甜橙叶片营养元素适宜含量的研究

本研究探讨闽南甜橙主栽品种(印子柑、改良橙、伏令夏橙)叶片营养元素含量的适宜范围。结果表明,各品种不同地点、年份的叶片元素含量存在明显差异,而三个甜橙品种间叶片元素含量未见稳定的差异,因此,作者认为,可建立三个甜橙品种通用的叶片营养元素含量适宜标准。统计分析表明:其叶片毛素含量的变异系数,大量元素以氮、磷较小,镁、钾、钙较大;微量元素多高于大量元素。本文初步提出甜橙于片元素的适宜含量:氮2.50％～3.30％,磷0.12％～0.18％,钾1.00％～2.00％,钙2.00％～3.50％,镁0.22％～0.40％,铜4.0～18.0ppm,锌25.0～70.0ppm,锰20.0～100.0ppm,铁90.0～160.0ppm,硼25.0～100.0ppm。大量元素含量的适宜比值为氮:磷:钾:钙:镁=1:0.05:0.5:2:0.95:0.11。上列指标可供甜橙营养诊断指导合理施肥之参考。     

兰竹荔枝叶片营养元素适宜含量的研究

本研究旨在探讨福建荔枝最重要品种兰竹的叶片营养元素适宜含量。统计分析表明,不同地点、年份对同一品种叶片元素含量存在明显的差异;荔枝叶片含氮量变异系数最小,并按磷、镁、钙、钾依次增大。本研究初步提出的丰产兰竹荔枝秋梢叶片营养元素适宜含量为:氮1.5—2.2％,磷0.12—0.18％,钾0.7—1.4％,钙0.3—0.8％,及镁0.18一0.88％;其叶片氮、磷、钾、钙、镁的适宜比例是1:0.08:0.57:0.30:0.12。上列指标可供荔枝营养诊断指导施肥之参考。     

外源施钙对盐胁迫下花生营养元素吸收与分配的影响

为解决盐碱地花生养分吸收不畅及分配受阻等问题,研究外源施钙对盐胁迫下花生氮、磷、钾、钙、镁吸收积累、分配特性和产量的影响,为盐碱地花生生产合理、高效施肥提供理论依据.以‘花育25号’为材料,在0.3%盐胁迫浓度下,设置4个Ca浓度梯度[T₁(0)、T₂(75)、T₃(150)和T₄(225) kg·hm^-2 CaO]进行盆栽试验.结果表明: 花生植株内养分含量依次为氮>钾>钙>磷>镁,苗期植株对氮和钙素的吸收中心均在叶片,磷、钾、镁的吸收中心为茎,苗期近一半的营养积累分配在各元素相应的生长中心.成熟期氮、磷、钾吸收中心转移到荚果中,尤以氮、磷在籽仁中的积累量居多,达72.3%～78.9%;钙、镁的吸收中心仍为叶片和茎,其分配比例分别为49.8%、32.6%.盐胁迫明显抑制花生植株各器官对氮、磷、钾、钙和镁各元素的吸收积累与分配,尤以对叶片和籽仁中氮素积累的抑制较为显著,但盐胁迫对荚果中镁的积累有促进作用.外源钙对盐胁迫下花生植株各器官氮、磷、钙和镁的吸收累积有明显的促进作用,尤其对籽仁中磷素积累的调节最为显著,其在籽仁中的积累量提高50%以上.适宜的钙施用量可显著促进盐胁迫下花生养分吸收积累量,提高花生成熟期荚果中氮、磷、钾的分配比,最终提高产量.综合各养分吸收、积累分配和产量结果,在0.3%盐胁迫条件下钙肥适宜施用量为150 kg·hm^-2 CaO.     

