四环素残留对黄豆芽营养品质及根际微生物的影响北大核心

【目的】探究土壤中四环素残留对土培黄豆芽的生长发育、根际微生物及营养品质的影响,为正确评估抗生素残留对蔬菜种植业的影响及制定土壤-蔬菜系统中抗生素污染防控策略提供理论基础。【方法】模拟土壤中不同四环素残留水平(0、25、50mg/kg),采用高效液相色谱(high performance liquid chromatography,HPLC)方法测定黄豆芽中的四环素残留量、理化方法测定黄豆芽的营养品质、高通量技术测定根际微生物群落。【结果】黄豆芽中四环素累积量随土壤中四环素残留量的增加而增加,累积量分布表现为根>下胚轴>子叶;四环素残留显著抑制黄豆芽的根和下胚轴的发育及其生物量、维生素C含量和抗氧化性,但增加了纤维素含量。在这些指标中维生素C含量的变化最显著,在黄豆芽生长第5天,25mg/kg和50mg/kg四环素残留组中,黄豆芽中维生素C含量较对照组分别降低41.35%和49.80%;此外,四环素残留显著影响黄豆芽根际微生物群落结构,尤其是与氮循环相关的属。其中,明显增加了不动杆菌属(Acinetobacter)和栖热菌属(Thermus)的相对丰度,减少了假黄色单胞菌属(Pseudoxanthomonas)和氢嗜菌属(Hydrogenophaga)的相对丰度。【结论】土壤中的四环素残留显著影响黄豆芽的生长发育、根际微生物群落结构以及维生素C等重要营养品质指标。     

富铁锌彩粒小麦营养品质与开发利用研究

目前与微量营养元素缺乏的有关疾病日趋严重,尤其是铁、锌、维生素A等的缺乏现状不容乐观。食品的多样化并不能有效解决铁、锌缺乏的问题;在食品中添加化学营养元素或化学强化往往存在着安全性的担忧。因此,发展富含天然铁、锌等微量营养元素的粮食新品种及其功能食品才是根本的目标。本项研究在对富铁锌彩粒小麦秦黑1号(血麦)已有分析测定结果的基础上,通过对富铁锌彩粒小麦秦黑1号(血麦)营养品质的某些理化指标的测定、对比分析,根据其特有的性状和功能可开发出相关系列产品,探讨通过传统食物安全、有效而经济地防治人类缺铁少锌病症的新途径。     

长期轮作对黄土高原旱地小麦籽粒蛋白质营养品质的影响

在长期定位试验条件下,研究了黄土高原旱地粮草(小麦-红豆草)、粮豆(小麦-豌豆)和粮饲(小麦-玉米)3种典型轮作制度对小麦籽粒蛋白质营养品质的影响.结果表明:轮作制度及茬口年限可对黄土高原旱地小麦籽粒蛋白质营养品质产生不同程度的影响.与连作小麦相比,实行小麦-红豆草轮作后,小麦籽粒蛋白质营养品质较稳定,且其籽粒蛋白质必需氨基酸含量、氨基酸评分、氨基酸比值系数、化学评分和氨基酸指数均较高,可作为黄土高原生产优质蛋白小麦的轮作制度;小麦与豌豆进行轮作,豌豆茬后1年小麦籽粒蛋白质营养品质较高,但豌豆茬后2年小麦籽粒蛋白质必需氨基酸含量较低,且多种必需氨基酸评分和化学评分低于连作小麦,必需氨基酸指数比连作小麦低12.2％,营养品质较低;虽然粮饲轮作小麦籽粒蛋白质营养品质较稳定,但其粗蛋白、必需氨基酸含量及氨基酸平衡程度均低于连作小麦.     

农产品中微量营养素含量下降原因综合分析与应对策略

近年来,我国农产品综合生产能力稳步提高,食物供需基本平衡,居民营养状况明显改善,但仍存在营养不足与营养过剩问题,尤其是因微量元素缺乏导致的“隐性饥饿”及营养性慢性疾病呈高发态势。自20世纪60年代“绿色革命”以来,农作物栽培技术和育种技术的进步使农产品产量增加,而许多研究表明,单位体积农作物产品中部分营养素,尤其是微量营养素含量有下降趋势,对农作物中微量营养素形成了“稀释效应”,导致单位体积营养素含量的下降。本文综述了国内外关于农产品微量营养素含量变化的研究进展,提出深入开展农作物营养品质分析研究、建立对主要农产品微量营养素含量监测体系、从食物生产源头入手提升农作物营养品质,为增进国民营养健康提供优质的食用农产品等政策建议。     

