细毛樟愈伤组织培养

从富含香叶醇的细毛樟（ＣｉｎｎａｍｏｍｕｍｔｅｎｕｉｐｉｌｕｍＫｏｓｔｅｒｍ）叶片外植体诱导出愈伤组织。愈伤组织生长较合适的培养基为ｐＨ５．８附加ＩＡＡ２ｍｇ／Ｌ和ＫＴ０１ｍｇ／Ｌ的ＭＳ培养基,在２５℃下暗培养。愈伤组织无性系继代培养到第６代后芳香成分初步分析结果表明主成分仍为香叶醇。     

胡杨异形叶叶绿素荧光特性对高温的响应

胡杨(Populus euphratica Oliv)是塔里木极端干旱荒漠区优势乔木树种,由于其生长在荒漠环境中,极端高温远高于其它地区,因此研究胡杨对高温胁迫的响应特征对于解释胡杨的抗逆机理与生态适应策略具有极为重要的意义。以胡杨3种典型的异形叶为材料,研究不同温度对其叶绿素荧光特性和能量分配的影响。结果表明,25-45 ℃温度下胡杨异形叶的F₀、F_m、F_v/F_m与F_v/F₀变化不大,尤其F_v/F_m仍能保持在0.78左右,光合反应正常;高温胁迫下(＞45 ℃)F_m、F_v/F₀、F_v/F_m、F'_v/F'_m、qP、ΦPSⅡ、P和ETR均大幅降低;F₀、qN、E显著上升,而D先上升后下降,说明高温抑制了PSⅡ的功能,使PSⅡ反应中心活性下降,QA^-的还原速率加快,光化学电子传递速率降低,某些能量耗散途径受阻,影响了PSⅠ和PSⅡ激发能的平衡分配,最终导致光合机构受损、光合速率降低。胡杨3种异形叶的叶绿素荧光参数随温度升高变幅不同,高温处理下锯齿阔卵形叶各参数均高于卵形叶与条形叶,表明锯齿阔卵形叶比卵形叶和条形叶具有更强的高温耐受能力。用模糊数学的隶属度函数对胡杨3种异形叶的耐热性进行综合评价,锯齿阔卵形叶的耐热性最强。     

可见分光光度法测定杜仲叶中的绿原酸

研究杜仲叶中绿原酸含量的检测方法。利用绿原酸和铝离子的络合显色反应,采用可见分光光度法在波长530 nm处测定杜仲叶中绿原酸量。绿原酸质量浓度在1.7×10-4~1.0×10-2g.L-1之间线性关系良好,线性相关系数为0.9995。秋、夏叶中加标回收率分别为98.0%,101.0%。该方法简便、实用、准确。     

铜胁迫条件下土壤微生物对海州香薷光合特性和叶绿素荧光参数的影响

为探讨铜（Cu）胁迫条件下土壤微生物对海州香薷（Elsholtzia splendens）光合生理和叶绿素荧光参数的影响,实验设置添加Cu（Cu胁迫）、接种土壤微生物、添加Cu与接种土壤微生物等3个处理,以不添加Cu与不接种土壤微生物为对照（CK）。结果表明：接种土壤微生物处理的植株相对叶绿素含量、净光合速率（P_n）、水分利用效率（WUE）均显著高于CK;且对初始荧光（F_o）和最大光化学效率（F_v/F_m）均有显著性影响。与CK相比,添加Cu降低了海州香薷的P_n和气孔导度（G_s）,但胞间CO₂浓度（C_i）的变化与P_n相反,表明其对光合作用的影响主要是非气孔限制因素。添加Cu的植株相对叶绿素含量显著下降,但Cu胁迫下接种土壤微生物提高了植株相对叶绿素含量,差异显著。在Cu胁迫条件下,接种土壤微生物的植株具有较高的F_v/F_m及较低的F_o,显著提高了海州香薷的WUE、P_n、G_s。说明接种土壤微生物可通过提高相对叶绿素含量、改善叶绿素荧光和光合作用来减轻Cu胁迫对海州香薷植株造成的伤害,从而提高海州香薷耐受Cu胁迫的能力。     

啮齿动物及凋落物存留对天山野果林野生樱桃李种子命运的影响

2010年9月至2013年4月通过设置人工土壤种子库,研究了野生樱桃李土壤种子库的动态及啮齿动物和凋落物覆盖对种子库中种子命运的影响.结果表明: 在有取食动物扰动下,48.3%的种子萌发输出为幼苗,50%的种子被动物搬运或当场取食,4%的种子腐烂.在排除了取食动物干扰的条件下,樱桃李种子形成了短期持久的土壤种子库,3年后依然有部分种子萌发并输出为幼苗.凋落物覆盖和对照处理中,被搬运和当场取食种子的比例均显著低于清除凋落物的裸地.地表凋落物存留能减少动物搬运、取食,但不足以导致新生幼苗的大量出现,而啮齿类动物的搬运或取食是影响野生樱桃李种子命运和种子库动态的主要因素.
     

