Spatial distribution of Pb and its correlation at different grain positions among wheat varieties for specific end-uses

The relative content of Pb and its correlation were investigated in endosperm, aleurone layer and pericarp respectively among different wheat varieties for specific end-uses (WVFSE) using scanning electron microscope (SEM) equipped with the energy dispersive X-ray spectroscope (EDS). The results showed that Pb contents in grains at different positions followed the order of endosperm > pericarp > aleurone. The differences of Pb contents varied among the WVFSE, and wheat with strong gluten had a highest average content of Pb, while wheat with medium gluten had a lowest one. There were significant third order equation correlations between Pb content in endosperm and that in aleurone layer and that in pericarp, respectively. And good correlation coefficients were obtained. However, the correlation differed at different position among WVFSE, which indicated that Pb contents in endosperm, aleurone layer and pericarp were regulated by each other.

Influence of different nitrogen application on flour properties,gluten properties by HPLC and end-use quality of Korean wheat

This study was performed to identify how the different levels of nitrogen application affected the variances of gluten properties and end-use qualities and the differences of variances among Korean wheat cultivars. Protein and dry gluten content, SDS sedimentation volume and water absorption of Mixolab increased as nitrogen application increased. This ratio of the increase was higher in Korean wheat cultivars for bread than in Korean wheat cultivars for noodles and cookies. The proportion of（α＋β）-gliadin measured by reversed-phase high-performance liquid chromatography（RP-HPLC） increased, but the proportion of ω-and γ-gliadin decreased as the protein content increased. The Korean wheat cultivars for bread showed a high proportion of（α＋β）-gliadin increase, the Korean cultivars for noodles had a high proportion of γ-gliadin decrease and the Korean wheat cultivars for cookies had a high proportion of ω-gliadin decrease. However, there was no variation of the component in the proportion of glutenin component measured by RP-HPLC, even though the protein content was increased, but all of the protein fractions measured by size exclusion（SE）-HPLC were increased. The soluble monomeric protein showed a high proportion of Korean wheat cultivars for bread by the increase of protein content. Bread loaf volume increased by the increase of protein content but there were no variances in the ratio of increase among Korean wheat cultivars. The cookie diameter decreased with the increase of protein content, and this ratio of decrease was the highest in Korean wheat cultivars for cookies. The hardness of cooked noodles also increased by the increase of protein content but there were no variations in springiness and cohesiveness. The decrease proportion of ω-gliadin affected the increase of bread loaf volume, the hardness of cooked noodles, and the decrease of cookie diameter.

Research Progress of Special Wheat Nutrition Components and Application

With the increased pace of life and improved consumption level of people, the demand for food developed from natural resources is increasing day by day. Related researches have shown that the nutrition level of special wheat is higher than that of common wheat. Special wheat can improve the nutritional structure and diet quality of people. However, the researches on special wheat are rare at home and abroad. Compared with the common wheat, special wheat still faces many challenges in taste quality, storage stability, processing suitability as main food, etc. This paper summarized the researches on analysis and application of special wheat nutrition components at home and abroad so as to evaluate comprehensively the development prospect of special wheat.

小麦专用肥配施改良剂对旱地小麦产量、品质及肥水效率的影响

为探讨小麦专用肥配施改良剂的肥效,明确其对旱地强筋小麦产量、根系发育、品质及养分、肥水效率的影响,于2021—2023年定位研究了不施氮肥(CK)、农民习惯施肥(FP)、小麦专用肥(T1)、小麦专用肥+秸秆原位腐熟剂(T2)、小麦专用肥+秸秆原位腐熟剂+羧甲基纤维素钾(T3)处理下,旱地强筋小麦的产量及其构成、根系发育、品质及养分、肥水效率。结果表明:与FP处理相比,T2、T3处理籽粒产量及其构成因素均呈上升趋势,分别增产5.89%和11.53%;地上部生物量分别增加3.67%和4.26%;蛋白质含量、湿面筋含量和籽粒养分均有所增加;氮肥农学效率分别提高43.42%和70.55%;肥料偏生产力分别增加5.93%和7.77%;氮肥利用率分别提高10.78个百分点和27.73个百分点;经济效益分别增长5.13%和12.01%。T2处理下,面团的粉质特性和拉伸特性指标均表现最好。研究表明,N∶P_(2)O_(5)∶K_(2)O配比为21∶18∶5的小麦专用肥配施秸秆腐熟剂和保水剂可提高旱地小麦产量和肥水效率。

