EFFECT OF INDOLE-3-ACETIC ACID ON GROWTH OF CODIUM FRAGILE SUBSP. TOMENTOSOIDES (CHLOROPHYCEAE) IN CULTURE1

Growth of Codium fragile subsp. tomentosoides (van Goor) Silva in culture depends upon the season of seawater collection. One factor responsible for this variation in growth may be indole-3-acetic acid (IAA). When 10^?9 to 10^?4 M IAA is added to cultures of Codium fragile, optimum growth is at 10^?6 M. The response to exogenous IAA depends upon the time of year when the sea-water is collected. The growth in a range of known IAA concentrations allows the prediction of a seasonal cycle of IAA, or its physiological equivalent, in Rhode Island coastal waters. Such a compound may be an important ecological factor for some algal species.     

EFFECT OF INDOLE-3-ACETIC ACID,KINETIN, AND ETHYLENEDIAMINETETRAACETIC ACID ON PLANT GROWTH AND UPTAKE AND TRANSLOCATION OF LEAD,MICRONUTRIENTS, AND MACRONUTRIENTS IN ALFALFA PLANTS

Alfalfa plants germinated and grown for 15 d in soil containing 80 mg Pb kg^?1 were treated with ethylenediaminetetraacetic acid (EDTA) at 0.8 mM and indole-3-acetic acid-kinetin (IAA-KN) at 100 μM. Fifteen days after the treatment application, the concentration of lead (Pb), macronutrients, and micronutrients was determined using inductively coupled plasma/optical emission spectroscopy. The chlorophyll content and plant growth were also measured. Roots of plants exposed to Pb alone, Pb–EDTA, and Pb–EDTA-IAA-KN had 160, 140, and 150 mg Pb kg^?1 DW, respectively. Pb was not detected in the stems of plants exposed to Pb alone; however, stems of plants treated with EDTA and EDTA–IAA-KN had 78 and 142 mg Pb kg^?1 DW, respectively. While the Pb concentration in leaves of plants treated with EDTA and EDTA–IAA-KN was 92 and 127 mg kg^?1 DW, respectively. In addition, EDTA and EDTA–IAA-KN significantly increased the translocation of zinc and manganese to leaves. The x-ray absorption spectroscopic studies demonstrated that Pb(II) was transported from roots to leaves without a change in the oxidation state.     

云南山楂中吲哚乙酸、脱落酸、玉米素和玉米素核苷的内源水平及其生根率

以云南山楂(Crataegus scabrifolia (Franch.)Rchd.)几个株系的成年树和实生苗的离体培养芽条为材料,用酶联免疫吸附测定法(ELISA)测定了它们的叶片中吲哚乙酸(IAA),脱落酸(ABA),玉米素和玉米素核苷(Z+ZR)的内源水平,探讨了这三种激素及其之间的平衡与生根率的相关性。结果发现:1.IAA内源水平之差异存在于株系间。2.内源(Z+ZR)在株系间无显著差异,而幼树发育至成年树的过程中,与IAA的平衡是多样的,同成年树的生根率似有以下相关性,当IAA水平降低,同时(Z+ZR)水平升高,有利于生根,反之则抑制生根。3.ABA内源水平无论成年或幼年树都呈低水平且无显著差异。     

A SEARCH FOR SOME ANG1OSPERM HORMONES AND THEIR METABOLITES IN CAULERPA PASPALOIDES (CHLOROPHYTA)1

The best available methods were used to search for an-giosperm hormones in the green alga Caulerpa paspa-loides (Bory) Greville. Solvent partitioning of methanol extracts led to acidic ethyl acetate fractions that it were run through high-performance liquid chromatography. Each of the resulting 25 fractions was divided in half so that one half was tested in the dwarf rice or lettuce hypocotyl assays for gibberellins and the other half was methylated and silylated for capillary gas chromatography combined with computerized mass spectrometry. By comparing algal mass spectra with spectra in the extensive library of mass spectra and associated Kovats Retention Indices that MacMillan's Bristol group has amassed, indole-3-acetic acid's presence in the alga was confirmed and dioxindole-3-acetic acid was found. However, despite the presence of several peaks of gibberellin-like activity in the bioassays, no gibberellin or gibberellin metabolite was found in the thousands of full mass spectra examined. The gibberellin-like activity in the acidic ethyl acetate fractions was therefore presumably not from any gibberellin known from vascular plants.     

EFFECT OF COPPER ON GROWTH,SILICIC ACID UPTAKE AND SOLUBLE POOLS OF SILICIC ACID IN THE MARINE DIATOM,THALASSIOSIRA WEISFLOGII (BACILLARIOPHYCEAE)1

The toxicity of Cu to Thalassiosira weissflogii (Grunow) was investigated, focusing on the internal soluble pool of silicic acid. Silicic acid uptake and growth rates were found to be functions of both the cupric ion activity and the concentration of silicic acid in the growth medium. The soluble pool of Si per cell depended on the balance between the uptake rate and the division rate. The soluble pool in non-dividing cultures reflected simply the uptake rate (and inhibition by copper of the uptake rate), but in dividing cultures the soluble pools had complex patterns with time depending on uptake rates and timing of division. Intracellular soluble pools of silicic acid are a good indicator for the relative inhibition of uptake and growth processes.