Effect of Nitrogen Fertilization on Growth and Photosynthetic Nitrogen use Efficiency in Tobacco （Nicotiana tabacum L.）

Soil pot experiments were conducted in a greenhouse to examine the effects of different nitrogen （N） supply （low, 0.15 g N/kg; middle, 0.3 g N/kg; and high, 0.6 g N/kg dry soil） on the growth, photosynthetic characteristics and photosynthetic nitrogen use efficiency （PNUE） of tobacco seedlings （Nicotiana tabacum L. Yunyan 87）. The results showed middle and high N significantly enhanced seedling growth including plant stem and leaf dry weight comparing with low N. High N supply could lead to a dramatic increase in the photosynthetic capacity of tobacco seedlings under low N conditions. There were significant differences in leaf N content between nitrogen treatments. About a 76% increase in leafN content in plants fed by high N resulted in about 43% increase in Rubisco content and 27% in net photosynthetic rate. The non-corresponding increases in photosynthetic rate in tobacco seedlings fed by high N relative to low N resulted from Rubisco activity and/or carboxylation efficiency （CE）. These results indicated that tobacco seedlings under high N application can maintain high net photosynthetic rate （Pn） but lower PNUE, will finally result in a decline in N use efficiency.

以单细胞压片技术观察烟草(Nicotiana tabacum L.)合子细胞器DNA的分布

通过实验建立了单个合子的压片技术,尝试了将染色与固定分开或同时进行的两种压片方法,两种方法均可以用于不同发育阶段合子细胞器DNA分布的检测,但二者各具特色。同时也利用共聚焦激光扫描显微镜观察了烟草(NicotianatabacumL.)合子细胞器的分布,并与单细胞压片技术进行了比较。实验表明它们各有其优越性。

Changes of Polyphenols in Tobacco Leaves During the Flue-Curing Process and Correlation Analysis on Some Chemical Components

The changes of polyphenols in tobacco leaves during the flue-curing process and correlation analysis on some chemical components were studied. Leaf samples were taken from different tobacco-producing regions in Henan Province, China. The results indicated that the content of total phenols increased during the first 24 h of curing, and then decreased. It reached the lowest value at 72 h of curing and increased rapidly after that. The content of chlorogenic acid also increased during 0-24 h of curing. But the lowest point occurred at 60 or 72 h of curing and then it increased till the end of the curing process. The content of mtin generally increased with curing, and showed little fluctuations. The changes of PPO and POD activity were the opposite. Rutin was found to have a highly significant positive correlation with total sugar （r=0.822^＊＊）, but a highly significant negative correlation with starch, nicotine, and protein.

Nonphytotoxic copper oxide nanoparticles are powerful“nanoweapons”that trigger resistance in tobacco against the soil-borne fungal pathogen Phytophthora nicotianae

Investigations into the potential application of nanoparticles acting as nanofungicides in sustainable agriculture are rapidly expanding due to the high antimicrobial properties of these compounds,which do not risk inducing pathogen resistance to fungicides.A detailed understanding of the impact of copper oxide nanoparticles(CuO NPs)on soil-borne phytopathogenic fungi is yet to be obtained.This study aimed to explore the in vitro antifungal activity and control efficacy of CuO NPs applied via irrigation with respect to tobacco black shank(TBS)disease caused by Phytophthora nicotianae.The results revealed that CuO NPs greatly interfered with the reproductive growth process of this fungus,repressing hyphal growth,spore germination and sporangium production.Additionally,morphological damage,intracellular ROS accumulation and increased SOD enzyme activity in hyphae were the antifungicidal mechanisms of these NPs.In pot experiments,treatment with CuO NPs at 100 mg L^(–1)significantly suppressed TBS development,compared with the effect on control plants,and the control efficacy reached 33.69%without inducing phytotoxicity.Exposure to CuO NPs significantly activated a series of defense enzymes,and resistance genes in tobacco can further explain the mechanisms by which CuO NPs suppressed fungal infection.The Cu content in both the leaves and roots of P.nicotianae-infested plants increased by 50.03 and 27.25%,respectively,after treatment with 100 mg L^(–1)CuO NPs,compared with that of healthy plants.In particular,a higher Cu content was observed in infected roots than in leaves.Therefore,this study showed the potential of CuO NPs applied as nanofungicides and as nanoinducers of fungus resistance genes for the management of TBS through inhibition of pathogen infection and stimulation of plant defenses.

