不同花生品种秸秆与籽仁营养成分综合分析

花生是一种经济效益高的大田作物,为综合利用花生秸秆和籽仁的营养价值提高经济效益等,本研究以26个花生品种为材料,通过分析秸秆中的粗蛋白、粗脂肪、粗纤维、粗灰分、钙、磷、中性洗涤纤维和酸性洗涤纤维等指标,利用SPSS软件通过主成分分析法进行营养价值评价;同时,用近红外分析仪测定了其籽仁的脂肪、蛋白质、油酸、亚油酸等营养指...     

钙对镉胁迫下花生生理特性、产量和品质的影响

通过盆栽试验,选用高油品种豫花15和高蛋白品种XB023,研究了不同浓度钙对镉胁迫下不同类型花生品种营养生长、叶片叶绿素含量、光合速率、保护酶活性等生理特性及产量和品质的影响.结果表明： 施钙可以缓解镉胁迫对花生植株主茎高和侧枝长的抑制作用,增加花生植株干物质量,提高叶片叶绿素含量和光合速率,提高叶片超氧化物歧化酶（SOD）、过氧化氢酶（CAT）、过氧化物酶（POD）活性和可溶性蛋白质含量,降低丙二醛（MDA）的积累量,减轻镉胁迫对花生叶片的伤害;施钙可以缓解镉胁迫对花生的减产作用,增加花生荚果和籽仁产量,其增产的主要原因是增加了单株结荚数和出仁率;施钙可以促使籽仁中可溶性糖向粗脂肪和蛋白质转化,增加籽仁中脂肪和蛋白质含量,改善镉胁迫下花生籽仁品质.施钙可以降低两花生品种籽仁中镉含量,对豫花15的降低效果好于XB023.     

钙对镉胁迫下花生生理特性、产量和品质的影响水

通过盆栽试验,选用高油品种豫花15和高蛋白品种XB023,研究了不同浓度钙对镉胁迫下不同类型花生品种营养生长、叶片叶绿素含量、光合速率、保护酶活性等生理特性及产量和品质的影响.结果表明:施钙可以缓解镉胁迫对花生植株主茎高和侧枝长的抑制作用,增加花生植株干物质量,提高叶片叶绿素含量和光合速率,提高叶片超氧化物歧化酶( SOD)、过氧化氢酶(CAT)、过氧化物酶(POD)活性和可溶性蛋白质含量,降低丙二醛(MDA)的积累量,减轻镉胁迫对花生叶片的伤害;施钙可以缓解镉胁迫对花生的减产作用,增加花生荚果和籽仁产量,其增产的主要原因是增加了单株结荚数和出仁率;施钙可以促使籽仁中可溶性糖向粗脂肪和蛋白质转化,增加籽仁中脂肪和蛋白质含量,改善镉胁迫下花生籽仁品质.施钙可以降低两花生品种籽仁中镉含量,对豫花15的降低效果好于XB023.     

光照强度对砂仁生长和干物质积累的影响

栽在实验地上的药用植物阳春砂仁(Amomum villosum),采用人工整株结合竹篱笆遮荫造成16％、38％和74％的自然光照强度条件,定期定株测定各种指标,结果表明: 1.38％自然光强下,砂仁的株高、叶数、茎和球茎粗度都比16％和74％自然光强下的大,16％自然光强下的最小(图1)。     

外源GA3和ABA对红肉脐橙果实品质的影响

以生长一致的红肉脐橙成年植株为试材,研究了果实转色前外源GA₃和ABA处理对果实品质的影响。结果表明,外源GA₃处理提高了果皮亮度,但降低了果皮红色度、黄色度和单果重;ABA处理提高了果皮红色度,但降低了果皮亮度;GA₃100mg/L处理虽然极显著降低了果皮厚度,极显著提高了果皮亮度、可溶性固形物和VitC含量,但同时极显著降低了果皮红色度、糖酸比,并极显著提高了果实含酸量;外源ABA处理还极显著降低了果实可食率、出汁率和VitC含量。因此,在果实转色前用外源GA₃和ABA处理红肉脐橙果实均不利于其综合品质的提高。     

