烤烟和作物轮间作提高烟叶品质的研究现状

烤烟是我国重要的经济作物,但栽培过程中存在连作障碍。烟田连作导致病害增加,影响烟叶和轮间作作物的品质,进一步影响农田产出,另一方面,连作障碍导致烤烟种植土地匮乏。生产实践发现通过与其他作物轮间作可以改善烤烟连作障碍。本文从作物-土壤-微生物组成的根际微生态系统的视角,综述了烤烟与不同作物轮间作的现状以及轮间作后的土壤生物学性状变化,分析了不同轮间作模式下土壤理化性质和根际微生物群落的变化,特别是烤烟产量和烟叶内在品质的变化,对于烤烟与作物的轮间作机制进行了总结和展望,为烤烟轮间作种植模式提供了科学依据。     

调亏灌溉和氮处理对小桐子生长及水分利用的影响

为了研究阶段水分亏缺(亏水+不亏水W_LW_H、不亏水+亏水W_HW_L、亏水+亏水W_LW_L、不亏水+不亏水W_HW_H)和不同施氮量(N_Z:0,N_L:0.2 g/kg,N_H:0.4 g/kg)对小桐子生长、生理指标和灌溉水利用效率的影响,通过盆栽试验,发现W_LW_H的生长和灌溉水利用效率均显著高于W_HW_L;作物的灌溉水利用效率随施氮量的增大而呈现先增大后减小的趋势,在N_L水平下达到最大值;与高水高氮的处理N_HW_HW_H相比,中水低氮处理N_LW_LW_H节约灌溉水27%,节约氮肥使用量50%,小桐子株高减少31%、总干物质量减少35%,灌溉水利用效率减少13%,但茎粗增加13%,根冠比增加20%.可见小桐子在第一阶段处理(40~90 d)幼树期对水分的需求量较小,适度的亏缺灌溉可提高灌溉水利用效率;小桐子在第二阶段处理(90~140 d)处于旺长期,对水分的需求量较大,增大灌水量可大幅度促进小桐子生长及其干物质量的积累.全生育期实施亏缺灌溉,可提高小桐子自身适应外界环境能力,抗干旱胁迫能力也逐渐增强,但W_LW_L水平下的小桐子生长缓慢.经综合分析,认为处理N_LW_LW_H可作为干旱地区条件下的小桐子灌溉和施氮制度.     

甘蓝型油菜含油量的遗传研究

采用7×7双列杂交设计,研究了甘蓝型油菜含油量的基因作用和其它遗传参数,以及含油量与其它农艺性状、品质性状的关系。结果表明:含油量的遗传符合加性—显性遗传模型,有关基因在亲本中呈独立分布;显性指向增效,表现超显性作用;亲本中显性基因比隐性基因多,增效基因比减效基因的频率大;控制含油量并表现显性的基因约为4组;含油量的广义和狭义遗传力分别为81.16％和30.90％。单相关和逐步回归分析一致表明,单株产量、每角粒数、主花序长度和株高对含油量有较强正向作用,但角果长度和全株总角果数的作用为负。本文还讨论了基因作用分析在探讨配合力的基因效应成分和杂种优势产生的可能原因中的意义,及其在选择中的应用。     

水稻淀粉合成代谢相关基因与千粒重QTLs的连锁分析

稻米淀粉的合成和积累是水稻千粒重形成的重要基础之一。在水稻千粒重QTLs定位分析基础上，对本研究克隆的14个水稻胚乳淀粉合成与积累相关基因及已报道的和预测的42个相关基因进行了电子定位分析，比较水稻淀粉合成代谢相关基因与千粒重QTLs的连锁关系。发现有38个基因位点与千粒重QTLs连锁，说明千粒重形成与胚乳淀粉积累与淀粉结构形成代谢密切相关。本研究结果将为进一步研究水稻产量形成的分子机理提供参考。     

Biochemical and histological effects of gibberellic acid on Locusta migratoria migratoria fifth instar larvae

Experiments were conducted to assess the effect of gibberellic acid (GA₃), a plant growth regulator, on Locusta migratoria migratoria fifth instar larvae. Newly emerged larvae were exposed to various concentrations of GA₃ administered by topical application or by forced ingestion. Results showed that treated insects exhibited toxic symptoms with a dose-dependent mortality. GA₃ toxicity was also demonstrated by perturbation of the moult processes. In fact, we noted that treated insects present exuviations difficulties due to the impossibility to reject the old integuments causing mortality in the 5th instar larvae. Histological study of proventriculus revealed alterations in the epithelial cells and absence of apolysis phenomenon. Data also showed that GA₃ induced significant quantitative variation of haemolymph metabolites. These changes result in a significant decrease in the total concentration of proteins and carbohydrates and an increase in the total concentration of haemolymph lipids.     