养分胁迫对降香黄檀幼苗生长及叶片养分状况的影响

设置氮、磷、钾缺乏和过量,钙、镁、硫缺乏以及全素等10个处理,采用砂培法研究大量元素缺失或过量对降香黄檀幼苗生长及叶片养分状况的影响。结果表明:处理约20 d时幼苗叶片开始出现不同症状,其中氮、磷、镁的影响最为明显;养分胁迫显著影响苗木生长,缺磷、磷过量和缺氮的苗高分别比对照下降64.5%、61.6%和56.0%,叶面积下降95.1%、92.8%和76.3%,生物量下降92.1%、93.0%和80.6%。向量分析结果表明,在大量元素缺乏的情况下,叶片营养元素间存在协同或拮抗作用,氮和钙之间具明显的协同作用,而磷过量和钾过量会降低钙的吸收。     

太湖地区两种稻麦轮作制中营养元素的循环——Ⅱ.常规稻田生态系统中大量元素的循环状况

本文在太湖流域研究了平原地区三个不同试验点上小麦-水稻和元麦-水稻-水稻两种轮作方式下常规稻田生态系统中氮、磷、钾、钙、镁等五种大量营养元素的循环及表观平衡状况。所考虑的输入途径有施肥、灌溉、降雨、播种及移栽;输出途径有作物收获、田面排水和渗漏淋溶。此外,氮素的输出还包括了氨挥发及硝化与反硝化脱氮。三试验点两种熟制的稻田生态系统中各元素的表观平衡状况基本一致,在土壤养分库中磷、氮有盈余,钾、镁和钙有亏损。     

红三叶人工草地营养元素的生物循环

 本文研究了我国北亚热带高海拔地区红三叶人工草地11种营养元素的生物循环特征。结果表明:1.营养元素的存留量、归还量和吸收量均可分为5个水平;(1)高量级：氮、钾、钙;(2)中量级：磷、镁;(3)低量级：铁;(4)少量级：锰、锌、铜、硼;(5)微量级：钼。2．红三叶群落地上部的净生产量、自然归还量和元素的存留量均显著高于地下部。3．红三叶人工草地的元素输出量以氮、钾、钙较大。此外,对草用和种用红三叶群落营养元素生物循环特征的差异进行了比较。为维持本区红三叶人工草地营养元素的平衡,目前必须施用磷肥,施用量不能小于250kg·hm-2过磷酸钙。     

尾叶桉叶片氮磷钾钙镁硼元素营养诊断指标

采用临界值法对尾叶桉幼林材积生长进行叶片营养诊断,试验结果表明,氮,磷,钾,钙,镁和硼等营养元素的临界浓度分别为15.3g/kg,1.2g/kg,4.2g/kg,16.1g/kg,2.5g/kg和0.019g/kg;最适浓度范围分别为15.3-18.1g/kg,1.2-1.7g/kg,4.2-5.6g/kg,16.1-19.8g/kg,2.5-3.0g/kg和0.019-0.031g/kg,而对树高生长进行营养诊断时,上选结果稍微有些变化,试验还得到各营养元素比值的临界值和最适范围。     

油茶林生态系统中营养元素循环的研究

本文研究了两种优化经营措施油茶林中营养元素的含量、净积累和循环,以综合措施的油茶林作一实例,分析了生态系统中营养元素的循环过程,并提出了氮、磷、钾元素的循环局部动态模型。结果表明:(1)油茶林各器官的营养元素的含量呈现出氮>钾>镁>钙>磷的趋势,最高的是果或叶,最低的是树干。(2)当油茶林采取优化经营管理后,器官养分随之增高。如综合措施一年生叶氮、磷、钾含量分别高于对照的32.5％、26.5％、8.6％;而一年生枝中氮、磷、钾含量分别高于对照的26.5％、33.9％、1.7％。这更进一步证实了优化措施之所以产果量高,就是因为积累了充分养分,保证了生长发育的需要这一点。     

川东红池坝地区红三叶和鸭茅人工草地土壤和植物营养元素含量特征的研究

川东红池坝地区红三叶（Ｔｒｉｆｏｌｉｕｍｐｒａｔｅｎｓｅ）和鸭茅（Ｄａｃｔｙｌｉｓｇｌｏｍｅｒａｔａ）人工草地土壤和植物营养元素的含量特征如下：（１）土壤中的元素含量以铁、钾和镁较高,钠、钙、氮、锰和磷较低,硫、锌、硼、铜和钼微少;（２）从元素的富集特征来看,该区土壤中的钙、硫为重度淋溶元素,钾、磷、镁、锌、钠为中度淋溶元素,铁、铜属轻度淋溶元素,锰属富集元素;（３）根据元素的生物吸收系列,红三叶属氮－钙型植物,鸭茅属氮－钾－磷型植物。（４）两种牧草的生物吸收系数,均以钙、硫、磷较高,钠、铁较低,其余７种元素介于二者之间。     

