赣南地区森林地表死可燃物载量与环境因子的关系

森林可燃物载量分布格局是植被与地形等环境因子之间相互作用的结果。本研究通过野外实测赣南地区主要7种森林类型地表死可燃物载量数据,依据时滞可燃物分类标准,构建了地表可燃物载量与地形、植被等环境因子间的结构方程模型,并分析了各因子的影响路径及其直接、间接和总效应。结果表明: 7种不同森林类型中,1、10和100 h时滞可燃物载量均是针阔混交林内最高,毛竹林内最低。对1 h时滞载量影响最大的变量依次为:坡度(影响系数为0.40)＞树冠高度(0.07)＞树种(-0.03)＞郁闭度(0.01);对10 h时滞载量影响最大的变量依次为:胸径(0.15)＞树种(-0.09)＞坡向(-0.08)＞郁闭度(-0.06);对100 h时滞载量影响最大的变量依次为:坡向(0.25)＞胸径(0.19)＞郁闭度(-0.08)＞树种(0.02);对可燃物总载量影响最大的变量依次为:坡度(0.22)＞树种(-0.04)、郁闭度(-0.04)＞树冠高度(-0.01)。     

Purification, characterisation, and inhibition by monoterpenes of acetylcholinesterase from the waxmoth, Galleria mellonella (L.)

Acetylcholinesterase (AChE) was purified from the brain of the waxmoth, Galleria mellonella (L.) by affinity chromatography followed by anion exchange chromatography. It resolved as a single band by polyacrylamide gel electrophoresis (PAGE) both non-denaturing and SDS (silver stained), and as a single peak by high pressure liquid chromatography (HPLC), in an overall yield of 32% representing 283-fold purification. This was a true acetylcholinesterase, with no activity as a non-specific cholinesterase (butyrylcholinesterase). The molecular weight determined by PAGE in the absence and presence of sodium dodecyl sulphate (SDS) was ca. 240,000 Da and 60,000 Da respectively, indicating an arrangement of tetrameric subunits. 2-Heptanone, the honeybee alarm pheromone, reversibly and competitively inhibited the purified Galleria AChE with a K_i value of 1.34×10⁻³ M. Furthermore, five monoterpenes associated with plant defence and representing a range of functional groups, also were reversible competitive inhibitors of the purified AChE from Galleria, which is consistent with previous data for electric eel AChE (Ryan, M.F., Byrne, O., 1988. Plant-insect coevolution and inhibition of acetylcholinesterase. Journal of Chemical Ecology 14, 1965-1975).     

Bleaching euglena gracilis with antihistamines and streptomycin-type antibiotics

Summary Kanamycin, paromomycin, and neomycin, like streptomycin, permanently bleach Euglena gracilis. This effect, along with general toxicity, is opposed by Mg, histidine or a combination of pantothenate, nicotinic acid, and threonine. Such opposition is thought to be peripheral effects centered on uptake and transport.Certain antihistamines, notably tripelennamine, methapyrilene, and pyrilamine induce permanent bleaching. Diphenylhydramine and phenindamine induced temporary bleaching. Doxylamine, antazoline, pyrathiazine, pheniramine, prophenpyridamine, and promethazine did not bleach when tested up to inhibitory concentrations.Bleaching by streptomycin+heat was additive, not synergistic.The evidence at hand for the mode of action of ultraviolet irradiation, streptomycin antibiotics, and erythromycin suggests, as a working hypothesis, that the common factor may be interference with nucleic acid metabolism; the common factor in bleaching by antibiotics may be simultaneous provision of a molecular grouping favoring uptake and transport of the active moiety, which in turn may be rare sugars interfering with ribose and desoxyribose in the photosynthetic apparatus.New antibiotics of the streptomycin family might well be screened for bleaching activity as a possible index of damage to the 8th cranial nerve, for so far the correlation is excellent for this class of antibiotic.This paper is dedicated to Professor Dr. E. G. Pringsheim on the occasion of his 80th birthday.     