壳聚糖对不结球白菜营养品质和某些农艺性状的影响

0.4～0.6mg·g~(-1)(种子)和20～40μg·mL~(-1)浓度范围内壳聚糖拌种及喷叶处理都能提高不结球白菜叶片中可溶性蛋白、总氨基酸、可溶性总糖、维生素C以及总叶绿素含量,降低粗纤维含量,从而改善不结球白菜的营养品质,同时不结球白菜的单株总鲜重、株高、最大叶面积、根鲜重以及根长也有增加。     

苦瓜主要品质性状的遗传变异、相关和通径分析

对23份苦瓜材料的10个品质性状进行了研究。结果表明,苦瓜维生素C、还原糖、有机酸、果瘤、果色、果刺和苦味遗传变异系数大,遗传力高;水分含量遗传变异系数很小;风味遗传变异系数较小,遗传力低。苦瓜4个内在营养品质之间相关性小,而4个外观品质性状之间关系密切。两个味觉品质与4个内在营养品质之间相关性小,但与4个外观品质之间关系密切。内在营养品质与外观品质之间有一定关系。通径分析提出通过降低果实的苦味和有机酸含量来提高风味品质;通过水分含量和果瘤两性状的直接选择来实现对维生素C的间接选择。     

食物强化对儿童健康影响的研究进展

从铁、锌、维生素A、维生素D及多种微量营养素强化食物入手,针对儿童微量营养素缺乏、贫血、学习与认知能力等,探讨食物强化对儿童的健康影响,为今后进一步开展食物强化改善儿童营养提供基础数据。     

根际不同供氮水平对紫青菜生长和营养品质的影响

为了解根际供氮对紫青菜(Brassica campestris ssp.chinensis var.communis)生长和营养品质的影响,用不同水平的NH_4NO_3处理,对紫青菜的生理特性和营养品质进行研究。结果表明,随着供氮水平的增加,紫青菜的鲜质量、干质量、根系活力和游离氨基酸含量均呈先上升后略下降趋势;硝酸还原酶(NR)活性、叶绿素含量、NO_3~–含量和可溶性蛋白质含量均呈上升趋势;DPPH·自由基清除率、超氧化物歧化酶(SOD)活性、过氧化物酶(POD)同工酶和过氧化氢酶(CAT)同工酶活性等均提高;而花青素苷相对含量、可溶性糖含量、维生素C(Vc)含量、总酚含量和FRAP值均呈下降趋势。根际NH_4NO_3为75~300 mg L~(–1)时,紫青菜的鲜质量和干质量较低;NH_4NO_3达1200 mg L~(–1)时,其鲜质量和干质量又低于600 mg L~(–1)处理的,植株积累较多NO_3~–,导致营养品质下降,同时根际也积累NH4NO3。因此,600 mg L~(–1)的根际NH_4NO_3是适宜的氮水平,其鲜质量和干质量均最高、营养均衡、抗氧化能力强。     

中国常见食物维生素B12含量

目的：查阅国内外食物成分数据,建立中国常见食物维生素B12的含量数据表,以供国内同行做维生素B12膳食营养研究等查询和参考。方法：查找国内外期刊网和食物数据库中维生素B12含量的数据,根据中国居民的饮食习惯,整理成维生素B12的食物成分表。结果：经比较,最后收集美国农业部营养数据实验室（USDA-NDL）中113种和杨月欣主编《中国食物成分表（2004）》中9种食物维生素B12的含量。将中国居民常吃的食物按肉类、水产类、蛋奶类、其他类及其维生素B12数据分别整理成表,共收录122种中国居民常吃食物。     

池塘循环水养殖对混养草鱼食用品质的影响

为探究养殖模式对草鱼(Ctenopharyngodon idellus)鱼肉品质的影响,实验对两种养殖模式下(传统池塘养殖和池塘循环水养殖)草鱼的食用品质进行了差异比较。结果表明,循环水养殖草鱼肌肉白度和弹性高于传统池塘养殖的草鱼,且其不饱和脂肪酸和必需氨基酸含量均显著高于传统池塘养殖;其中, n-3和n-6系列不饱和脂肪酸含量显著高于传统池塘养殖草鱼,是其1.2倍,使得草鱼的肌肉品质和营养品质更佳。此外,循环水养殖可降低草鱼中带有土腥味和青草味的己醛、庚醛和1-辛烯-3-醇等物质的含量,且鲜味核苷酸(IMP)含量高于传统池塘养殖草鱼,使得草鱼的风味更鲜美、浓厚。研究表明,循环水养殖草鱼的肌肉品质和营养特性均优于传统池塘养殖。     

黍稷的名实考证及规范

黍稷是起源于中国最古老的作物,糯者为黍,粳者为稷。长期以来对黍稷的称谓一直不能统一,特别是对稷的称谓在农史界一直争论不休,难以定论。本文从黍稷的起源演化过程、细胞学和遗传学的研究、黍稷是人类最早驯化的作物、我国甲骨文和古农书的记载等方面,论证了黍稷的起源早于粟。并以此为据,进一步辩证了稷不是粟,同时指出将黍稷称为软糜和硬糜、糜黍、糜子、黍子等不同称谓的不足之处,进而认为以黍稷作为规范称谓为好。     

