中国悬钩子属植物的利用价值概述

主要报道中国悬钩子属植物作为果树种质资源和药用植物的利用价值及果实色素和香味成分的利用潜力。经过十余年的调查１引种栽培和观测评价,发现一些种类可以作为野生小果类果树直接利用,其中２３种４变种是悬钩子类果树选育种的优良种质。据文献记载和民间调查发现。４５种４变种悬钩子植物可以作为中草药治疗多种疾病。对灰白毛莓、高梁泡、蓬、掌叶复盆子和黑莓果实色素的研究结果表明：悬钩子果实色素以醇提法为佳,水提法效果     

裂叶悬钩子组织培养研究——Ⅰ.裂叶悬钩子叶外植体培养直接再生不定芽及植物激素对它的影响

本文首次报道裂叶悬钩子(Rubus laciniatus Wild)叶外植体培养在改良的NN⁶⁹培养基上附加2—4mg/1 6-BA和0.1mg/1 NAA或1—3mg/1 2,4-D和0.1mg/1 NAA,两者都可直接从完整叶片、叶片下切段或叶柄诱导出不定芽。诱导频率达20—48%。而不定芽绝大部分发生在叶轴处或叶柄基部。完整叶片的不定芽诱导率与叶片下切段无差别,但比叶柄基部诱导率要高。6-BA对叶轴处不定芽诱导率比2,4-D的要高。此外,不需继代培养,不定芽数可达10—20个,继代培养一个月左右,每个不定芽能形成丛生芽数可达40一60个。另外,本文还讨论了细胞分化过程中的极性现象。     

裂叶悬钩子组织培养研究 Ⅰ.裂叶悬钩子叶外植体培养直接再生不定芽及植物激素对它的影响

本文首次报道裂叶悬钩子(Rubus laciniatus Wild)叶外植体培养在改良的NN~(69)培养基上附加2—4mg/1 6-BA和0.1mg/1 NAA或1—3mg/1 2,4-D和0.1mg/1 NAA,两者都可直接从完整叶片、叶片下切段或叶柄诱导出不定芽。诱导频率达20—48%。而不定芽绝大部分发生在叶轴处或叶柄基部。完整叶片的不定芽诱导率与叶片下切段无差别,但比叶柄基部诱导率要高。6-BA对叶轴处不定芽诱导率比2,4-D的要高。此外,不需继代培养,不定芽数可达10—20个,继代培养一个月左右,每个不定芽能形成丛生芽数可达40一60个。另外,本文还讨论了细胞分化过程中的极性现象。     

Echinorhinus brucus (Bonnaterre, 1788) in the Caribbean Sea: A recurrent visitor,or are the artisanal fisheries exploiting deeper waters?

Documentation of Echinorhinus brucus, (Bonnaterre, 1788) in the western Atlantic primarily relies on chance observations. Georeferenced records in this area remain notably scarce. This study contributes the second Venezuelan and seventh Caribbean Sea specimens, increasing the western Atlantic count to 15 individuals. All specimens gathered here were sexually mature, with a slight dominance of females. Our bramble shark record appears to be driven more by the interplay of its biology and environmental factors than being a deliberate deep-sea fishery activity, which likely occurs in the Southern Caribbean area.     

Using mechanical clearing and goat grazing for restoring understorey plant diversity of embankments in the Rhône valley (Southern France)

Abstract

Consumption by animals remains one of the key points to assess the effectiveness of grazing impacts in woodland for increasing understorey plant diversity. To limit the spread of the brambles and restore understorey plant diversity on an artificial embankment an original system of clearings connected by paths was created by mechanically crushing brambles and allowing them to be grazed by rustic goats. The analysis of the indices of consumption of bramble under GIS has been used to provide an estimation of the volume ingested and an estimation of the effectiveness of the goats. The impacts of three different managements (goat grazing, brush clearing and grazing, clearing and exclusion of grazing) and control without management were then tested during a three-year period. The monitoring of the vegetation on permanent plots provided evidence that goat grazing significantly increased in the short term the species-richness and heterogeneity of herbaceous plants communities, in complement with prior clearing. Thus, the objectives of the managers to open up the area and reduce the bramble cover were achieved, but the prior introduction of goats and the installation of mobile enclosures would be advisable in order to ensure the sustainability of these measures on plant diversity in the long term.     

燕雀丘间复合体背内侧核对叫声的调控模式

鸣禽鸟的基本发声中枢——丘间复合体背内侧核(nucleus dorsalis medialis of the intercollicular complex,DM)对叫声的调控模式是诱发单次叫声。应用电生理与声学分析相结合的方法研究鸣禽鸟燕雀(Fringilla montifringilla)DM核团对声音调控的模式。经语图和频谱图分析,结果显示：燕雀左侧DM诱发单次叫声的声长和主能量区的带宽分别为右侧DM诱发叫声的2倍和1．7～3．1倍,提示燕雀DM对叫声声长和声强的调控能力,均呈明显的左侧优势。这与高级发声中枢(high vocal center,HVC)和古纹状体粗核(nucleus robustus archistriatalis,RA)等发声控制核团在控声模式中具有左侧优势的特征相似,从而为鸣禽发声控制通路高、低级中枢具有内源投射关系提供了声学上的证据。     

A Plant Health Care Program for Brambles in the Pacific Northwest

Pratylenchus and Xiphinema species have been associated with decline and mortality of brambles (Rubus species) in the Pacific Northwest of the United States. These nematodes cause direct feeding damage and (or) transmit viruses that result in poor fruit quality and plant decline. A nematode management program has been developed by the author to minimize chemical use and nematode-induced damage while optimizing fruit production. Nematode management is an integral part of a total plant health care program in which foliar and soil pests, plant stresses, and fertility are managed.