic mass loss due to drought, and to low precision in the conversions from water content to tension in the dry range. The irrigated treatments showed good fits, and there was little or no difference in decomposition rates between the two irrigated treatments. The N dynamics of the straw differed considerably between treatments, and the ranking of plots in terms of net immobilization in the straw was control>irrigation/fertilization>irrigation>drought.     

基于光谱遥感的冬小麦籽粒淀粉积累量的监测

为了建立基于叶绿素密度淀粉积累量的最佳种植密度光谱监测模型,利用遥感技术准确测量小麦淀粉积累量,本试验通过大田试验,根据品种特性和晋中地区推广种植密度分别设置5个种植密度(300万苗.hm 2、450万苗.hm 2、600万苗.hm 2、750万苗.hm 2、900万苗.hm 2),对其冠层光谱、叶绿素密度和淀粉积累量进行了测定,并利用统计学方法对5个种植密度的数据进行分析,对混合密度进行模拟。结果表明,在5个密度梯度和模拟混合密度下所建立的淀粉积累量光谱监测模型中,以密度750万苗.hm 2条件下的NDVI(1 200 nm,670 nm)所建立的光谱模型最好,其精确度可达0.920 6。用2009—2010年的试验数据对模型进行检验,其预测值和实测值的R2也可达0.954 2,表明750万苗.hm 2的种植密度是对冬小麦淀粉积累量进行预测的最佳密度,依此所建立的冬小麦淀粉积累动态监测光谱模型是可行的。同时,所建立模拟混合密度模型的精确度可达0.883 1,验证R2也可达0.905 4,说明该模拟混合密度模型能够较准确地预测不同种植密度条件下的淀粉积累量。因此,模拟混合密度模型在现实应用中具有较好的适用性和普适度。