A k-mer-based pangenome approach for cataloging seed-storage-protein genes in wheat to facilitate genotype-to-phenotype prediction and improvement of end-use quality

Wheat is a staple foodfor more than 35%of the world's population,with wheatflourused to make hundreds of baked goods.Superior end-use quality is a major breeding target;however,improving it is especially time-consuming and expensive.Furthermore,genes encoding seed-storage proteins(ssPs)form multigene families and are repetitive,with gaps commonplace in several genome assemblies.To overcome these barriers and efficiently identify superior wheat SSP alleles,we developed"PanSK"(Pan-SSP k-mer)for genotype-to-phenotype prediction based on an SsP-based pangenome resource.PanSK uses 29-mer sequences that represent each ssP gene at the pangenomic level to reveal untapped diversity across landraces and modern cultivars.Genome-wide association studies with k-mers identified 23 Ssp genes associated with end-use quality that represent novel targets for improvement.We evaluated the effect of rye secalin genes on end-use quality and found that removal of w-secalins from 1BL/1RS wheat translocation lines is associated with enhanced end-use quality.Finally,using machine-learning-based prediction inspired by PanSK,we predicted the quality phenotypes with high accuracy from genotypes alone.This study provides an effective approach for genome design based on ssP genes,enabling the breeding of wheat varieties with superior processing capabilities and improved end-use quality.

1%噻虫胺·氟氯氰菊酯颗粒剂特种药肥对小麦虫害防治及生长影响试验

噻虫胺是一种新烟碱类杀虫剂,是一类高效安全、高选择性的新型杀虫剂,具有触杀、胃毒和内吸活性;氟氯氰菊酯是一种含氟、低毒并有一定抑螨活性的合成拟除虫菊酯杀虫剂,具有触杀和胃毒作用,无内吸及熏蒸作用,杀虫谱广,击倒迅速,持效期长。为了探索1%噻虫胺·氟氯氰菊酯颗粒剂特种药肥对小麦虫害及生长影响,将1%噻虫胺·氟氯氰菊酯颗粒剂设置成不同处理进行小麦大田试验,研究其对小麦害虫的防治效果,并观察对小麦生长的影响。研究结果表明,1%噻虫胺·氟氯氰菊酯颗粒剂对小麦地下害虫防治率88.30%±0.98%,对蚜虫防治率80.51%,而且对小麦具有明显的增产作用,最高增产率9.59%。

土壤水分对不同专用小麦后期光合特性及产量的影响

采用盆栽方法,研究了土壤水分对专用小麦生育后期光合特性及产量的影响.结果表明,强筋小麦豫麦34旗叶叶绿素计读数(SPAD值)、PSⅡ活性(Fv/Fo)和PSⅡ最大光能转换效率(Fv/Fm)在土壤相对含水量60%(FC)的条件下最高,光化学猝灭系数(qP)、非光化学猝灭系数(qN)、有效电子传递速率(ETR)和传递的量子产率(Ф2)在80%FC下最高;高产小麦豫麦49旗叶SPAD值、qP、qN、ETR均以80%FC下最高,Fv/Fo、Fv/Fm和Ф2受土壤水分影响不大;弱筋小麦豫麦50,除qN在80%FC下最低外,其余光合特性参数均以80%FC的条件下最高.豫麦34产量和蛋白质含量均以60%FC最高,且产量达极显著差异;豫麦49和豫麦50籽粒蛋白质含量以40%FC最高,籽粒产量以80%FC最高,且豫麦49产质差异均达显著水平,而豫麦50的产量差异达极显著水平.