几种外源激素对杜仲剥皮再生的影响

杜仲剥皮后,在暴露表面,分别涂以适当浓度的乙烯利、2,4-D、萘乙酸(NAA)和赤霉素(GA),以及 NAA GA 等植物激素,可看到不同的反应。发现用2,4-D、GA 和 NAA处理的,木栓形成层和维管形成层的发生都早于对照,而用乙烯利处理的,只是木栓形成层的发生提早。只有用 NAA 处理的,木栓形成层和维管形成层的发生都与对照相似。     

外源ABA和GA3对红肉脐橙果皮色素含量的影响

测定红肉脐橙果实发育期间和果实转色期间施用外源ABA和GA3的果皮中叶绿素和总类胡萝卜素含量变化的结果表明:红肉脐橙果皮中叶绿素总量于9月20日出现最大值,为0.1469 mg·g-1(FW);类胡萝卜素总量于12月21日达到最大值,为0.0321 mg·g-1(FW);转色期用外源ABA处理后果皮叶绿素降解加速,而类胡萝卜素积累受抑;转色期施用GA3并不能延缓果皮叶绿素的降解,但能抑制类胡萝卜素的积累,因而阻碍了果皮类胡萝卜素的合成.     

响应面法对超临界CO_2萃取茶籽仁油的工艺优化

为了保证茶籽油的原生态品质,研究了茶籽仁油的超临界CO2萃取技术,并运用响应面法对其萃取压力、温度和时间等工艺条件进行了优化分析,得到的最佳工艺条件是在33 MPa压力和43℃温度下连续萃取时间2 h。此条件下的萃取得率为39.6%、出油效率达86.5%,所得茶籽油只需简单的脱酸处理即达到国标GB11765—2003规定的压榨一级茶籽油水平。     

外源ABA对楸树幼苗NaCl胁迫的缓解效应及其生长生理响应特征

以2年生楸树(苏楸1号和008-1)扦插苗为材料,采用盆栽试验法,分析盐胁迫(0.5%NaCl)处理下楸树幼苗生长、生理的变化,并分析不同浓度外源ABA(15、25、35 mg/L)对盐胁迫(30 d)楸树幼苗的缓解效应及其生理生化特性,以探索重度盐胁迫下适合楸树幼苗生长的适宜外源ABA浓度,为增强盐碱地楸树的耐盐性、提高盐碱地的利用提供理论依据。结果显示:(1)0.5%NaCl胁迫下,两品种楸树幼苗叶片表现出不同程度的盐害症状,且‘苏楸1号’叶片盐害症状较‘008-1’严重;随胁迫时间延长,两品种楸树幼苗的相对电导率(REC)均呈先上升后下降的变化趋势,叶绿素(Chl)、相对含水量(RWC)均呈降低趋势,可溶性糖(SS)、可溶性蛋白(SP)、脯氨酸(Pro)以及超氧化物歧化酶(SOD)活性均呈先上升后下降趋势,但‘008-1’的REC显著低于‘苏楸1号’,Chl、RWC、SS、SP、Pro、SOD均显著高于苏楸1号,表明‘008-1’的耐盐性较‘苏楸1号’更强。(2)喷施外源ABA使得盐胁迫下‘008-1’楸树的苗高显著增加、新叶提前萌发,表明外源ABA在一定程度上能够缓解盐胁迫对楸树生长的影响;喷施外源ABA降低了盐胁迫下‘008-1’楸树幼苗叶片的REC,提高了Chl、RWC、SS、SP、Pro、SOD、过氧化物酶(POD)以及过氧化氢酶(CAT)活性,促进了内源激素生长素(IAA)、脱落酸(ABA)、赤霉素(GA3)以及玉米素核苷(ZR)的积累。研究表明,楸树品种‘008-1’的耐盐性更强;外源喷施适宜浓度ABA能够缓解盐胁迫对楸树幼苗生长的影响,降低幼苗叶片细胞膜透性,促进幼苗渗透调节物质的积累,增强渗透调节能力,并提高盐胁迫下幼苗的抗氧化酶活性,促进植物对内源激素含量的调节,从而提高楸树的耐盐性,且以25 mg/L ABA处理的效果最好。     

