202 resultados para 7038-214
Resumo:
A characteristic rainfall is introduced to overcome the difficulties encountered in determining a critical rainfall value for triggering debris flow. The characteristic value is defined as the rainfall at which debris-flow occurrence probability shows a rapid increase, and can be used as a warning rainfall threshold for debris flows. Investigation of recorded debris flows and 24-hour rainfall data at Jiangjia basin, Yunnan Province, in southwestern China, demonstrates the existence of such a characteristic rainfall. It was found that the characteristic rainfall corresponds to the daily rainfall of 90% cumulative probability by analyzing the basin's daily rainfall histogram. The result provides a simple and useful method for estimating a debris-flow warning rainfall threshold from the daily rainfall distribution. It was applied to estimate the debris-flow warning rainfall threshold for the Subaohe basin, a watershed in the 2008 Wenchuan earthquake zone with many physical characteristics similar to those of the Jiangjia basin.
Resumo:
中国沙棘是一种雌雄异株、风媒传粉的灌木或乔木,在中国西南的卧龙自然保护区有广泛的分布。本研究以采集于四川卧龙自然保护区5 个海拔(1800 m、2200 m、2600 m、3000 m、3400 m)梯度的中国沙棘天然群体为材料,以ISSR 和AFLP 标记技术研究其遗传多样性水平及其遗传结构,旨在了解卧龙地区中国沙棘天然群体的遗传多样性水平以及遗传多样性在群体间、群体内以及雌雄亚群体间的分布和特征,为中国沙棘树种的遗传改良及种质资源保存提供遗传研究背景与实验依据。同时探讨ISSR、AFLP 和RAPD三种标记对中国沙棘天然群体的遗传变异水平和群体间遗传结构的评估能力和各自的优缺点。研究得出以下主要结论: 1. ISSR和AFLP分析都表明卧龙自然保护区的中国沙棘群体拥有较高的遗传变异水平(h = 0.249,HT = 0.305)。出现这种结果的主要原因可能与卧龙自然保护区多变的气候条件和生境的异质度大有关。 2. ISSR 和AFLP 都揭示出卧龙自然保护区中国沙棘群体的遗传多样性随着海拔的增加发生显著的变化,表现为中海拔群体(2200 m 和2600 m)比高海拔群体(3000 m 和3400 m)和低海拔群体(1800 m)有更高的遗传多样性的趋势。出现这种趋势的可能解释是低海拔群体处在相对高温和相对干旱的环境,高海拔群体受到低温和紫外线胁迫,而中海拔群体存在中国沙棘生长的适宜环境。 3. ISSR 和AFLP 分析都表明:卧龙自然保护区中国沙棘的遗传结构遵循分布范围广、交配系统以异交为主的木本植物的通常模式,即大多数的遗传变异存在于群体内,只有少部分的遗传变异存在于群体间。 4. 经Mantel 检测表明,卧龙自然保护区中国沙棘群体间的海拔距离和对应遗传距离之间存在显著的正相关关系,即随着垂直海拔距离的增加,群体间的遗传距离也随之增加。Mantel 检测结果以及聚类分析将卧龙自然保护区5 个不同海拔的中国沙棘群体分为低、中、高海拔群体三组的研究结果都表明,海拔很可能是限制群体间基因交流的主要因素。 5. ISSR 分析发现同一海拔的雌雄亚群体首先聚类的研究结果表明,同一海拔的雌雄亚群体在遗传上最相似。方差分析结果表明只有3.8%的总遗传变异存在于雌雄亚群体间,这可能与雌雄植株间的交配和遗传物质的混合有关。 6. ISSR、AFLP 和RAPD 分析都表明卧龙自然保护区不同海拔的中国沙棘天然群体的遗传多样性水平较高。它们的分析结果估算得到的Nei's 平均基因多样度(h)分别为0.249、0.214 和0.170。从该结果可以看出ISSR 和AFLP 比RAPD 检测到更多的遗传多态性,这很可能是不同标记检测的基因组的位点不同所致。 7. 依据对不同标记系统的比较分析,认为ISSR、AFLP 和RAPD 三种分子标记系统都能成功地用于调查卧龙自然保护区不同海拔的中国沙棘群体的遗传变异水平及遗传变异结构,提供关于中国沙棘天然群体多态性水平和遗传变异分布的有用信息。在三者中,AFLP 具有最高效能指数和标记指数,在确定种间分类关系或鉴别个体方面是一种比较理想的标记。 Hippophae rhamnoides subsp. sinensis, a dioecious and deciduous shrub species,occupies a wide range of habitats in the Wolong Nature Reserve, Southwest China. Ourpresent study investigated the pattern of genetic variation and differentiation among fivenatural populations of H. rhamnoides subsp. sinensis, occurring along an altitudinal gradientthat varied from 1,800 to 3,400 m above sea level in the Wolong Natural Reserve, by usingISSR and AFLP markers to guide its genetic improvement and germplasm conservation. And,comparative study of ISSR, AFLP and RAPD was performed to detect their capacity toestimating the level and pattern of genetic variation occurring among the five elevationpopulations of H. rhamnoides subsp. sinensis, and to discuss their application to the study onplant genetics. The results were list following: 1. The ISSR and AFLP analysis conducted for the H. rhamnoides subsp. sinensispopulations located in the Wolong Natural Reserve of China revealed the presence of highlevels of genetic variation (h = 0.249, HT = 0.305). Besides such features as relatively widedistribution, dominantly outcrossing mating system, and effective seed dispersal by small animals and birds, it is sometimes argued that hard climatic conditions and heterogeneous habitats may also contribute to high levels of diversity. 