Quality Characteristics of Tobacco Leaves with Different Aromatic Styles from Guizhou Province,China

The relationships between chemical components and quality indexes were studied in the tobacco leaves with different aromatic styles. A total of 16 chemical components, 4 quality indexes, and 6 smoking quality indexes from 366 tobacco leaf samples with 4 different types of aroma from Guizhou Province, China, were subjected to principal component analysis and stepwise regression analysis. The tobacco leaves with different types of aroma showed remarkable difference in the contents of chemical components, quality indexes, and smoking quality indexes. The first principal factors （carbohydrates and nitrogen-containing compounds） of the chemical composition of the leaf were similar among different types of aroma, which showed that the quality of the leaf was mainly influenced by carbohydrates and nitrogen-containing compounds and their ratios. The factors for the second through the seventh principal components varied largely among varioUs aromatic types, suggesting the contribution of other chemical components to the leaf quality. In addition, the smoking quality of four different aromatic leaves showed significant correlation with the different chemical components. The quality of tobacco leaves with different types of aroma was influenced by multiple factors, especially ecological conditions and culture techniques, which may provide guidance for directive cultivation of high-quality tobacco leaves.

烤烟6个农艺性状的QTL定位(英文)

由于烟草的分子标记开发和遗传图谱构建十分困难,迄今烟草中有关数量性状基因座（QTL）的定位研究仍非常有限。本研究利用一个由207个株系组成的烤烟DH群体及基于该群体所构建的含有24个连锁群、611个SSR标记,总长为1882.1cM的遗传图谱,采用复合区间作图方法,对株高（PH）、茎围（SG）、节距（IL）、叶片数（LN）、最大腰叶长（LWL）和最大腰叶宽（WWL）6个与叶片产量有关的农艺性状进行QTL定位分析。共检测到69个QTL,大部分QTL的效应值较小,仅有4个具有较大的效应值,可解释大约15%~20%的表型变异。6个性状之间大多彼此相关。与此相符,在基因组中发现存在许多小区域,每个区域包含2个或2个以上紧密连锁的不同性状的QTL。

基于电子鼻技术的烟丝受虫害前后挥发性成分差异分析

针对烟草(Nicotiana tabacum L.)中烟草甲(Lasioderma serricorne)检测技术不完善,检测结果不可靠等问题,以电子鼻检测结果为基础,通过主成分分析法(PCA)和Loading分析法对数据结果进行分析。结果表明,4种烟丝的主要挥发物质为硫类物质、短链烷烃、醇醚醛酮、小分子氮氧化合物等,虫样及性激素的主要挥发性物质是小分子氮氧化合物、硫化物。受虫害后烟丝中硫类化合物明显降低,在对无机硫化物敏感的传感器(W1W)中浓香虫害烟丝的响应值比浓香烟丝下降48.33%,清香虫害烟丝比清香烟丝下降59.48%;在对有机硫化物敏感的传感器(W2W)中浓香虫害烟丝的响应值比浓香烟丝下降35.72%,清香虫害烟丝比清香烟丝下降48.55%。PCA结果显示,4种烟丝样品表现出非常好的区分度,雌虫、雄虫样品在占比高达99.70%的主成分1上几乎没有差别。Loading分析结果显示,烟丝样品中气味主要成分为硫类物质,烟草甲虫样气味主要成分是小分子氮氧化物,其次为硫类物质。

Genotypic Difference of Plants in K-Enrichment Capability and the Distribution of K in Plant Rhizosphere

Plant genotypic difference of pot assiu m-enr ich ment capab ility and p ot assi um (K ) d ist rib ut ion at root-soil ioterface of different plant genotypes were studied by using seven plant species and eight varieties oftobacco (Nicotiana tabacum L.). The results indicated that K enrichment capability was: Ethiopian guizotia(Guizotia abyssinica Cass.)>feather cockscomb (Celosia arpentea L.)>alligator alternanthera (Alternantheraphiloxeroides (Mart.) Griseb.)> tobacco>sesbania (Sesbania cannabina (Retz.) Pers.)>wheat (Thticumaestivum L.)>broadbean (Vicia faba L.). Ethiopian guizotia showed very high K-enrichment capability atdifferent soil K levels, and the K content in its dry matter was over 110 mg kg-1 when soil K was fullysupplied, and about 60 mg kg-1 when no K fertilizer was applied. For alligator alternanthera, the capabilityto accumulate K was closely related with its growth medium. When it was grown on soils, both the K contentand K uptake rate of the plant were similar to those of tobacco. Evident K dep1etion was observed in therhizosphere of all plant species, and the depletion rate was related to the capability of K enrichment of plant.

