镉胁迫下活性炭对小麦幼根的保护作用

对镉处理下活性炭对小麦幼根的保护作用进行了研究。在小麦幼根的水培环境中加入镉导致了小麦幼根根长的降低、干重及鲜重的下降、细胞死亡水平上升和可溶性蛋白含量的增加。将小麦幼根置于加入活性炭的水培环境中并未对小麦幼根的根长、干重、鲜重、细胞死亡水平和可溶性蛋白的含量造成不良的影响,且在一定程度上促进了根的生长并降低了细胞的死亡水平。而在镉处理下加入活性炭则明显减缓了小麦幼根的根长的降低、干重及鲜重的下降、细胞死亡水平上升和可溶性蛋白含量的增加。上述观察表明,活性炭的加入对于镉和氯苯胁迫下小麦幼根具有一定的保护作用。     

镍对水培叶菜尿素同化的效应

在水培条件下,尿素态氮的肥效较硝态氮低。镍刺激青菜和对用莴苣的尿素同化,促进植株生长。营养液中镍浓度过高时,植株呈现心叶黄化的生长障碍症状,生长受到抑制。在无土栽培中,营养液中添加适量镍有利于提高水培叶菜类对尿素态氮的利用率。     

淡水藻类在监测水质和净化污水中的应用

淡水藻类作为水体中的初级生产者,分布广泛,适应性强,在水生生态系统食物链中占据着十分重要的地位,在水质监测中起着关键的作用。通过对藻类生长与水环境之间的相互关系进行简要的概述,探讨了pH值和氮磷对淡水藻类的生长的影响,以及淡水藻类的生长对外界环境的影响。藻类不但应用于水质监测,而且还能去除水体中的氮、磷等营养物质和其它有机物,对自然水域中的污水有良好的净化作用。重点论述淡水藻类在水质监测和污水净化中的作用以及利用淡水藻类来处理污水的方法。并提出了保护水资源的相关建议,为综合监测和治理水环境提供一定的理论依据和支持。     

不同配方营养液对三种观叶植物水培的效应

采用不同配方营养液对羽裂蔓绿绒、白掌和玛丽安万年青三种观叶植物进行水培试验,观测不同处理植株的生长变化及营养液pH变化动态。结果表明,大量元素含量为11.2 mg/L NH₄⁺-N+134.4 mg/L NO₃^--N+24.8 mg/L P+187.2 mg/L K+96.0 mg/L Ca+28.8 mg/L Mg+38.4 mg/L S的营养液(pH 5.64,EC为1.16 ms/cm)较适合羽裂蔓绿绒和白掌的生长;而玛丽安万年青在大量元素含量为11.2 mg/L NH₄⁺-N+124.6 mg/L NO₃^--N+46.5 mg/L P+202.8 mg/L K+88.0 mg/L Ca+14.4 mg/L Mg+19.2 mg/L S的营养液(pH 6.01,EC为1.12 ms/cm)中生长较好;维持营养液相对稳定的pH值也是水培中的重要因素。     

三峡库区汛期浮游藻类与水质特征研究

三峡水库建成后, 库区内长江流速减缓、自净化能力降低, 影响了藻类演替及水域水质。研究三峡库区重庆至三斗坪地区汛期浮游藻类及水质特征, 依据水体生物、化学特征评价污染状况、划分水质类别, 并根据当地情况提出保护水质的建议。调查期间, 共鉴定藻类6 门49 属, 以蓝藻、硅藻和绿藻为主, 其中蓝藻占主要优势; 多样性指数普遍在1-2 之间。库区水环境中酸碱度(pH)、溶解氧(DO)、营养盐均适宜藻类生长, 已具备了藻类爆发式生长的条件。由生物评价法和多种水质评价方法分析表明: 汛期库区水体属富营养化水平, 呈中度污染, 水质主要受控于总磷(TP)、溶解性总固体(TDS)、透明度、pH, 且总磷影响最为严重。生物和化学水质评价方法均反映出库区水体自上游至下游水质污染程度加剧的趋势。     

