部分鸢尾属植物的AFLP标记

利用AFLP技术,选择EcoRI/MesI酶切组合,从48对EcoRI,3/MesI+3引物组合中筛选出6对引物进行选择性扩增,检测了鸢尾属植物26个样品基因组的DNA多态性,共扩增出536个遗传位点,并通过Jaccard的方法将电泳谱带矩阵转化为遗传相似性系数矩阵,进行了UPGMA聚类分析.26个样品的遗传相似性系数...     

槟榔间作香草兰种植园土壤养分变化趋势研究

对海南万宁、琼海、定安和屯昌4个主要槟榔间作香草兰种植区0～20 cm土层的60个土壤样品进行分析。结果表明,pH值呈酸化的趋势,低于临界值;有机质含量适中,呈上升的趋势;碱解N含量适中,呈下降的趋势;速效P和速效K含量呈下降的趋势,且低于临界值;交换性Ca含量呈上升趋势,但低于临界值;交换性Mg含量低于临界值,呈下降趋势;有效B含量高于临界值,呈上升趋势;有效Fe、有效Mn、有效Cu和有效Zn含量均高于临界值,呈下降趋势,其中有效Mn含量超标。     

冬播麦区Glu-1和Glu-3位点变异及1B/1R易位与小麦加工品质性状的关系

 贮藏蛋白组成是决定小麦加工品质的重要因素。本文调查了我国冬播麦区251份主栽品种和高代品系的高分子量麦谷蛋白亚基（HMW-GS）、低分子量麦谷蛋白亚基（LMW-GS）和1B/1R易位的分布状况，研究了它们与加工品质性状的关系。结果表明，品质较差的HMW-GS N、7+9、2+12和LMW-GS Glu-A3a与Glu-B3j（1B/1R易位）在冬播麦区分布较广，频率分别为39.4%、45.0%、59.8%、37.1%和44.6%。HMW-GS和LMW-GS等位变异对籽粒蛋白质含量影响较小，对SDS沉降值、和面时间与耐揉性的加性和互作效应达1%的显著水平。按位点对加工品质性状的贡献大小，Glu-D1>Glu-B3>Glu-B1>Glu-A3>Glu-A1；就单个亚基而言，Glu-A1位点，1>2*>N；Glu-B1位点，7+8>14+15>7+9；Glu-D1位点，5+10>4+12>2+12；Glu-A3位点，Glu-A3d>Glu-A3a>Glu-A3c>Glu-A3e，Glu-B3位点； Glu-B3d>Glu-B3b>Glu-B3f >Glu-B3j。1B/1R易位对SDS沉降值、和面时间和耐揉性等加工品质性状有显著负面效应。通过选择优质高低分子量麦谷蛋白亚基和淘汰1B/1R易位系，将有助于提高我国小麦的面筋质量。     

木薯对氮、磷、钾、镁、锌、硼的吸收特性及施肥效应

【目的】研究氮、磷、钾、镁、锌、硼肥对木薯养分吸收及生长的影响。【方法】采用田间试验,设最佳施肥处理OPT（N+P+K+Mg+Zn+B）、减氮施肥OPT-N、减磷施肥OPT-P、减钾施肥OPT-K、减镁施肥OPT-Mg、减锌施肥OPT-Zn、减硼施肥OPT-B处理和不施肥处理,测定各处理木薯产量以及块根、茎、叶养分吸收量和养分吸收强度。【结果】OPT处理木薯所吸收的N、P、K、Zn养分主要累积在茎部,Ca、Mg养分主要累积在叶片和茎部,B养分主要累积在叶片部位中。木薯对N、P、K养分的吸收强度呈抛物线状,在块根膨大期前呈逐渐提高,块根膨大后,木薯对N、P、K养分的吸收强度逐渐下降。增施N、P、K、Mg肥,木薯产量分别提高38.01%、13.09%、23.14%和8.99%;增施1 kg N、P2O5、K2O、MgO木薯产量分别增加101、54、22和49 kg;OPT处理产值最高（13217元/ha）。【结论】施肥均可提高木薯的养分吸收量,但K、Za、B肥会抑制Mg的吸收。不同施肥条件对木薯产量有显著的影响。     

引进国际水稻所籼稻品系主成分及聚类分析

【目的】综合比较、评价从国际水稻研究所引进的籼稻资源,旨在更有效利用外引稻种资源。【方法】采用DPS软件对来自国际水稻研究所的118个籼稻资源的主要农艺性状进行主成分分析及聚类分析。【结果】粒型、株高、粒重、粒长、结实和熟期这6个主要因子对变异的累积贡献率达85.1873%。依据主成分向量将118份引进材料聚为3大类型：第1大类群为矮秆、多穗、长粒类型,共34份材料;第2大类群为高秆、迟熟、少蘖、长穗型,共49份材料;第3大类群为半矮秆、早熟、高实、小穗类型,共35份材料。【结论】在利用外引资源时,要利用主成分等信息,抓住主要因子进行聚类,这样能更有效地利用外引资源。     

天水山旱地欧洲防风高产栽培技术

对引进的特色蔬菜欧洲防风进行了生产试验,从适种区域、茬口选择、整地施肥、覆膜、品种选择、种子处理、播种、田间管理、病虫害防治、采收等方面总结出了天水地区山旱地欧洲防风栽培技术.     