不同有机酸对烤烟品质和产值的影响

采用大田试验研究了苹果酸、油酸和腐殖酸对烤烟品质指标及产值效果的影响。结果表明,3种有机酸能明显提高烟叶中P素、K素、总糖、还原糖含量、钾氯比和糖碱比值,以及糠醛、苯甲醛、茄酮、巨豆三烯酮和新植二烯等主要香气成分的含量,改善烟草的香吃味。同时不同程度地降低烟叶中N素、淀粉、蛋白质、烟碱和氯离子的含量,从而协调和平衡烟叶中的化学成分,改善烟叶的品质。其中,苹果酸的效果最佳,腐殖酸和油酸次之。苹果酸可明显提高烤烟的均价和上中等烟的比例,腐殖酸可明显提高烤烟的产量、产值及上中等烟的比例。

我国西南烟区典型植烟土壤烤烟氮素的吸收规律

通采用15N同位素示踪方法,研究我国西南烟区典型红壤、黄壤、水稻土烤烟的氮素吸收规律。结果表明,烤烟氮素的累积与烟叶产量显著正相关,西南烟区烤烟氮适宜需求量为60～100kghm-2。不同土壤类型上种植的烤烟,其氮吸收差异显著,云南红壤烤烟生长前期的氮素吸收速率最高,其次是水稻土烤烟,黄壤烤烟最低;相应氮素吸收高峰分别在移栽后7、9和11周。烤烟中总氮、土壤氮、肥料氮的吸收速率均呈单峰曲线变化,且肥料氮的吸收高峰早于土壤氮;烤烟进入旺长期以后,土壤氮的吸收速率逐渐高于肥料氮,转入以吸收土壤氮为主。西南烟区烤烟打顶前土壤氮的累积比例为59.8%,肥料氮为72.1%,不同土壤类型烤烟打顶前氮素累积比例差异显著,红壤、黄壤、水稻土烤烟分别为87.8%、47.3%和49.2%。因此,根据不同土壤类型烤烟氮素吸收动态,在适宜的氮素需求量下,应以烤烟打顶前氮素需求量和土壤氮素供应量来计算烤烟氮肥需求量。

光质对烟草叶片生长发育过程中抗氧化系统的影响

以云烟87植株为材料,通过覆盖白、红、黄、蓝、紫色滤膜获得不同光质,于大田条件下研究了光质对烟草叶片生长发育过程中超氧化物歧化酶（SOD）、过氧化氢酶（CAT）、过氧化物酶（POD）、抗坏血酸过氧化物酶（APX）、谷胱甘肽过氧化物酶（GPX）、谷胱甘肽还原酶（GR）等抗氧化酶活性,抗氧化剂谷胱甘肽（GSH）和抗坏血酸（AsA）以及丙二醛（MDA）含量的影响.结果表明,在烟草植株第11片叶生长发育的7-70 d内,其抗氧化酶活性和抗氧化物质含量呈现先升高后下降的变化趋势.与白光（对照）相比,黄光诱导烟草叶片SOD、CAT、APX和GR活性升高,以及AsA和GSH含量增加;而红光诱导APX和GR活性上升,以及GSH和AsA含量升高;但紫光却使SOD、CAT、POD、GR和GPX活性下降,GSH和AsA含量降低,而蓝光则使所有抗氧化酶活性和抗氧化物质含量降低.紫光和蓝光处理的烟草叶片中MDA含量较高,而黄光和红光处理的则较低.总体而言,在大田条件下,相对红光和黄光而言,蓝光和紫光处理下的烟草叶片更容易发生光氧化胁迫.

施用纳米碳对烤烟氮素吸收和利用的影响

为明确纳米碳在提高烤烟氮素吸收利用方面的效果,在盆栽条件下,研究了纳米碳不同用量对烤烟根系生长发育、干物质积累和氮素吸收利用的影响。结果表明,在常规肥料中添加纳米碳能够促进烤烟根系生长发育,明显提高烟株根系活力和单株根系生物量,增加植株干物质积累量。施用纳米碳增加了烤烟植株成熟期各器官氮素含量和积累量,而未明显影响氮素在植株不同器官的分配。施用纳米碳不仅增加了植株对肥料氮的吸收量,还增加了对土壤氮的吸收量,这与其促进烤烟根系生长发育、提高根系吸收能力有密切关系。纳米碳无论做基肥还是做追肥,均显著提高了氮肥利用率,提高幅度分别达到14.44%和9.62%,有效降低了氮素土壤残留和损失。