伊乐藻(Elodea nuttallii)对高浓度氮磷营养盐的耐受性

通过5个相对恒定的TN、TP浓度梯度下伊乐藻(Elodea nuttallii)的生长实验,探讨了伊乐藻对高浓度氮磷营养盐的耐受性,比较了各营养盐浓度下水体的pH值、DO、浮游藻类叶绿素a和附着藻类叶绿素a以及伊乐藻的株高、湿质量、干质量和叶绿素a含量.结果表明:在实验条件下,伊乐藻能耐受TN=10 mg·L~(-1),TP=0.4 mg·L~(-1)的胁迫,且在该营养盐水平下水体中没有出现大量的浮游藻类;而在TN=50 mg·L~(-1)、TP=2 mg·L~(-1)和TN=100 mg·L~(-1)、TP=4 mg·L~(-1)的高营养盐条件下,伊乐藻的生长受到了明显的抑制,同时水体中的浮游藻类明显增多,而附着藻类则明显减少;在高营养盐水平下,一方面水体中的某些营养盐可能对伊乐藻产生了直接伤害,另一方面水体中浮游藻类的增多,所导致的遮光作用也可能限制了其生长;对水体中营养盐的平均水平低于TN=10 mg·L~(-1),TP=0.4 mg·L~(-1)的太湖而言,沉水植被的消亡可能不是由于氮磷营养盐所产生的直接伤害和胁迫.     

草酸在提高大豆磷吸收利用及抗铝性中的作用

将1mmol/L草酸（pH=6.0)加入到4种难溶性含磷化合物（FePO4、CaHPO4、AlPO4和磷矿粉）的水溶液中,其溶出磷的含量均显著提高,溶磷量随着反应时间的延长首先增大,然后有所下降。水培条件下大豆利用磷矿粉中磷的能力很差,加入1mmol/L草酸（pH=6.0)能促进大豆对磷矿粉中磷的吸收利用,表明草酸可能通过螯溶磷矿粉中的磷而提高了其有效磷的含量。200μmol/L铝离子能显著抑制大豆根的生长,而60μmol/L草酸能基本解除其抑制作用。     

黑杨水培中营养液抑菌处理研究

水培条件下进行快速繁殖是大量生产黑杨种苗的途径之一 ,营养液的抑菌处理是水培的一个重要方面。该研究进行了二硫氰甲烷、中生菌素、敌磺钠、链霉素、青霉素等五种杀细菌剂和多菌灵、福美双、三唑酮等三种杀真菌剂的抑菌试验 ,结果表明 ,杀细菌剂对微生物生长的抑制率要高于杀真菌剂 ,二硫氰甲烷和中生菌素能较好地抑制营养液中微生物的生长 ,浓度分别为 2 0mg/L和 1 5mg/L时 ,抑制率分别为 75 .60 %和78 94%。杀真菌剂和杀细菌剂复配对营养液中微生物生长的抑制表现出较好的加和作用 ,其中以中生菌素(1 5mg/L)与福美双 (5mg/L)复配的效果最好 ,抑制率为 87.48%。     

水生花卉对铜绿微囊藻、斜生栅藻和小球藻生长的影响

选择黄菖蒲(Iris pseudacorus)、溪荪(I.sanguinea)、梭鱼草(Pontederia cordata)、白花水龙(Jussiaea repens)、水罂粟(Hydrocleys nymphoides)和大藻(Pistia stratiotes)6种具有较高观赏价值的水生花卉,通过将植物种植水与藻类共同培养的方式研究了不同种植时间的种植水对铜绿微囊藻(Microcystis aeruginosa)、斜生栅藻(Scenedesmus obliqnus)和小球藻(Chlorella vulgaris)生长的影响.结果表明:6种水生花卉种植水对3种藻类的化感作用具有选择性.通过6d的处理,种植水对铜绿微囊藻生长的抑制率为31.22％ ～ 96.53％,除白花水龙外,其余5种花卉的种植水对铜绿微囊藻生长的抑制率均超过70％,表现出很好的抑藻效果;种植水对斜生栅藻生长的抑制率为23.15％～77.25％;而种植水对小球藻有抑制也有促进,抑制率为-26.07％ ～75.70％,大藻、梭鱼草和溪荪抑制小球藻的生长,黄菖蒲、白花水龙表现为低促高抑,水罂粟表现为促进作用.随着种植时间的延长,种植水对3种藻类的抑制作用增强.6种水生花卉种植水对铜绿微囊藻生长的抑制作用由大到小依次为水罂粟＞黄菖蒲＞梭鱼草＞大藻＞溪荪＞白花水龙;对斜生栅藻生长的抑制作用由大到小依次为梭鱼草＞溪荪＞黄菖蒲＞水罂粟＞白花水龙＞大藻;对小球藻生长的抑制作用由大到小依次为大藻＞梭鱼草＞溪荪＞黄菖蒲、白花水龙＞水罂粟.试验表明,6种水生花卉在控制城市景观水体中的藻类水华有一定的推广价值.     