保水剂对露地栽培花生产量和品质的影响

该研究设置覆膜和露地施用不同量保水剂处理(75kg·km~(-2)、150kg·km~(-2)、225kg·km~(-2)),以露地栽培为对照,研究不同保水剂用量和覆膜对花生荚果成熟饱满度、产量和营养品质的影响,为旱地花生合理使用保水剂及开发新型节水栽培技术提供理论依据。结果显示:(1)保水剂施用量在75～225kg·hm~(-2),花生荚果产量较对照提高3.48%～16.01%,且随施用量增加呈先增加后降低的趋势,其中150kg·hm~(-2)保水剂处理的花生产量最高,但与覆膜处理差异不显著。(2)覆膜显著增加了花生成熟饱满度,饱果率和饱仁率分别比对照增加14.62%和14.11%;成熟饱满度随保水剂用量增加呈先增加后降低的趋势,且150kg·hm~(-2)保水剂处理最高,饱果率和饱仁率分别比对照增加10.99%和15.99%。(3)覆膜和保水剂均增加了花生脂肪、油酸含量和油酸/亚油酸(O/L)比值,普通样品(能够形成产量的籽仁)的增幅显著大于标准样品(饱满一致的籽仁),且150kg·hm~(-2)处理的普通样品分别比露地栽培提高了9.66%、12.27%和23.08%,但与覆膜处理差异不显著。研究表明,施用150kg·hm~(-2)保水剂可显著提高花生成熟饱满度、产量和品质,主要通过提高普通样品的营养成分来改善品质,与覆膜效果基本一致。     

Genetic Diversity of Rhizobia Nodulating Arachis hypogaea L. in Central Argentinean Soils

The diversity of thirty-nine isolates from peanut plants growing at fourteen different sites in the Argentinean province of Córdoba was examined by rep-PCR, RFLP of PCR amplified 16S rRNA gene and complete sequencing of ribosomal genes. The genomic analysis of the peanut isolates indicated that each group encompasses heterogeneity among their members, having distinct rep fingerprints and 16S rRNA alleles. Complete sequencing of 16S rRNA demonstrated that native peanut rhizobia from Córdoba soils representative of the slow and fast growers are phylogenetically related to Bradyrhizobium japonicum and Bradyrhizobium sp. and Rhizobium giardinii and R. tropici species, respectively. The nodC gene sequence analysis showed phylogenetic similarity between fast grower peanut symbionts and Rhizobium tropici.     

盐胁迫对花生种子际细菌菌群结构的调控

盐胁迫影响种子萌发和植株形态建成,提高盐胁迫下花生种子萌发速率和成苗健苗率是盐碱地花生高产高效栽培的重要环节之一,花生种子际土壤细菌菌群结构与种子萌发关系密切。为揭示盐胁迫对花生种子际微生物菌群结构的影响,以耐盐花生品种（花育25号,HY25）和盐敏感花生品种（花育20号,HY20）为试验材料,采用盆栽实验和高通量测序技术,研究不同耐盐性品种种子萌发吸胀吸水阶段种子际细菌菌群结构的变化。结果表明,种子际土壤细菌群落以变形菌门（Proteobacteria）、厚壁菌门（Firmicutes）、放线菌门（Actinobacteria）、拟杆菌门（Bacteroidetes）及芽单胞菌门（Gemmatimonadetes）等为优势菌门,盐胁迫处理可以不同程度的提高厚壁菌门和放线菌门的相对丰度。在属水平上,盐胁迫可以增加有益菌芽胞杆菌属（Bacillus）的相对丰度,增强盐胁迫下种子存活能力,提高萌发率。细菌功能预测结果显示,信号转导机制、免疫系统和防御机制等相关功能在盐胁迫处理后明显增强,可能是促进花生萌发并增强花生胁迫应答的重要原因之一。种子际优势菌群的鉴定及机理分析可为通过改良种子际土壤微生物环境,提高花生耐盐性和出苗健苗率提供重要的借鉴意义,同时为开发利用盐碱地提供参考。     