华南两种豆科人工林体内养分转移特性

报道了马占相思与大叶相思两种豆科植物叶内养分的动态及养分转移特征 ,分析测定两种植物的绿叶与黄叶内氮、磷、钾、钠、钙、镁等 6种元素的含量。结果表明 ,两种植物的成熟叶养分含量季节性变化不明显 ,全年养分水平较为稳定。马占相思体内氮、磷、钾、镁养分水平显著高于大叶相思 ,这 4种元素在绿叶与黄叶内的含量也有显著差别。两种植物对 4种元素大量转移再利用 ,但对钙、钠没有表现出转移 ,大叶相思与马占相思平均养分转移率分别为 :氮 49.8% ,39.8% ,磷 75 .5 % ,66.5 % ,钾 61 .8% ,43.3% ,镁 1 9.4% ,1 5 .6%。作为豆科植物具有的固氮能力 ,使转移率格局与非豆科植物不同 ,表现为氮转移率降低 ,而其它元素转移率显著上升。马占相思氮转移量高达 1 1 2 .43kg/( hm2 · a) ,磷 1 2 .74kg/( hm2 ·a) ,钾 45 .78kg/( hm2 · a) ,但镁只有 1 .64kg/( hm2 · a) ,大叶相思养分转移量为 :氮 90 .1 7kg/( hm2 · a) ,磷 7.2 3kg/( hm2·a) ,钾 34.49kg/( hm2·a) ,镁 1 .5 8kg/( hm2·a) ,通过转移获得的养分与植物从环境中吸收的养分量大致相当 ,这两个养分源共同满足了植物生长过程中的养分需求。     

Effects of cobalt, magnesium, and cadmium on contraction of rat soleus muscle.

The effects on isometric tension of three divalent ions that block calcium channels, magnesium, cobalt, and cadmium, were tested in small bundles of rat soleus fibers. Cobalt, at a concentration of 2 or 6 mM, reversibly depressed twitch and tetanic tension and the depression was much greater in solutions containing no added calcium ions. Magnesium caused much less depression of tension than cobalt. The depression of tension was not accompanied by membrane depolarization or a reduction in the amplitude of action potentials. A reduction caused by 6 mM cobalt in the amplitude of 40 or 80 mM potassium contractures was not accompanied by a comparable reduction in tension during 200 mM potassium contractures, and could be explained by a shift in the potassium contracture tension-voltage curve to more positive potentials (by +7 mV on average). Similar effects were not seen with 2 or 6 mM magnesium. At a concentration of 20 mM, both cobalt and magnesium depressed twitch and tetanic tension, cobalt having greater effect than magnesium. Both ions shifted the potassium contracture tension-voltage curve to the right by +5 to +10 mV, caused a small depression of maximum tension, and slowed the time course of potassium contractures. Cadmium (3 mM) depressed twitch, tetanic, and potassium contracture tension by more than 6 mM cobalt, but experiments were complicated by the gradual appearance of large contractures that became even larger, and sometimes oscillatory, when the solution containing cadmium was washed out. It was concluded that divalent cations affect both activation and inactivation of tension in a manner that cannot be completely explained by a change in surface charge.     

The Influence of Inorganic Salts on the Combustion of Cigarette and on the Transfer of Nicotine on to Smoke

The effects of several inorganic salts on the combustion of cigarette and the transfer of nicotine into cigarette smoke have been investigated. Ferric, ferrous, ammonium, magnesium salts and chlorides or sulfates depress the combustibility. Contrary to this, potassium, calcium salts, nitrates and carbonates promote it. The combustion-zone temperatures of cigarettes are within the range from 815°C to 857°C, they are not significantly affected by an addition of inorganic salts. Magnesium nitrate, zinc nitrate and potassium phosphate improve the whiteness of cigarette ash, but the other salts rather darken it. Any relations, however, are not recognized between the whiteness of ash and combustibility of cigarettes. The amounts of nicotine transferred into smoke can be reduced by an addition of inorganic salts, among which magnesium is the most effective.     