石菖蒲(Acorus tatarinowii)克藻效应的研究

石菖蒲（Ａｃｏｒｕｓ ｔａｔａｒｉｎｏｗｉｉ）抑制藻类的机制除了对光和矿质营养的竞争外,主要是由于石菖蒲水系向水体分泌的化学物质,能伤害和清除藻类（化感作用ａｌｌｅｌｏｐａｔｈｉｃ ｅｆｆｅｃｔ）,用培植石菖蒲的水培养藻类,可破坏藻类的叶绿素ａ,使其光合速率,细胞还原ＴＴＣ能力显著下降;在荧光显微镜下可看到藻细胞从鲜红色变为淡蓝色,表明石菖蒲对藻类有显著的克制效果,可用于治理富营养化水体中的藻类繁     

THE EFFECT OF CHARCOAL ON THE GROWTH OF LEGUMINOUS PLANTS IN SAND CULTURE

The addition of small proportions (0.5-2.0 %) of activated charcoal to the rooting medium of inoculated peas in nitrogen-free sand culture resulted in marked increases in dry weight of the plants and in nitrogen fixation. Wood charcoal in larger proportions had a similar effect, while animal charcoal severely inhibited growth. The number of nodules was greatly reduced in the presence of activated charcoal, but such nodules as formed were much larger and the nodule tissues per unit weight were more active in nitrogen fixation. Activated charcoal also led to an increase in dry weight of non-inoculated peas supplied with inorganic combined nitrogen. It is tentatively suggested that these favourable effects arise from the adsorption by the charcoal of harmful excretions from roots or micro-organisms or of excess nutrients, and from the maintenance of a more favourable pH in the rooting medium. The examination of barley intersown with the peas, and the results of Kjeldahl analyses on the rooting media, provided no evidence that the enhanced fixation in the presence of activated charcoal was attended by any considerable excretion of fixed nitrogen.     

Utilisation of blue-green algae as biofertilisers

Biologically active compounds may be liberated from blue-green algae growing on the surface of moist soils. Such compounds may also be released as exudates from algae grown in liquid culture.This report describes inoculation of soils in pots, containing radish or tomato plants, with algal suspensions or exudates, which resulted in increased growth rates of both plants and increased their overall yield. Autoclaved exudates were generally as effective as fresh exudates. Interaction of effects between the various active substances depends on the algal species and method by which the soils are amended.     

Antibiotic treatment enhances C2 toxin production by Alexandrium tamarense in batch cultures

The effects of a mixture of penicillin G and streptomycin on the growth and C2 toxin production of a marine dinoflagellate, Alexandrium tamarense CI01, were investigated to determine if antibiotic treatment would increase the toxin yield of the cultured algae in batch cultures. Algal growth and toxin production were both enhanced markedly when the culture was supplemented with the antibiotics, each at an initial concentration of 100 unit ml⁻¹ in medium,² but were severely inhibited when the concentration was 500 unit ml⁻¹ or higher. Short-term pretreatment of algal inocula with the antibiotics at 100, 500, and 1000 unit ml⁻¹ all produced the enhancing effects on the algal cultures in an autoclaved medium. A prolonged antibiotic pretreatment of the algal culture followed by repeated sterile cultivation resulted in an algal culture free of cultivable bacteria. This “drug-treated” culture became more resistant to the toxicity and more responsive to the enhancing effects of the antibiotics. Our results indicated that the antibiotics can enhance growth and C2 toxin productivity not only through their inhibition of the growth of bacteria that compete for nutrients with the coexisting algae, but also through their direct effects on the physiology of the algae. Supplementation of the two antibiotics therefore is an efficient way to increase the yield of C2 toxin in the production cultures of A. tamarense CI01.     