不同基因型水稻镉积累动态差异分析

探讨镉(Cd)在籽粒Cd积累量差异较大的2个常规籼型水稻品种‘黄华占’（Cd低积累）和IR68144（Cd高积累）各器官中的分布差异和积累动态,分析了在大田栽培条件下2个品种全生育期和生殖生长期各组织器官的Cd积累动态过程。结果表明：成熟期两品种植株的大部分Cd都集中于根系和茎部,IR68144各器官的Cd含量都高于‘黄华占’。在整个生育期中,‘黄华占’根和茎中的Cd含量都呈缓慢上升趋势,IR68144根系Cd含量先上升后下降,最后于灌浆后期快速上升,其茎部Cd含量则先下降后上升;两品种叶片Cd含量在抽穗前变化趋势表现一直,而在抽穗后却截然相反。抽穗后,‘黄华占’剑叶和穗轴Cd含量先持续上升,后于黄熟期有所下降,而IR68144的剑叶和穗轴都呈持续上升趋势,两品种的颖壳和糙米的Cd含量也都整体上升,且同品种的两器官表现趋于一致。籽粒发育过程中,两品种糙米Cd积累量都不断地提高,但它们超过一半的Cd由抽穗后的第21~28天积累完成。     

In UV‐B Irradiated Rice High Levels of Mn Limits Chloroplasts Injury Triggered by Oxidative Stress

The molecular mechanism to control the oxidative burst exerted by Mn accumulation in rice (Oryza sativa L.) plants, grown in hydroponics containing 0.5, 2 and 8 mg l^–1 Mn and irradiated with a total biological effective UV‐B irradiation of 20.825 kJ m^?2, was investigated in the chloroplasts at the 15th and 21st days after germination. In both experimental periods, Mn accumulation kinetics in the leaves and in the chloroplast lamellae displayed overall increases. Coupled to higher membrane selectivity, superoxide production and acyl lipids peroxidation in the thylakoids decreased, prompting upper rates of the Hill and Mehler reactions. Connected to UV‐B irradiation, higher accumulated Mn in thylakoids was found to be chelated in a 36.5 kDa protein, with Mn/protein ratio of about 1 and high content of Gln, Asp, Glu, Leu and Gly, being its EPR spectrum characteristic of high‐spin Mn(II), in a S = 5/2 ground state. As this protein exhibited enzymatic catalysis of superoxide dismutation, it was concluded that, under UV‐B irradiation, the high internal tolerance of Oryza sativa L. to Mn during the vegetative growth also triggers the synthesis of a manganese protein that mimics superoxide dismutase functioning, therefore furnishing an additional intimate protection against oxidative stress.     

水分胁迫下玉米叶片中一氧化氮与钙和钙调素的相互作用

以玉米(Zea mays L.)为材料,研究水分胁迫下玉米叶片中NO与Ca2+和钙调素(CaM)含量之间的关系。结果显示:Ca2+鳌合剂、Ca2+通道阻塞剂和CaM拮抗剂预处理均抑制了水分胁迫诱导的NO产生和一氧化氮合酶(nitric ox-idesynthase,NOS)活性的提高,同时也能抑制水分胁迫诱导的叶片线粒体NO产生,而对叶绿体NO产生并没有影响;NO清除剂羟基2苯基4,4,5,5四咪唑1羟基3氧化物(2-4-carboxypheny l-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide,c-PTIO)能抑制水分胁迫条件下Ca2+和CaM的产生以及CaM1基因表达,但对水分胁迫最初诱导的玉米叶片叶肉细胞原生质体Ca2+和玉米叶片中CaM1基因表达以及CaM含量增加没有影响。上述结果表明:水分胁迫下NO和Ca2+/CaM之间存在相互作用。     

紫花苜蓿根系主要功能性状对分根区交替灌溉的响应

分根区交替灌溉是一种具有节水潜力的灌溉方式,为了揭示紫花苜蓿(Medicago sativa L.)根系对分根区交替灌溉的响应,在甘肃武威绿洲农业高效用水国家野外科学观测研究站设置3种占田间持水量(Field capacity, FC)不同比例的灌水梯度(T1:80%～100%FC,T2:60%～80%FC,T3:40%～60%FC)去开展分根区交替灌溉与不分根区灌溉的对比试验。结果表明：分根区交替灌溉在80%～100%FC灌水量时,根颈直径小于不分根区灌溉,60%～80%FC和40%～60%FC灌水量时,根颈直径大于不分根区灌溉。分根区交替灌溉的根系分支多于不分根区灌溉,但根平均直径小于不分根区灌溉。两种灌溉方式下紫花苜蓿地上部和地下部的生物量均随着灌水量梯度的下降而下降。同一灌水梯度下,不分根区灌溉的地下和地上生物量均高于分根区交替灌溉。上述结果说明紫花苜蓿采用分根区交替灌溉方式对根系生长发育具有重要影响。     

木槿药学研究概况

在广泛检索文献的基础上,综述了木槿的成分、药理及临床应用,为木槿的深入开发利用提供参考依据。