2. Genetic diversity of H. rhamnoides subsp. sinensis populations was found to varysignificantly with changing elevation, showing a trend that mid-elevation populations (2,200m and 2,600 m) were genetically more diverse than both low-elevation (1,800 m) andhigh-elevation populations (3,000 m and 3,400 m). H. rhamnoides subsp. sinensis is thoughtto be stressed by drought and high temperature at low elevations, and by low temperature athigh elevations. The high genetic variability present in the mid-elevation populations of H.rhamnoides subsp. sinensis is assumed to be related to a greater plant density in the middlealtitudinal zone, where favorable ecological conditions permit its continuous distributioncovering the zone from 2,200 m to 2,600 m above sea level. 3. The genetic structure of H. rhamnoides subsp. sinensis revealed by ISSRs andAFLPs followed the general pattern detected in woody species with widespread distributionsand outcrossing mating systems. Such plants possess more genetic diversity withinpopulations and less variation among populations than species with other combinations oftraits. 4. In the present study, Mantel tests showed positive correlations between altitudinaldistances and genetic distances among populations or subpopulations. The observedrelationship between altitude and genetic distances, and the result of the cluster analysisincluding populations or male subpopulations and classifying the groups into three altitudeclusters suggest that altitude is a major factor that restricts gene flow between populationsand subpopulations. 5. The analysis of molecular variance showed that only 3.8% of the variability residedbetween female and male subpopulations. Such a very restricted proportion of the totalmolecular variance between female and male subpopulations is due to common sexuality andmixing of genetic material between females and males. 6. The analysis based on ISSRs, AFLPs and RAPDs all revealed relatively high levelsof genetic variation among different altitudinal populations of H. rhamnoides subsp. sinensisin Wolong Natural Reserve of China. Their estimates of mean Nei’s gene diversity is equal to0.249, 0.214 and 0.170 respectively, suggesting the higher capacity of detecting geneticvariation of ISSR and AFLP than RAPD. It might be ascribed to their distinct sensitivity todifferent type of genetic variation. 7. Based on the coparative study on ISSR, AFLP and RAPD, we drew a conclusion thatthey all successfully reveal some useful information concerning the level and pattern ofgenetic vatiation occurring among different elevation populations of H. rhamnoides subsp.sinensis. AFLP is a ideal tool to taxonomic study and individual identification for theirhighest efficiency index and marker index among the three marker systems.
Resumo:
地锦(Parthenocissus tricuspidata)为葡萄科(Vitaceae)地锦属(Parthenocissus)多年生大型落叶木质藤本植物,集绿化、环境保护、药用价值为一体,开发利用前景非常广阔。为了进一步有效地利用及增加它的适应性,本论文对地锦的遗传转化及其抑菌活性进行了初步研究。 利用根癌农杆菌(Agrobacterium tumefaciens)介导对地锦进行遗传转化。所转外源目的基因为干旱应答因子结合蛋白DREB基因,克隆自拟南芥,受干旱应答基因启动子rd29Bp驱动。将此基因与pCAMBIA2301重组构建得到植物表达载体p2326。p2326携报告基因b-葡萄糖苷酸酶基因(gus)和选择基因新霉素磷酸转移酶基因(npt II)。然后将p2326导入根癌农杆菌EHA105,对地锦愈伤组织及外植体茎段进行转化。经3-4轮卡那霉素选择培养后,PCR及GUS组织染色验证,表明成功获得了转基因愈伤组织。 对地锦愈伤组织进行耐盐及脯氨酸含量测定。结果表明,转基因愈伤组织与非转基因愈伤组织相比,对高盐的耐受力有较大提高。在250 mM NaC1的继代培养基中,携DREB基因的愈伤组织能够存活20 d以上,而对照在10 d后大多数褐化死亡。高盐胁迫时转基因材料脯氨酸含量高于对照,并能够维持较长时间。 研究还发现,来自室外自然生长的地锦茎、叶,对根癌农杆菌有极强的抑制作用。 因此,对地锦的抑菌作用进行初步研究。 对一年中不同时期(分别采于4月、8月、12月)的地锦茎、叶进行抑菌活性初步研究。结果表明,12月份地锦叶片对所选细菌抑制作用最强。然后对其进行分溶剂萃取。分别用极性递增的有机溶剂依次提取地锦中的有效成分、逐级分离、浓缩干燥,得到石油醚部、乙酸乙酯部、正丁醇部和水部等不同极性溶剂萃取物。选择革兰氏阳性菌和阴性菌共5种对得到的各部分粗提物分别做抑菌实验,表明正丁醇部的抑菌活性最强,水部提取物有一定抑制作用,而石油醚部、乙酸乙酯部没有表现出明显抑菌作用。 地锦正丁醇提取物对大肠杆菌、枯草杆菌、短小芽孢杆菌、农杆菌及酵母菌的最低抑制浓度(MIC)分别为0.25,0.3,0.25,0.3,1g/mL。其抑菌活性随着浓度增加而增强,而且抑菌活性具有较好的热稳定性。 研究发现地锦所产生的抑菌物质不仅对无耐药性的细菌具有抑制作用,而且还对某些耐药性细菌具有抑制作用。目前,细菌对抗生素的耐药性已成为全球关注的问题,寻找新型抗生素已迫在眉捷,地锦抑菌物质的研究为新抗菌药物的研制开发提供了新思路。 上述研究结果,为地锦的遗传改良及开发利用打下基础。