溶藻细菌筛选及溶藻活性物质对铜绿微囊藻生理活性的影响

从太湖水华水体中分离纯化细菌, 再将细菌的LB液体和固体斜面纯培养物分别收集后感染铜绿微囊藻(Microcystis aeruginosa)细胞, 从中筛选出7株具有溶藻活性的细菌, 并对其中一株溶藻细菌THW7的溶藻方式及溶藻活性物质对铜绿微囊藻生理活性的影响进行了初步研究。结果表明: 仅采用细菌的LB液体纯培养物进行溶藻细菌筛选会存在误筛或高估溶藻效率的风险, 而采用细菌的固体斜面纯培养物进行筛选则可避免以上风险; 溶藻细菌THW7通过分泌胞外活性物质的方式间接溶藻; 在THW7无菌滤液胁迫下, 铜绿微囊藻的生长受到显著抑制(P<0.01), 10d溶藻效率可达94.38%, 光合系统活性也显著降低(P<0.01), MDA含量积累, SOD、POD、CAT活性整体呈现先升高后降低的趋势且显著高于对照组(P<0.01)。推测菌株THW7分泌的溶藻活性物质可能作用于铜绿微囊藻细胞的光合系统Ⅱ, 阻碍电子传递, 抑制其光合作用过程, 并对藻细胞产生氧化损伤, 破坏藻细胞细胞膜的完整性, 从而实现溶藻作用。     

Use of Aquatic Plants and Algae for Decontamination of Waters Polluted with Chlorinated Alkanes

The transformation of carbon tetrachloride (CT) and hexachloroethane (HCA) by aquatic plants and freshwater algae was investigated. Stressed, axenic, and physiologically healthy freshwater plants all transformed the two chlorinated alkanes, yielding similar breakdown products. Experiments conducted with dead plants were used to indirectly test the hypothesis that dead aquatic plants maintain and possibly contribute to the dehalogenase activity observed in organic-rich sediments. After exposure of the aquatic plants and algae to HCA- and CT-dosed solutions, a rapid sorption (or sequestration) step followed by a slow transformation lasting several hours thereafter was observed. The kinetics data were adequately described by two first-order rate equations; pseudo-first-order sorption rate coefficients were calculated for the initial rapid adsorption and transformation steps. The identified metabolites extracted from plants indicated that more than one pathway, possibly requiring different reactants, mediated the phytotransformation reactions. Mass balance estimations confirmed that >80% of the parent chemical was sequestered, transformed, and/or assimilated by the biomass. The metabolic activity observed with dead plants and algae suggests that photoautotrophs maintain this activity at death, and the active agents could become bound to the sediment-organic matrix as plants die, decay, and are buried in sediment. The results of this study suggest the potential usefulness of aquatic plants and freshwater algae in the removal of chlorinated alkanes from water and remediation of aquatic environments.     

Macro-Particle Charcoal C Content following Prescribed Burning in a Mixed-Conifer Forest,Sierra Nevada,California

Fire suppression and changing climate have resulted in increased large wildfire frequency and severity in the western United States, causing carbon cycle impacts. Forest thinning and prescribed burning reduce high-severity fire risk, but require removal of biomass and emissions of carbon from burning. During each fire a fraction of the burning vegetation and soil organic matter is converted into charcoal, a relatively stable carbon form. We sought to quantify the effects of pre-fire fuel load and type on charcoal carbon produced by biomass combusted in a prescribed burn under different thinning treatments and to identify more easily measured predictors of charcoal carbon mass in a historically frequent-fire mixed-conifer forest. We hypothesized that charcoal carbon produced from coarse woody debris (CWD) during prescribed burning would be greater than that produced from fine woody debris (FWD). We visually quantified post-treatment charcoal carbon content in the O-horizon and the A-horizon beneath CWD (> 30 cm diameter) and up to 60 cm from CWD that was present prior to treatment. We found no difference in the size of charcoal carbon pools from CWD (treatment means ranged from 0.3–2.0 g m^-2 of A-horizon and 0.0–1.7 g m^-2 of O-horizon charcoal) and FWD (treatment means ranged from 0.2–1.7 g m^-2 of A-horizon and 0.0–1.5 g m^-2 of O-horizon charcoal). We also compared treatments and found that the burn-only, understory-thin and burn, and overstory-thin and burn treatments had significantly more charcoal carbon than the control. Charcoal carbon represented 0.29% of total ecosystem carbon. We found that char mass on CWD was an important predictor of charcoal carbon mass, but only explained 18–35% of the variation. Our results help improve our understanding of the effects forest restoration treatments have on ecosystem carbon by providing additional information about charcoal carbon content.     