土壤湿度对香樟幼苗根系生长和构型的影响

以1年生香樟(Cinnamomum camphora)幼苗为试材,设置对照组(CK)、中度干旱处理(M)、重度干旱处理(S)三个处理,比较不同土壤湿度下香樟幼苗不同时期地上部分生长和根系构型,探究香樟幼苗根系对不同土壤湿度的适应性及其耐旱机制。结果表明,中度和重度干旱处理组的香樟根系及地上部分干物质积累、根系长度、根系表面积、根系直径和根尖数均显著小于对照组(P<0.05)。同时干旱显著增加香樟幼苗的根系拓扑指数,降低香樟根的分形维数和平均分枝角度(P<0.05)。可见土壤湿度程度及处理时间显著影响香樟根系的生长及在土壤中的布局。较低土壤湿度可显著抑制根长的延长、根表面积扩大和根的增殖,且随着土壤湿度的继续降低以及处理时间延长,香樟幼苗根系的生长受到水分亏缺的抑制作用加重,根系建成成本增高的同时,根系分枝的复杂性降低,根系必须通过朝着更陡、更深的方向生长伸长来提高水分吸收效率。建议在园林绿化工程养护过程中制定科学的水分管理策略,以满足香樟生长过程中对土壤水分的需要。     

THE PROCESSING OF UNCONFINED,NATURALLY ENTRAINED LEAVES IN TWO LOW-ORDER SOUTHERN AFRICAN MOUNTAIN STREAMS

Summary

Breakdown of unconfined and confined leaves of the riparian tree Brabejum stellatifolium L. was investigated in two low order mountain streams (Window Stream and Langrivier) in the southwestern Cape, South Africa. At both sites, 5000 unconfined leaves were released in April and another 5000 in December 1990. The leaves were marked and half of them presoaked in river water prior to release. Leaves reaching a net 100 m below the point of release were removed periodically. On termination of the experiments, the study reaches were cleared of the remaining marked leaves. The distance which these leaves had travelled, and the retentive feature at which they were found were recorded. All leaves were weighed after recovery. In December 1990, leaves confined in coarse-mesh bags were placed on the stream beds of the two sites. Decay rates of unconfined leaves differed between streams and seasons but not between wetted and dry leaves or those of contrasting initial size and weight. In winter, breakdown of unconfined leaves was rapid (t₅₀ of 6.6d and 23.9d for Langrivier and Window Stream respectively). In summer, breakdown of unconfined leaves was slower (t₅₀ of 58d, Langrivier), but more rapid than leaves confined in mesh bags (t₅₀ of 77d, Langrivier). Distance travelled downstream had no significant effect on leaf breakdown. Different retentive features resulted in different rates of decay. Leaf weight loss in winter and summer at both sites was greatest in riffles (17–80%) and runs (21–78%). In all cases, stranded (exposed and out of the water) leaves lost the least weight (4–38%).     

A chemotaxonomic survey of flavonoids in leaves of the Oleaceae

Leaves of 97 taxa representing all the genera at present recognized in the family Oleaceae were surveyed for flavonoids. Four flavonol glycosides were found to be common, the 3-glucmides and 3-rutinosides of quercetin and kaempferol, as were four flavone glycosides, namely the 7-glurosides arid 7-rutinosides of luteolin and apigenin. Among rarer constituents detected were luteolin 4'-glucoside, eriodictyol 7-glucoside, chrysoeriol 7-glucoside, an apigenin-di-C-glycoside and several higher glycosides of quercetin. The species and genera surveyed fell into two groups: those with flavonol glycosides alone; and those with both flavonol and flavone glycosides. The most striking correlation was with chromosome number (and subfamily division) since almost all taxa with a basic number of 11, 13 and 14 had only flavonol glycosides, whereas most taxa with x = 23 had both types of flavonoid. Evolutionary advancement in the family appears to involve the gradual replacement of flavonol by flavone glycosides. Indeed, a few tam, notably Nestegis apelala, Picconia excelsa and Tesserandra fluminense , lacked flavonol glycosides in the leaves completely. At the lower levels of classification, the distribution of flavonoids is of less interest. However, the patterns in Linociera and Chionanthus , two taxa recently made congeneric, are sufficiently different to suggest that this decision might have to be reconsidered when more is known of their chemistry. Otherwise leaf patterns generally fit in with the existing generic classification in the family.     

超临界CO2萃取烟叶中茄尼醇的工艺研究

采用超临界二氧化碳萃取烟叶中的茄尼醇,考察了萃取过程温度、压力、二氧化碳流量、萃取方式、夹带剂种类及其用量对萃取过程的影响。采用四因素三水平的正交设计,以茄尼醇的提取率为指标,对萃取条件进行了优化。并建立了能较准确测定烟叶中游离茄尼醇含量的方法,采用高效液相色谱对萃取产物进行了分析。以探索提高提取率的方法,为其工业化生产提供参考。结果表明:最佳萃取工艺条件为:甲醇为夹带剂,萃取温度45℃,萃取压力25MPa,CO2流量15kg·h-1。在最佳工艺条件下茄尼醇的提取率为:92.1%。