Repetitive somatic embryogenesis in peanut cotyledon cultures by continual exposure to 2,4-d

Somatic embryos from immature cotyledons in peanut (Arachis hypogaea) were initiated on media supplemented with 2,4-dichlorophenoxyacetic acid (2,4-d). Over 90% primary embryogenesis and 41–46% repetitive embryogenesis were obtained 12 weeks after initiation by maintaining embryogenic cultures on medium containing 20 mg 1^-1 2,4-d. Maintenance of cultures on medium with 30 or 40 mg I^-1 2,4-d resulted in lower primary and secondary embryogenesis, and proliferation of nonembryogenic callus. Transfer of embryogenic cultures to a secondary medium with 10 or 20 mg I^-1 2,4-d significantly enhanced secondary embryogenesis compared to basal medium without the growth regulator. The use of Murashige & Skoog versus Finer's media had no significant effect on embryogenesis (85–95%), repetitive embryogenesis (11–37%) or mean embryo number. Secondary embryogenesis was also maintained for over one year by repeated subculture of isolated somatic embryos on medium with 20 mg I^-1 2,4-d.Abbreviations B5 Gamborg et al. medium (Gamborg et al. 1968) - 2,4-d 2,4-dichlorophenoxyacetic acid - FN Finer & Nagasawa medium (Finer & Nagasawa 1968) - MS Murashige & Skoog medium (Murashige & Skoog 1962)     

The effect of mineral elements on the maturity of peanut seed

A greenhouse study was conducted to determine the effect, of certain nutrient elements, on the maturing peanut. Peanut fruits were grown in fruiting zones, which contained a complete nutrient medium, for 15 days. Individual plants were then cultured to maturity whilst allowing the fruit to develop in a nutrient medium which contained the complete nutrient (N, P, K, Ca, Mg and B) from which one element had been excluded. Except in the ‘minus B’ treatment, the basal seed weighed more than 500 mg. In the head seed the “minus Ca” treatment produced the lowest number of seeds which weighed 500 mg or more and P, K and B deficiencies produced not quite such low numbers of seeds above 500 mg. When basal and head seeds were grouped into 3 grades of fresh weights, those from Ca and K deficiencies produced smaller dry weights in seeds harvested on the 80th day. Seeds from a Ca deficient medium had a smaller lipid content and an increased sugar content. The starch content of the seed was decreased by K deficiency.     

不同抗旱性花生品种的根系形态发育及其对干旱胁迫的响应

为明确不同抗旱性花生品种的根系形态发育特征,探讨其根系形态发育特征对不同土壤水分状况的响应机制,在防雨棚旱池内进行土柱栽培试验,研究抗旱型品种“花育22号”、“唐科8号”和干旱敏感型品种“花育23号”3个不同抗旱性花生品种根系形态发育特征及其对干旱胁迫的响应.结果表明:抗旱型品种根系较发达,具有较大的根系生物量、总根长、总根系表面积.干旱胁迫使抗旱型品种根系总表面积和体积增加,而干旱敏感型品种则相反.干旱胁迫显著增加抗旱型品种“花育22号”20 cm以下土层内根长密度分布比例及根系表面积和体积,但“唐科8号”相应根系性状仅在20-40 cm土层内增加;干旱胁迫使干旱敏感型品种“花育23号”40 cm以下土层内各根系性状升高,但未达显著水平且其深层土壤内各根系性状增加幅度小于“花育22号”.花生根系总长、总表面积及0-20 cm土层内根系性状与产量间呈显著或极显著正相关.土壤水分亏缺条件下,花生主要通过增加深层土壤内根长、根系表面积和体积等形态特性,优化空间分布构型,以调节植株对水分的利用.     