江苏淮北地区小麦品质现状、问题及专用小麦发展对策

依据小麦生产发展和市场要求的变化特点 ,对江苏淮北地区小麦生产情况及品质现状进行了分析。介绍了该地区生态气候特点 ,指出淮北发展优质中高筋专用小麦的独特优势并探讨了相应的发展对策。

不同形态氮肥对不同专用小麦叶片氮代谢及籽粒蛋白质的影响

采用盆栽方法研究了3种形态氮肥对不同专用小麦叶片氮代谢和籽粒蛋白质及其组分的影响。结果表明,强筋小麦豫麦34在酰胺态氮肥处理下,开花期叶片NR活性较强,氮素含量相对较高。籽粒中蛋白质含量较高,清蛋白含量和麦谷蛋白/醇溶蛋白比值最大,营养品质和加工品质较好;中筋小麦豫麦49在铵态氮肥作用下,籽粒蛋白质含量、清蛋白含量和麦谷蛋白/醇溶蛋白比值均最大;弱筋小麦豫麦50在铵态氮肥处理下,籽粒蛋白质含量和麦谷蛋白/醇溶蛋白比值均较低,加工品质较好;籽粒蛋白质含量与开花期叶氮量呈显著正相关,与叶片NR活性无显著关系。

新疆专用馒头、拉面、饺子小麦品种品质研究

对新疆种植和选育的 1 2 0份品种 (系 )进行全面品质测试 ,从中选出新疆目前广泛种植的 1 2个小麦品种(系 ) ,对其籽粒品质、面团流变学特性和面食制成品品质进行了全面评价 ,初步提出新疆专用饺子、馒头、拉面小麦品种品质指标。即拉面专用小麦品种品质指标为湿面筋含量大于 2 8 0 % ,稳定时间 3 0～ 6 0min,弱化度80～ 1 0 0BU、延伸性大于 1 80mm ;饺子专用小麦品种品质指标为湿面筋含量大于 3 0 0 % ,稳定时间 5～ 8min,弱化度小于 90BU、最大抗拉阻力 3 0 0～40 0EU ;馒头专用小麦品种品质指标为湿面筋含量大于 2 8 0 % ,稳定时间3 5～ 7 0min,弱化度小于 90BU ,最大抗拉阻力在 2 5 0～ 3 5 0EU ,延伸性大于 1 60mm。

氮素形态对不同专用型小麦根系及氮素利用率影响的研究

采用盆栽方法研究了 3种氮素形态对不同专用型小麦根系及氮素利用率的影响 .结果表明 ,拔节期以后 ,强筋型小麦豫麦 34在酰胺态氮处理下 ,根系生物量、根系活力、氮素利用率、氮收获指数和籽粒蛋白质含量最高 ,铵态氮处理次之 ,硝态氮处理最低 .中筋型小麦豫麦 4 9的各测定指标以铵态氮处理最高 ,其它指标在酰胺态氮和铵态氮间的趋势不同 ;弱筋型小麦豫麦 5 0在酰胺态氮处理下各项指标最高 ,而铵态氮处理下蛋白质含量最低 ,符合品种优质和专用 .

氮素形态对不同专用型小麦生育后期光合特性及穗部性状的影响

采用盆栽的方法研究了氮素形态对不同专用型小麦生育后期光合特性及穗部性状的影响 ,结果表明 :强筋型豫麦 34在硝态氮处理下 ,生育后期衰老延缓 ,旗叶保持较高的光合速率、PS 活性 ( Fv/Fo)、PS 最大光能转换效率 ( Fv/Fm)、实际光化学效率 (PS )和光化学猝灭系数 ( q P)较高 ,非光化学猝灭系数( q N)降低 ,发生光抑制的可能性较小 ,穗部性状较好 ,穗粒重最高。中筋型豫麦 49和弱筋型豫麦 5 0在酰胺态氮处理下 ,光合和荧光参数较优 ,穗粒重较高 ,有利于实现高产。