Cloning and Sequence Analysis of Lipoxygenase Gene cDNA from Cucumber Fruit （Cucumis sativus L.）

Lipoxygenases are nonheme-iron-containing dioxygenases that catalyze the hydroperoxidation of unsatrated fatty acids containing a cis, cis-1,4-pentadiene structure producing hydroperoxy acids with conjugated dienes. LOX activity has been found in a wide range of plants. Typical substrates for LOX in plants are linoleic acid and linilenic acid fatty acids. The function of various LOXs in plants is unknown, but their participation in all stages of plant growth and development has been suggested （Hildebrand, 1989; Siedow, 1991）. Some of the physiological processes in whicn lipoxygenses have been implicated include wounding （Saravitz and Siedow, 1996）, pathogen attack （Melan et al., 1993）, seed germination （Kato et al., 1992）, fruit ripening （Ferrie et al., 1994）, plant senescence （Paliyath and Droillard, 1992）. The study on the role of lipoxygenase in ripening and senescence fruit focused on tomato and strawberry. Cloning LOX gene of cucumber fruit will make us further understand the molecularaction mode of this enzyme during fxuit ripening and senescence. In this paper we isolated the partial nucleotide sequences of cucumber fiuit lipoxygenase gene and discuss the characterization of it.     

Mapping QTLs for Yield Stability in Durum Wheat Grown under Different Water Regimes

Among the most important Mediterranean annual crops, durum wheat is widely grown in drought-prone areas. Therefore, improving water-use efficiency （WUE） of durum wheat represents a major breeding goal. IDu-WUE （Improving Durum wheat for Water Use Efficiency and yield stability through physiological and molecular approaches） is a collaborative project among public and private research centres in Italy, Spain and WANA （West Asia and North Africa） countries （Morocco, Tunisia, Syria and Lebanon） funded by the European Union aimed at investigating the genetic variation for WUE and yield stability in durum wheat grown in Mediterranean droughtprone areas. During the first year of the project, a number of morpho-physiological traits （e.g. early vigour, flowering time, leaf rolling, number of fertile tillers, etc.）, WUE, WUE-related traits （e.g. carbon isotope discrimination, canopy temperature, chlorophyll fluorescence, etc.）, yield and its components have been investigated in a RIL population （249 lines） and a collection of ca. 190 durum wheat accessions characterized by a high level of linkage disequilibrium （Maccaferri et al., 2005）,     

Improving Drought Tolerance of Rice by Designed QTL Pyramiding

Drought is the most important factor limiting rice yields in the rainfed areas of Asia. To overcome the problem, we developed a new strategy ＇designed QTL pyramiding＇ to more efficiently develop drought tolerant （DT） rice cultivars. In the first phase of this strategy, we developed large numbers of introgression lines （ILs） in elite backgrounds using backcross （BC） breeding, each of which carries multiple genomic segments for improved DT from a known donor. Then, we genotyped all ILs with SSR markers to track the genomewide pattern of introgression in the DT ILs of 16 BC populations derived from crosses between 2 recipients （IR64 and Teqing） and four different donors. X^2 tests and linkage disequilibrium analyses of introgression in the DT ILs revealed significant frequency shifts at many loci across the genome and non-random associations at the multilocus level as a result of selection for DT in the ILs, which led us to the discovery of putative genetic networks underlying DT in the ILs. The networks each containing all DT loci detected in ILs from a BC population showed some interesting features.     

TILLING and Ecotilling the Plant Kingdom

The modem crop scientist has a large amount of available nucleotide sequence information to identify genes of potential agronomic importance. Using reverse genetic approaches, specific genes can be disrupted, and hypotheses regarding gene function directly tested in vivo. Although a number of reverse genetic methods have been introduced, many are limited in application because they are organism-specific, expensive, transgenic, or only transiently disrupt gene function. However, traditional mutagenesis using chemical mutagens has been widely used as a forward genetics strategy to create many new crop plant varieties at relatively low cost. Mutagens such as ethyl methanesulphonate （EMS） cause stable point mutations and thus produce an allelic series of truncation and missense changes that can provide a range of phenotypes （Greene et al., 2003）. TILLING （targeting induced local lesions IN genomes） is a high-throughput reverse genetic strategy that combines traditional mutagenesis and SNP discovery methods （Colbert et al., 2001; McCallum et al., 2000）. To identify mutations, target regions of-l.5 kb are amplified with fluorescently labeled gene specific primers. Heteroduplexes are then formed between wild-type and mutant strands, mismatches are cleaved by incubation with a single-strand specific nuclease,