Inadequate iron supply and high bicarbonate impair the symbiosis of peanuts (Arachis hypogaea L.) with different Bradyrhizobium strains

In the present study, we examined the effects of iron deficiency in an acid solution and in an alkaline solution containing bicarbonate on the growth and nodulation of peanuts inoculated with different bradyrhizobial strains or supplied with fertilizer nitrogen.Inadequate iron supply in acid solution decreased the number of nodule initials, nodule number and nodule mass. Alleviating the iron deficiency increased acetylene reduction but not bacteroid numbers in nodules. Nitrogen concentrations in shoots of inoculated plants increased as iron concentrations in solution increased when determined at day 30 but not at day 50. Higher iron concentrations in solution were required for maximum growth of plants reliant on symbiotic nitrogen fixation than for those receiving fertilizer nitrogen.Adding bicarbonate to the solution with 7.5 M Fe markedly depressed nodule formation. This effect was much more severe than that of inadequate iron supply alone. Bicarbonate also decreased nitrogenase activity but did not decrease bacteroid concentrations in nodules.Both NC92 and TAL1000 nodulated peanuts poorly when bicarbonate was present. However, an interaction between iron concentrations in acid solutions and Bradyrhizobium strains on nodulation of peanuts was observed. Alleviating iron deficiency increased the number of nodule initials and nodules to a much greater extent for plants inoculated with TAL1000 than for plants inoculated with NC92.     

不同生育期花生渗透调节物质含量和抗氧化酶活性对土壤水分的响应

通过防雨棚池栽试验,以不同花生品种为试材,研究了不同生育时期非充分灌溉对花生品种各生育期叶片膜脂过氧化、渗透调节物质含量和抗氧化酶活性的影响.结果表明,苗期和花针期灌水,叶片抗氧化酶活性、渗透调节物质和丙二醛(MDA)含量均有不同程度的降低.随生育期推进和土壤水分降低,其活性升高,但升幅因品种、抗氧化酶和渗透调节物质类型有异,两品种叶片超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、可溶性糖(SS)、可溶性蛋白质(Pr)、游离氨基酸(AA)和脯氨酸(Pro)含量均以对水分最为敏感的花针期升幅较大,且花育27号的SOD、CAT、Pr和AA的升幅大于花育20号;结荚期灌水后,各抗氧化酶和渗透调节物质未表现降低.两品种全生育期灌水处理与苗期灌水处理间的抗氧化酶活性、渗透调节物质和MDA含量差异均不显著.水分胁迫初期,抗氧化酶活性升高,但随胁迫时间延长其活性明显降低;而渗透调节物质和MDA含量显著高于各生育期灌水处理.POD活性变化对灌水处理响应较弱,SOD和CAT是花生适应土壤水逆境的主要保护酶.灌水处理对花生叶片抗氧化及渗透调节能力表现为花针期＞结荚期＞苗期,各渗透物质调节能力依次表现为脯氨酸、可溶性蛋白质＞可溶性糖＞游离氨基酸.     

Tolerance of peanut to excess boron

The tolerance ofArachis hypogaea cv. Shulamit to high concentrations of B in nutrient solution, [B]o, was determined under greenhouse conditions that promoted the production of vegetative dry matter. Plants grew in large containers in which a root zone of nutrient solution was separated from a pod zone of soil. Grain yield was reduced at a calculated [B]o-threshold of 0.29 mM, which was associated with a concentration of B in the vegetative shoots that was approximately four times larger than the control. Symptoms of B toxicity occurred on leaves as young as the third unfolded leaf from the shoot apex before the [B]o-threshold. Excess B caused a relatively larger decrease in pod number than in vegetative shoot weight, which was high in all treatments (78 g d.wt/plant) and it did not decrease single grain weight. It was suggested that the tolerance of grain development to excess B was a consequence of the high ratio of vegetative matter to pod number.