稻麦除草专用肥的研制与应用

介绍了稻麦除草专用肥的技术特征、除草增产效果、肥药互作效应，生物效应、贮存效应，以及其研制、生产和应用的关键技术，分析了它的研制与应用对社会经济发展和科技进步的意义，并阐明了其发展前景。

不同氮素形态对专用小麦苗期氨同化关键酶活性的影响

为了给专用小麦氮素利用效率的提高提供依据,采用砂基水培方法,研究了强筋小麦豫麦34、郑麦9023、郑农16,中筋小麦豫麦49和弱筋小麦豫麦50一叶一心期叶片的氨同化关键酶(谷氨酰胺合成酶,GS;谷氨酸合成酶,GOGAT)活性和不同氮素形态(NH2-N、NH4+-N和NO3--N)对四叶一心期氨同化关键酶活性的影响。结果表明,一叶一心期,不同类型专用小麦GS总活性表现为:弱筋型>中筋型>强筋型。胞质型GS(GS1)活性高于质体型GS(GS2)。不同品种间GS1活性差异小,GS2活性差异极显著,且强筋型>中筋型>弱筋型。GOGAT活性表现为弱筋型和中筋型略高于强筋型。四叶一心期,强筋型品种和弱筋型品种GS活性以硝态氮处理最高,中筋型品种以尿素处理最高。同时,GS1活性均呈下降趋势,不受品种和氮素形态的影响;GS2受品种和氮素形态影响较大。NH4+-N下,中筋型和弱筋型小麦GS2活性均提高,强筋小麦均下降;NH2-N下,中筋小麦豫麦49的GS2活性持续提升,豫麦34的GS2活性保持平衡,其他品种均降低;NO3--N下,强筋型和中筋型品种的GS2活性均下降,弱筋小麦增加。说明弱筋小麦GS2活性对氮的敏感性最强,其次是中筋型小麦,强筋小麦GS2受氮素的激活效应最弱。

2004—2009年甘肃省小麦条锈菌生理专化研究

小麦条锈菌新毒性小种的产生和发展是造成条锈病大流行及品种抗锈性丧失的主导因素。通过常规监测、致病性测定、毒谱分析等方法对2004—2009年采自甘肃省不同麦区1966份小麦条锈菌标样进行系统研究,共监测到37个小种和致病类型,基本反映了这期间甘肃省小麦条锈菌优势致病类群及生理小种的消长变化情况。除2005年‘条中32号’、‘条中33号’并列第1位外,出现频率为24.1%,2004、2006—2009年‘条中33号’均占居首位,出现频率分别为29.3%、26.2%、33.5%、37.6%、21.5%,‘条中32号’2004、2006—2008年为第2位,这2个小种总出现频率一直波动在37.5%～57.1%之间,第3、4位感小)种、‘2水00源4—1210-70’6,年20为0‘8年水为源‘1条1-中4’、‘33水’(源F.抗11)-、‘7’水、‘源水1源1-141’-,5出’及现‘频条率中在314号.1%’,～21010.76%年之为‘间水。源而1210-079’(年尤‘条Ⅱ中33’(F.抗)已上升为第2位,出现频率达18.9%,‘水源11-4’(F.抗)占据第4位,其他小种类型出现频率均比较低。Hybrid46致病类群和水源11致病类群出现总频率已由2004年的93.1%上升到2008年的99.4%。条锈菌已进入以‘条中33号’、‘条中32号’为代表的Hybrid46和水源11致病类群占优势的新阶段,‘条中32号’、‘条中33号’、VYr9、VYr3b+4b、VYrSu为危害中国小麦生产的主要流行小种及致病基因,这将对全国小麦条锈菌群体组成产生重要影响,为小麦抗锈育种及锈病治理提供科学依据。

面条及馒头专用粉的品质要求及小麦品种筛选研究

对目前在河南广泛种植的１０个小麦品种及其面粉品质和制成品馒头及面条的食用品质进行了全面的分析评价，提出了生产馒头专用粉、面条专用粉更为全面的质量指标，筛选了适合于生产馒头专用粉、面条专用粉的小麦品种。