豫中浓香型烤烟感官质量与部分质量指标的关系

在上海烟草（集团）公司（上烟集团）浓香型烟叶原料基地河南襄城县制备外观质量不同的烤烟样品群,研究了外观质量对感官评吸质量的影响,并采用典型相关分析研究了两种重要香气前体物质体色素和多酚对感官评吸质量指标（香气质、香气量、杂气和余味）的影响。结果表明：①不同色域,上部叶以浅橘黄~橘黄的感官评吸质量较好,中部叶以橘黄较好;在达到国标＂成熟＂的基础上,上部叶以成熟下限、中部叶以成熟中限较符合上海烟草集团的原料需求;上部叶随油分含量的提高香气品质呈变好趋势,而中部叶在油分含量较低时的香气品质较好;②典型相关分析结果显示,质体色素和多酚与浓香型特色烟叶的感官评吸质量,尤其是香气品质关系密切。叶黄素和叶绿素与香气量有较强的负相关性,β-胡萝卜素和类胡萝卜素与香气质的正相关性则较强;多酚类物质中的绿原酸和芸香苷与香气质的正相关性较强,而新绿原酸和咖啡奎尼酸等则与香气量的变化趋势相反。

转番茄正义抗坏血酸过氧化物酶基因提高烟草耐盐能力

【目的】探讨叶绿体类囊体膜抗坏血酸过氧化物酶(tAPX)与耐盐性的关系。【方法】从番茄叶片中分离到类囊体膜抗坏血酸过氧化物酶基因(LetAPX),利用农杆菌介导的叶盘法转入到烟草中。Northern杂交分析了LetAPX在盐胁迫(NaCl)下的表达特征。以野生型(WT),转正义LetAPX烟草株系T2-2(+)和T2-6(+)为试材,测定了盐胁迫条件下APX酶活性,过氧化氢(H2O2)含量,种子发芽率,植株的鲜重、干重,光合速率及叶绿素荧光参数。【结果】Northern杂交显示LetAPX已转到烟草基因组中,且基因的表达受盐胁迫的诱导。盐胁迫下转基因烟草的种子发芽率,植株的鲜重与干重,APX酶活性和清除H2O2的能力都显著高于野生型,并且转基因烟草比野生型具有更高的净光合速率(Pn)和PSII最大光化学效率(Fv/Fm)。【结论】LetAPX的过量表达有助于提高烟草的耐盐能力。

机械损伤对烤烟植株氮素吸收及体内烟碱含量的影响

采用砂培和营养液培养方法,研究了在营养生长阶段切除顶芽和叶片损伤对烟株生长、体内烟碱浓度、氮浓度及吸氮量的影响。结果表明,切除顶芽导致烟株体内烟碱浓度和含量显著增加。叶片损伤也能增加体内的烟碱浓度,且损伤二次比损伤一次的效果更为明显,说明叶面损伤对烟株体内烟碱合成的影响具有累积效应。但叶面损伤对烟株体内烟碱合成的影响小于打顶处理。切除顶芽和叶面损伤对烟株体内的氮浓度及吸氮量均无显著影响,但显著提高了烟株体内单位氮素产生烟碱的能力。试验结果还表明,机械损伤刺激烟株体内烟碱的合成,烟碱增加与氮素吸收无直接关系。

氮磷钾肥及水分因子对烤烟叶片叶黄素的综合影响

通过盆栽试验探讨了氮、磷、钾肥及水分因子对烤烟叶片叶黄素的综合影响。交互效应测验表明,影响烤后烟叶叶黄素含量的一级(2因素)和三级(4因素)交互作用显著,二级(3因素)交互作用中以氮磷水、磷钾水的交互作用为主。一级交互效应分析表明,氮钾、氮磷、磷钾、磷水、钾水互作对烤后烟叶叶黄素含量的影响表现协同促进作用。氮水间互作中存在一个阈值,低于这个阈值时氮水间互作对烤后烟叶叶黄素含量的影响表现协同促进作用,高于这个阈值时表现拮抗作用。二级、三级交互效应分析表明,氮磷钾合理配施(1∶1.3∶3.1)和适量浇水明显促进叶黄素的积累。当施氮量较少时增施磷肥和适量浇水,当施磷量较少时增施氮钾肥和适量浇水,以及当土壤相对含水量较低时增施氮钾肥均可以提高烤烟叶片叶黄素含量。结果表明,高氮肥(每盆施氮量大于6g纯氮)、高钾肥(每盆施钾量大于18gK2O)、中等磷肥配合适量浇水(74.3%～79.5%的土壤相对含水量)明显促进叶黄素的积累。