Ecology and management of mahogany (Swietenia macrophylla King) in the Chimanes Forest, Bed, Bolivia

Mahogany ( Swietenia macrophylla King) regenerates in areas of erosion on high terraces and in forest killed by flooding and deposition of alluvial sediments in the Chimanes Forest, Bolivia. These hydrological disturbances are patchy, and only one of five stands of mahogany that we inventoried was regenerating. Mahogany survives these disturbances significantly better than the common tree species. The long time between disturbances appears to favour late maturation. Mahogany trees allocate little photosynthates to reproduction until they are very large emergents, at least 80 cm in diameter. The episodic nature of the regeneration sites means that mahogany stands are composed of one or a few cohorts, which are vulnerable to overharvesting, particularly with the current use of a minimum cutting diameter to regulate harvest. The delayed onset of fecundity means that the small trees that escape harvest are not very fecund, resulting in minimal seed input to logged forest. Only 7–9% of the gaps created by logging contain natural regeneration after 20 + yr. A successful management plan for mahogany would entail a monocyclic harvest, with a rotation age of 100 + years, the estimated time that it takes for trees to achieve commercial size in natural forest. Since the number of seed trees that will be left is small, they should be concentrated in sites that are likely to be conducive to natural regeneration, such as near rivers and flood damaged forest. Seed production will be maximized for a given basal area (opportunity cost to loggers) if trees c. 110 cm dbh are selected as seed trees. The mahogany stocks in the Chimanes Forest are nearly exhausted, but the findings of this study could be used to help rebuild the mahogany populations, or to design management plans for the commercial species that have similar ecologies to mahogany.     

Residual phosphorus and long-term management strategies for an Ultisol

Due to their extensive growth potential, transgenic root systems arising from inoculation withAgrobacterium rhizogenes became popular in the last decade as model systems in domains as diverse as production of secondary metabolites, interactions with pathogens and symbionts, examination of gene importance in control of root development or in regulation of gene expression in roots. Wild-type bacterial strains have also been considered as useful tools to stimulate rooting on recalcitrant cuttings or microcuttings as they cause abundant root initiation at the site of inoculation.Root initiation and the in vitro growth characteristics of transformed roots result from the transfer of genes located on the root-inducing plasmid (Ri) to plant cells and their expression therein. Two sets of pRi genes are involved in the root induction process: therol (rootloci) genes located in the TL region and theaux genes of the TR region. Some of these genes being able to interact, the system appears also as a new tool to study the role of auxin in the process of root initiation. The distinctive phenotype of the transformed roots which are capable of hormone autonomous growth seems to be controlled mainly by therol genes. Theserol genes, i.e. the geneticloci rol A, rol B, rol C androl D correspond to open reading frames ORFs 10, 11, 12 and 15. In vitro experiments determined the functions of the Rol B and Rol C proteins but the functions of Rol A and Rol D are still unknown. Altered metabolism of developmental regulators or modified sensitivity to auxin have been suspected to mediate root induction and morphological abnormalities of transformed roots and plants.The target cells for transformation and the cells which are competent for root initiation will be characterized as well as the subsequent development of transgenic roots provided with various constructs from the whole T-DNA to singlerol genes. Results dealing with auxin contents in relation with root growth kinetics, phenotype and structure, will also be presented and discussed with the potential use of therol genes to control root biomass. F J de Bruijn Section editor     

Heterogeneous binding of high mobility group chromosomal proteins to nuclei

A dramatic difference is observed in the intracellular distribution of the high mobility group (HMG) proteins when chicken embryo fibroblasts are fractionated into nucleus and cytoplasm by either mass enucleation of cytochalasin-B-treated cells or by differential centrifugation of mechanically disrupted cells. Nuclei (karyoplasts) obtained by cytochalasin B treatment of cells contain more than 90 percent of the HMG 1, while enucleated cytoplasts contain the remainder. A similar distribution between karyoplasts and cytoplasts is observed for the H1 histones and the nucleosomal core histones as anticipated. The presence of these proteins, in low amounts, in the cytoplast preparation can be accounted for by the small percentage of unenucleated cells present. In contrast, the nuclei isolated from mechanically disrupted cells contain only 30-40 percent of the total HMGs 1 and 2, the remainder being recovered in the cytosol fraction. No histone is observed in the cytosol fraction. Unike the higher molecular weight HMGs, most of the HMGs 14 and 17 sediment with the nuclei after cell lysis by mechanical disruption. The distribution of HMGs is unaffected by incubating cells with cytochalasin B and mechanically fractionating rather than enucleating them. Therefore, the dramatic difference in HMG 1 distribution observed using the two fractionation techniques cannot be explained by a cytochalasin-B-induced redistribution. On reextraction and sedimentation of isolated nuclei obtained by mechanical cell disruption, only 8 percent of the HMG 1 is released to the supernate. Thus, the majority of the HMG 1 originally isolated with these nuclei, representing 35 percent of the total HMG 1, is stably bound, as is all the HMGs 14 and 17. The remaining 65 percent of the HMGs 1 and 2 is unstably bound and leaks to the cytosol fraction under the conditions of mechanical disruption. It is suggested that the unstably bound HMGs form a protein pool capable of equilibrating between cytoplasm and stably bound HMGs.