糜子育成品种苗期抗旱性评价与鉴定指标筛选

在年降雨量不足40 mm的敦煌市,对我国不同地区育成的56份糜子品种,采用反复干旱法进行了苗期抗旱性鉴定,利用反复干旱存活率和抗旱性综合评价值D的聚类结果筛选出一级抗旱品种4份,分别是陇糜5号、吉3、蒙粳糜1号和蒙粳糜7号;配对t测验显示:反复干旱胁迫后糜子苗高、植株含水量、单株叶面积、生物学产量分别降低了16.097 cm、0.393 g/株、10.358 cm2/株、0.075 g/株,差异达到了极显著水平,而根长、相对生长率反向增加了0.555 cm、3.213%;主成分分析中,植株含水量、生物学产量、单株叶面积3个指标在第1主成分中起决定作用(系数均≥0.881),且与两种抗旱评价参数值相关性均达到了极显著水平,因此,确定植株含水量、生物学产量、单株叶面积作为糜子苗期抗旱性鉴定1级指标。     

Selection and evaluation of reference genes for quantitative gene expression analysis in broomcorn millet (<Emphasis Type="Italic">Panicum miliaceum</Emphasis> L.)

The appropriate reference genes are crucial for normalization of the target gene expression in qRT-PCR analysis. Broomcorn millet (Panicum miliaceum L.) is one of the most important crops in drought areas worldwide, while the systematical investigation and evaluation of reference genes has not been investigated in this species up to now. Here, 9 commonly used reference genes were selected to detect their expressional stability in different tissues and under different stresses in broomcorn millet. ΔC_t, BestKeeper, NormFinder and GeNorm approaches were used to evaluate the potentiality of these candidate genes as the reference gene in broomcorn millet. Taken together, results found that 18S and GAPDH were the suitable reference genes for gene expression normalization in different tissues and under stress treatment in broomcorn millet. This was the first study to investigate the reference genes for qRT-PCR analysis in broomcorn millet, which will facilitate the gene expression studies and also accelerate revealing the molecular mechanism of well-adapted extreme climatic conditions.     

城子崖遗址植硅体反映的生业经济模式

龙山文化是中国史前社会形态演进的关键阶段,亦是农业强化生产的关键时期。城子崖遗址是鲁北平原史前区域中心城址,其生业经济研究有助于理解该地区社会复杂化及文明进程。本文对城子崖遗址龙山时期不同遗迹单位的15份土样进行了系统的植硅体分析,尝试探讨了该遗址龙山文化时期的社会发展和生业经济水平、农作物生产和加工方式、野生植物资源利用情况以及各遗迹堆积及其所反映的人类行为活动信息。结果显示,该遗址龙山文化时期已形成粟、黍、稻、小麦、稗(可能)的农作物组合方式;同时,广泛采集利用聚落周边的自然植物资源,是农业与采集业并存发展的生业经济模式。先民在作物栽培中进行了锄草、灌溉等较为精细的管理,其中,黍较粟更具耐旱抗病特性,加上田间管理需求较低而被优先选择栽培。先民在收获作物时,采用类似割穗、掐穗等方法以减少作物茎秆及杂草混入,随后在户外进行小规模地脱壳、扬场工作。此外,根据灰坑中植硅体的组合特征可将其分为生活垃圾、谷物加工、蓄水淘米三个类型,水井和墓葬内的植硅体则分别与生活环境和丧葬环节等信息相关。     

山西省黍稷种质资源抗倒性鉴定及相关形态特征研究

黍稷种质的倒伏是造成黍稷减产的一大要素,如何防止黍稷的倒伏,筛选和培育抗倒的种质是解决黍稷倒伏最根本和有效的方法。通过对山西省的1192份黍稷种质资源进行抗倒性鉴定,筛选出71份高抗倒的种质。同时对高抗倒种质和不抗倒种质茎、根的形态特征进行了比较研究,证明黍稷种质的抗倒性与茎、根的形态特征有密切关系,高抗倒种质在茎、根形态特征上所占的优势是形成高抗倒的重要原因。     

Early Mixed Farming of Millet and Rice 7800 Years Ago in the Middle Yellow River Region,China

The Peiligang Culture (9000-7000 cal. yr BP) in the Middle Yellow River region, North China, has long been considered representative of millet farming. It is still unclear, however, if broomcorn millet or foxtail millet was the first species domesticated during the Peiligang Culture. Furthermore, it is also unknown whether millet was cultivated singly or together with rice at the same period. In this study, phytolith analysis of samples from the Tanghu archaeological site reveals early crop information in the Middle Yellow River region, China. Our results show that broomcorn millet was the early dry farming species in the Peiligang Culture at 7800 cal. yr BP, while rice cultivation took place from 7800 to 4500 cal. yr BP. Our data provide new evidence of broomcorn millet and rice mixed farming at 7800 cal. yr BP in the Middle Yellow River region, which has implications for understanding the domestication process of the two crops, and the formation and continuance of the Ancient Yellow River Civilization.     