不同烤烟品种叶片光合特性和相关酶活性的叶位差异性分析

以3个主栽烤烟品种为材料,分析植株不同部位叶片的光合作用、叶绿素荧光参数以及与碳氮代谢有关的硝酸还原酶(NR)和蔗糖转化酶(INV)活性,以明确烤烟不同部位烟叶品质差异的生理机制.结果表明:打顶至此后40 d内,净光合速率(Pn)、气孔导度(gs)、蒸腾速率(Tr)在3供试品种中均表现为上部叶显著大于下部叶,且随着生育进程而下降,但下降速度因品种和叶位而异;叶绿素含量(SPAD值)在各品种间差异显著,但均表现为上部叶大于下部叶,且在生育过程中呈下降趋势,品种K326在后期的下降幅度明显大于品种云85和云87;量子产量(Fv/Fm)在品种间差异明显,云87在后期下降快于其他2个品种,下部叶片在生育期间的差异大于上部叶片,表现为打顶后先增大,后期变小;硝酸还原酶活性在生育期间呈下降趋势,3个供试品种之间差异明显,以K326的NR活性最大;各品种的蔗糖转化酶活性在上、下部叶片之间存在着很大的差异,品种间以K326的差异最小.上述结果表明,烟叶光合特性和相关酶活性在不同叶位间存在着很大的差异,而这种差异程度因品种而异.

贵州省不同香气类型烟叶质量特征研究

【目的】研究不同香气类型烟叶的质量特征,探讨不同香气类型烟叶的化学成分及品质指标特点。【方法】对贵州4个香气类型烟叶366个样品的16个化学成分、4个化学品质指标和6个吸食品质进行主成分和回归分析。【结果】4种香气类型烟叶的化学成分含量、化学品质指标和吸食品质差异明显,但各烟叶化学成分的第1主成分组成较为相似,反映烟叶质量主要受碳水化合物和含氮化合物及其比值影响;第2至第7主成分组成差异较大,说明烟叶不同香型与其化学成分组成差异关系密切。4种香气类型烟叶的吸食品质分别与不同化学成分呈显著回归关系,清偏中类烟叶与蛋白质、总氮、氯、氮碱比、磷显著负相关,清香类烟叶与氮碱比、硫和锌显著正相关,偏清香类烟叶与总糖、钾氯比和硫显著正相关,中间香型类烟叶与糖氮比、总氮、还原糖和糖碱比显著正相关,显示在不同生态区域和栽培措施的共同作用下,不同香气类型烟叶的吸食品质受控的主要因子各异。【结论】不同香气类型的烟叶与不同的化学成分、化学品质指标及其组成相适应。

烤烟不同部位烟叶主要化学成分与叶长的关系

采集我国南方烟区166份烤烟品种K326不同部位叶样品,研究烤烟主要化学成分与叶片长度的关系。结果表明:烟碱、总氮、还原糖、钾、氯、氮碱比、糖碱比、钾氯比、叶长在样品间存在广泛的变异;氯含量和钾氯比在部位间差异不显著,叶长、烟碱含量、氮碱比和糖碱比在部位间差异显著;总氮、还原糖含量在中部、下部叶间差异未达到显著水平,但二者均与上部叶差异显著;上部、中部叶的钾含量差异不显著,但二者均与下部叶差异显著;在一定范围内,烤烟上部叶烟碱、总氮和钾含量随叶长的增加而增加,氮碱比随叶长的增加而降低;中部叶烟碱、还原糖、钾含量和钾氯比随叶长的增加而增加,氯含量和氮碱比随叶长的增加而降低;下部叶还原糖含量、糖碱比和钾氯比随叶长的增加而增加,烟碱、总氮和氯含量随叶长的增加而下降。叶长63.0cm对上部叶的烟碱、总氮含量和糖碱比与下部叶的钾、氯含量均是一个较为敏感的长度。

干旱胁迫下外源甜菜碱和脯氨酸对烤烟抗氧化代谢的影响

为明确甜菜碱和脯氨酸在提高烤烟抗旱能力上的应用效果,采用盆栽试验,研究了外源喷施甜菜碱和脯氨酸对烤烟抗氧化代谢的影响。结果表明,干旱胁迫下,喷施甜菜碱和脯氨酸均能不同程度提高烤烟叶片叶绿素和可溶性蛋白质含量,降低丙二醛(MDA)含量,有效延缓植株衰老进程;能不同程度提高烤烟叶片超氧化物歧化酶(SOD)活性,同时促进渗透调节物质脯氨酸的积累,是提高烤烟抗旱能力的重要原因。脯氨酸和甜菜碱均可以作为烤烟干旱胁迫下重要的外源调节物质,在降低烤烟膜质过氧化程度方面,甜菜碱要优于脯氨酸,而二者同时施用能够有效提高烤烟过氧化氢酶(CAT)活性,降低MDA含量,其调控效应最佳。