Magnesium and phosphate enrichment of culture medium stimulates the proliferation of epidermal cells from newborn and adult mice

The proliferation and differentiation of mouse epidermal cells can be sequentially analyzed by modification of extracellular calcium. Newborn cells cultured in low calcium medium (less than 0.1 mM) proliferate as a monolayer and maintain a typical basal cell phenotype in culture but have a limited proliferative capacity and short lifespan. Elevation of the magnesium content of the culture medium from 1 to 5 mM stimulated the proliferation of newborn mouse (1-3 days old) keratinocytes. Maximal DNA synthesis rates, as determined on day 5 of culture, were up to 2-3-fold higher in the magnesium-enriched cultures. Exposure to high magnesium caused 3-4-fold increases in the DNA content of newborn keratinocyte cultures, and extended the confluent phase of epidermal cell growth to over 10 days. Other divalent cations (strontium, copper, zinc, nickel, beryllium, and barium) did not improve keratinocyte growth in culture. Keratinocytes from the tail skin of adult (3 months old) mice displayed an absolute requirement for high phosphate in the culture medium. The medium containing an optimal (10 mM) phosphate concentration prevented the cell detachment caused by the standard low (1 mM) phosphate medium, and in combination with an elevated magnesium content (10-15 mM) it markedly increased both DNA synthesis rates and DNA content of the adult cell cultures. Optimally growing, newborn or adult cultures contained less cells in the G1 phase of the cell cycle and more cells in S and G2 +M. The addition of phosphate and magnesium per se did not induce keratinocyte differentiation and did not interfere with the high calcium (1 mM)-induced differentiation.     

Isolation of a starch utilizing, phosphate solubilizing fungus on buffered medium and its characterization

A phosphate solubilizing fungus, Paecilomyces marquandii AA1 was isolated from phosphate deficient soil on Pikovskaya's medium buffered with Tris-HCl pH 8. The organism was identified on the basis of morphological characterization and by sequencing of 18S rRNA gene. The organism could release phosphate from both buffered and unbuffered medium and solubilized rock phosphates from various places. The effect of concentration of ore, temperature, carbon and nitrogen sources on solubilization of rock phosphate was studied. Ammonium salts were the best nitrogen source, followed by asparagine, sodium nitrate, potassium nitrate, urea and calcium nitrate in that order.     

Influence of potassium and calcium ions on the phosphatidylinositol and phosphatidylcholine metabolism in rat fibroblasts after growth stimulation by calf serum.

In secondary cultures of embryonic rat fibroblasts which were arrested in G1 (G0) by serum depletion and subsequently triggered into the cell cycle by readdition of growth factors isolated from fetal calf serum the influence of the potassium and calcium concentrations in the medium on phosphatidylinositol and phosphatidylcholine metabolism was investigated. The incorporation of inorganic [32P]phosphate into phosphatidylinositol is dependent on the potassium content of the culture medium. The specific activity of 32P in phosphatidylinositol is increased at K+ concentrations between 0.1 and 1 mM. Also calcium (between 0.01 and 2 mM) slightly stimulates phosphatidylinositol metabolism. Also the incorporation of myo-[3H]inositol is increased at potassium concentrations between 0.2 and 1 mM, whereas calcium is slightly inhibitory. The labelling of phosphatidylcholine with either [32P]phosphate or [3H]choline is not dependent on the potassium and calcium concentrations of the culture medium. Moreover, the phospholipid metabolism of permanently growing epithelioid and fibroblastoid cells lines, which were investigated, is considerably less dependent on the K+ and Ca2+ ions.     

The Effects of Culture Conditions on the Secretion of Human Lysozyme by Saccharomyces cerevisiae A2-1-1A

The effects of initial glucose concentrations on the cell growth, glucose usage, and human lysozyme (HLY) secretion under the ENOl promoter were examined in the Saccharomyces cerevisiae strain A2–1–1A harboring a multicopy plasmid. By increasing the initial glucose from 2 % to 10 %, the HLY secretion increased 7 ~ 8 fold although the cell growth was not affected. By adding a mixture of mineral salts to the basal medium, the HLY secretion was increased about twice due to the continuity of the HLY expression at the stationary phase of cell growth.

The high HLY secretion (5.5 mg per liter, 47-fold higher than the original level) was achieved by the strain A2–1–1A grown in the synthetic basal medium containing 10% initial glucose, and supplemented with mineral salts containing ammonium sulfate, potassium phosphate, potassium chloride, magnesium sulfate, and iron sulfate.     