不同碳氮比对薄盖灵芝液体培养的影响

采取液体深层发酵的方法 ,研究了不同碳氮比对薄盖灵芝 [Ganodermacapense (Lloyd)Teng]液体培养的影响。结果表明 ,在氮量固定的情况下 ,随碳量的增加 ,薄盖灵芝菌丝体干重逐渐增大 ,各处理发酵液的pH值呈“上升→下降→平稳”的变化趋势 ;当碳量固定时 ,各处理的pH值变化基本呈“双峰”型。不同碳氮比对薄盖灵芝液体发酵影响较大 ,通过对菌丝生长量、pH值的测定以及对发酵液及菌球培养性状的观察 ,认为碳氮比在 2 0∶1～ 4 0∶1(C3～C7)对薄盖灵芝的液体发酵均较适宜。其中以 30∶1(C5 )为最适宜 ,在此条件下 ,终止发酵的pH值为 3 4 ,菌球数量虽为 113个 10mL发酵液 ,但菌丝体干重为 6 83 4mg dL。发酵液澄清度高 ,呈真溶液状 ,菌球大小均匀。     

Evolution of photoprotection mechanisms upon land colonization: evidence of PSBS‐dependent NPQ in late Streptophyte algae

Light is the energy source for photosynthetic organisms but, if absorbed in excess, it can drive to the formation of reactive oxygen species and photoinhibition. One major mechanism to avoid oxidative damage in plants and algae is the dissipation of excess excitation energy as heat, called non‐photochemical quenching (NPQ). Eukaryotic algae and plants, however, rely on two different proteins for NPQ activation, the former mainly depending on LHCSR (Lhc‐like protein Stress Related; previously called Li818, Light Induced protein 818), whereas in the latter the major role is played by a distinct protein, PSBS (photosystem II subunit S). In the moss Physcomitrella patens, which diverged from vascular plants early after land colonization, both these proteins were found to be present and active in inducing NPQ, suggesting that during plants evolution both mechanisms co‐existed. In order to investigate in more detail NPQ adaptation toward land colonization, we analyzed Streptophyte algae, the latest organisms to diverge from the land plants ancestors. Among them we found evidence of a PSBS‐dependent NPQ in species belonging to Charales, Coleochaetales and Zygnematales, the latest groups to diverge from land plants ancestors. On the contrary earlier diverging algae, as Mesostigmatales and Klebsormidiales, likely rely on LHCSR for their NPQ activation. Presented evidence thus suggests that PSBS‐dependent NPQ, although possibly present in some Chlorophyta, was stably acquired in the Cambrian period about 500 million years ago, before late Streptophyte algae diverged from plants ancestors.     

Bicarbonate produced from carbon capture for algae culture

Using captured CO(2) to grow microalgae is limited by the high cost of CO(2) capture and transportation, as well as significant CO(2) loss during algae culture. Moreover, algae grow poorly at night, but CO(2) cannot be temporarily stored until sunrise. To address these challenges, we discuss a process where CO(2) is captured as bicarbonate and used as feedstock for algae culture, and the carbonate regenerated by the culture process is used as an absorbent to capture more CO(2). This process would significantly reduce carbon capture costs because it does not require additional energy for carbonate regeneration. Furthermore, not only would transport of the aqueous bicarbonate solution cost less than for that of compressed CO(2), but using bicarbonate would also provide a superior alternative for CO(2) delivery to an algae culture system.     

The effect of chelating agents on the absorption of radium by plants

Summary The absorption of radium from solution, by plants, has been compared with that of calcium, active strontium being used as a label for the calcium. It was found that radium was preferentially retained by the roots and discriminated against in passage to the shoots. However, the uptake and distribution of radium was influenced by ethylenediaminetetra acetic acid (EDTA) and citrate at the concentrations employed in water culture media to keep iron in solution. There was little discrimination against radium after plants had grown for a week in active nutrient solution when EDTA was present, but in the presence of citrate radium moved less rapidly by a factor of about 0.3. In the early stages of treatment, less than a day, the results with citrate were comparable with those of EDTA, whence it is inferred that the decrease in transfer to the shoots is dependent upon the relative rates at which the two complexes decompose.