不同形态氮素对专用型小麦花后氮代谢关键酶活性及籽粒蛋白质含量的影响

采用盆栽方法研究了氮素形态对不同专用型小麦开花后氮素同化关键酶活性及籽粒蛋白质含量的影响。结果表明:不同专用型小麦氮素同化关键酶硝酸还原酶、谷氨酰胺合成酶和谷氨酸合酶对氮素形态的反应不同。强筋小麦豫麦34施用酰胺态氮对旗叶硝酸还原酶和谷氨酰胺合成酶活性、籽粒谷氨酰胺合成酶和谷氨酸合酶活性具有明显的促进作用,最终籽粒蛋白质含量较高;中筋小麦豫麦4 9在施用铵态氮时,3种氮素同化关键酶活性均有较大增强,籽粒蛋白质含量最高;弱筋小麦豫麦5 0硝酸还原酶活性以铵态氮处理最高,而籽粒和旗叶谷氨酰胺合成酶和谷氨酸合酶活性在酰胺态氮处理下明显增强,酰胺态氮对籽粒中蛋白质含量的增加具有明显的促进作用。相关性分析表明,籽粒蛋白质含量与旗叶GS活性和籽粒GOGAT活性呈显著或极显著正相关,与旗叶NR活性和GS活性。

南阳特殊粒色小麦部分品质指标的初步分析

为了解南阳特殊粒色系列小麦品种的品质状况，以南阳灰麦、蓝麦、普通紫麦和硬质紫麦为材料，对水分、灰分、面筋、粗蛋白含量、粗纤维、粗脂肪、沉淀值、降落数值等指标进行了测定，结果表明，南阳特殊粒色小麦水分含量为8．84％～10．84％，灰分含量为1．86％～2．56％，湿面筋含量为32．6％～38．9％，粗蛋白含量为16．4％～17．8％，粗纤维含量为2．5％～3．2％，粗脂肪含量为2．0％～2．3％，沉淀值为24．40～38．67mL，而降落数值除灰麦为249s外，其余为412～490s，均达到了国家规定的优质强筋小麦相关指标，这表明南阳特殊粒色系列小麦品种在我国传统食品和功能食品上有较大的开发前景。

水分处理对不同专用型小麦籽粒灌浆特征和产量的影响

采用盆栽方法,研究了不同水分处理(田间最大持水量的40%、60%和80%)对不同专用型小麦籽粒灌浆特征和产量的影响。结果表明,在各处理下不同专用型小麦籽粒灌浆过程呈“S”型变化趋势,并用三次多项式对其进行模拟,其中,不同专用型小麦籽粒灌浆特征参数受水分处理影响不同。当水分处理为田间最大持水量的40%时,提高(早)了豫麦34籽粒各项灌浆参数,提高了豫麦49灌浆速率和粒重,提早了最大灌浆速率出现时间,提高了豫麦50灌浆持续期和粒重;60%处理下增加了豫麦49灌浆持续期,提早了豫麦50最大灌浆速率出现时间;80%时增加了豫麦49有效灌浆持续期,提高了豫麦50的灌浆速率。同时,豫麦34和豫麦50粒重与各灌浆参数均呈正相关,但差异均不显著;豫麦49粒重与灌浆持续期呈显著负相关,与平均灌浆速率呈显著正相关。豫麦34产量在60%处理下最高,且差异达显著水平;豫麦49和豫麦50产量在80%处理下最高,且差异分别达显著和极显著水平。

面条专用小麦生长发育和产量及品质的密度效应研究

不同密度对面条专用小麦品种小偃 5 0 3生长发育与产量构成有较显著的影响。分蘖发生和消亡规律、有效成穗数、次生根数、产量在不同密度条件下有较大差异 ;面条专用小麦品种小偃 5 0 3在关中平原种植 ,密度 (播种量 )以 1 0 5 kg/hm2 表现最优 ,群体、个体特征及品质性状较好。