Clastogenicity in vitro of the Na, K, Ca and Mg salts of saccharin; and of magnesium chloride; consideration of significance

The sodium, potassium, calcium and magnesium salts of saccharin, and magnesium chloride, have been shown to be clastogenic to Chinese hamster lung (CHL) fibroblasts in vitro, but only at elevated dose levels (8-16 mg/ml). Saccharin acid was inactive to the limits of its solubility (4 mg/ml). When the data are expressed in terms of ionic concentration, each salt showed a similar clastogenic potency. This suggests that ionic effects induced by these salts in the assay medium may be the critical determinant of the clastogenic effects seen, rather than that the saccharin moiety presents a genotoxic insult to the chromosomes of the cells. The metal-chelating agents EDTA and EGTA were non-clastogenic, but the disodium salt of EDTA showed weak activity prior to toxicity at 0.5 mg/ml. The absence of a clastogenic response for the salts of saccharin at dose levels lower than 4 mg/ml is discussed within the context of the threshold-dependent tumour-promoting activity of high dose levels of sodium saccharin to the bladder of male rats. The doubtful value of conducting in vitro clastogenicity studies at dose levels greater than 10(-2) M is discussed.     

Osteogenesis promoted by calcium phosphate N,N-dicarboxymethyl chitosan

The effects of N,N-dicarboxymethyl chitosan (DCMC) on the precipitation of insoluble calcium salts, namely phosphate, sulfate, oxalate, carbonate, bicarbonate and fluoride, and magnesium salts, namely phosphate and carbonate, were studied. Results indicated that the chelating ability of DCMC interfered effectively with the well-known physico-chemical behaviour of magnesium and calcium salts. Dicarboxymethyl chitosan formed self-sustaining gels upon mixing with calcium acetate, as a consequence of calcium chelation. DCMC mixed with calcium acetate and with disodium hydrogen phosphate in appropriate ratios (molar ratio Ca/DCMC close to 2.4) yielded a clear solution, from which, after dialysis and freeze-drying, an amorphous material was isolated containing an inorganic component about one half its weight. This compound was used for the treatment of bone lesions in experimental surgery and in dentistry. Bone tissue regeneration was promoted in sheep, leading to complete healing of otherwise non-healing surgical defects. Radiographic evidence of bone regeneration was observed in human patients undergoing apicectomies and avulsions. The DCMC–CaP chelate favoured osteogenesis while promoting bone mineralization.     

Statistical optimization of culture media for growth and lipid production of <Emphasis Type="Italic">Botryococcus braunii</Emphasis> LB572

Botryococcus braunii has an outstanding ability to produce lipid; however, it is a slow-growing green microalgae. Statistical optimization of growth media was performed to faster growth and to increase lipid concentration. The effect of media composition on the growth of B. braunii LB572 was examined using fractional factorial design and central composite design. The media components examined include sodium carbonate, potassium phosphate, calcium chloride, magnesium sulfate, ferric citrate, and sodium nitrate. The results indicated that potassium phosphate and magnesium sulfate were major impact factors. The optimum concentrations of potassium phosphate and magnesium sulphate were found to be 0.058 and 0.09 g/L, respectively, for growth and 0.083 and 0.1 g/L, respectively, for lipid production. These values were validated using bubble column photobioreactors. Lipid productivity increased to 0.19 g/L/day in lipid-optimized media, with an average biomass productivity of 0.296 g/L/day and 64.96% w/w. In growth-optimized media, lipid productivity was 0.18 g/L/day, with an average biomass productivity of 0.304 g/L/day and 59.56% w/w.     

Effects of phosphate, glucose, and ammonium on cell growth and lincomycin production by Streptomyces lincolnensis in chemically defined media

Cell growth and lincomycin production were measured in batch cultures of Streptomyces lincolnensis in chemically defined media. In these fermentations the specific rate of antibiotic production was maximal during growth and always declined at the end of the growth phase. It was found that both phosphate and ammonium salts, while required for cell growth, had negative effects on antibiotic production. By increasing the concentration of magnesium sulfate, it was possible to increase both the production rates and final titers of lincomycin. The mechanism for this effect was found to be the reduction of soluble phosphate in the medium through the precipitation of ammonium magnesium phosphate. Lincomycin production rates were not inhibited by glucose at concentrations of up to 30 g/L.