Elevated CO<Subscript>2</Subscript> increased photosynthesis and yield without decreasing stomatal conductance in broomcorn millet

Broomcorn millet (Panicum miliaceum L.) is one of the important C₄ crops in the semiarid regions of northern China. It is a close relative of biofuel crop switchgrass. Yet, there is no information on how these crops might respond to a climate change in China. In order to gain insight into such a response, we studied the effect of elevated CO₂ concentration (EC) on broomcorn millet. The changes in leaf photosynthesis, chlorophyll fluorescence, morphological parameters, biomass and yield in response to EC [i.e., + 200 µmol(CO₂) mol^?1] over two years were determined at the open-top chamber (OTC) experimental facility in north China. EC increased net photosynthetic rate, stomatal conductance, intercellular CO₂ concentration, transpiration rate, instantaneous transpiration efficiency, effective quantum yield of PSII photochemistry, and photochemical quenching coefficient of fully expanded flag leaves. Maximal quantum yield of PSII photochemistry declined under EC in 2013, but was not affected in 2014. EC significantly decreased intrinsic efficiency of PSII in 2013, but increased in 2014. Leaf nonphotochemical quenching decreased under EC both in 2013 and 2014. EC significantly enhanced the aboveground biomass and yield by average of 31.4 and 25.5% in both years, respectively. The increased yield of broomcorn millet under EC occurred due to the enhanced number of grains per plant. We concluded that photosynthesis of broomcorn millets was improved through increased stomatal conductance in leaves under EC, which led to an increase in height, stem diameter, aboveground biomass, and yield. This study extends our understanding of the response of this ancient C₄ crop to elevated CO₂ concentration.     

Genetic diversity and phylogeography of broomcorn millet (Panicum miliaceum L.) across Eurasia

Broomcorn millet (Panicum miliaceum L.) is one of the world's oldest cultivated cereals, with several lines of recent evidence indicating that it was grown in northern China from at least 10,000 cal bp. Additionally, a cluster of archaeobotanical records of P. miliaceum dated to at least 7000 cal bp exists in eastern Europe. These two centres of early records could either represent independent domestications or cross-continental movement of this cereal that would predate that of any other crop by some 2 millennia. Here, we analysed genetic diversity among 98 landrace accessions from across Eurasia using 16 microsatellite loci, to explore phylogeographic structure in the Old World range of this historically important crop. The major genetic split in the data divided the accessions into an eastern and a western grouping with an approximate boundary in northwestern China. A substantial number of accessions belonging to the 'western' genetic group were also found in northeastern China. Further resolution subdivided the western and eastern genepools into 2 and 4 clusters respectively, each showing clear geographic patterning. The genetic data are consistent with both the single and multiple domestication centre hypotheses and add specific detail to what these hypotheses would entail regarding the spread of broomcorn millet. Discrepancies exist between the predictions from the genetic data and the current archaeobotanical record, highlighting priorities for investigation into early farming in Central Asia.     

Genetic diversity among Chinese landraces and cultivars of broomcorn millet (Panicum miliaceum) revealed by the polymerase chain reaction

Broomcorn millet is widely grown in Asia and Europe. This cereal is a very efficient user of soil water and is particularly adapted to sandy, dry soils and dry weather conditions. As one of the oldest crops in ancient China, it has played an important role in the formation and development of Chinese civilisation and culture. It is still one of the major grain crops in northern China where harsh climate conditions prevail. The genetic diversity and relationships among 32 accessions of broomcorn millet (Panicum miliaceum) from the major areas for broomcorn millet growing in China, in addition to six Indian landraces, were evaluated by PCR analysis with six introns splice junction or long random primers. A total of 56 DNA fragments across all materials were scored; among them, 42 (75%) were polymorphic as indicated by their absence in at least 1 of the 38 accessions tested, indicating a high variation at the DNA level among those accessions. Pair‐wise genetic dissimilarity (Dice’s coefficient) ranged from 0.0286 to 0.4737. The clustering largely corroborated with the geographical location of the origins of those accessions. The data indicated that the glutinous/non‐glutinous trait is also associated with the clustering. Majorities of the landraces from Yulin of Shaanxi were clustered into five groups, and majorities of the cultivars or breeding lines from Inner Mongolia were clustered into three groups. The results of this study suggest that the landraces from Yulin of Shaanxi were extensively utilised in the breeding programme of Shanxi, whereas this feature was not observed in the breeding programme of Inner Mongolia.