Gravitational stress and lignification in aerial vs. submerged shoots of Hippuris vulgaris

Hippuris vulgaris L. is a heterophyllic aquatic plant that grows naturally under the different degrees of gravitational stress that are associated with submerged and aerial environments. This characteristic of H. vulgaris was exploited in order to study the interaction of gravitational stress with lignification processes. Lignin content was found to be 4.1% of aerial stem dry weight and 2.6% of submerged stem dry weight. The activity of phenylalanine ammonia-lyase (E.C. 4.3.1.5), an enzyme early in the lignin biosynthetic pathway, paralleled lignin content and was about 5 times higher in aerial than in submerged stems. Another lignin biosynthetic enzyme, peroxidase (E.C. 1.11.1.7), was studied, and although definite conclusions could not be drawn from measurements of total peroxidase activity, different isozyme patterns were observed in aerial and submerged-type shoots. Abscisic acid, which can induce the aerial-type shoot morphology on submerged shoots, probably is not involved in mediating changes in the lignin content of H. vulgaris . These results support the hypothesis that lignin biosynthesis is regulated by gravity.     

衰亡期黑藻与生长期菹草交替生长对水体磷迁移的影响

为利用冷暖种交替控制水体磷污染、抑制水体富营养化,揭示湖泊演化规律和机理。研究设置单季植物组(黑藻组、菹草组)和交替生长组(黑藻组+菹草组)进行实验。交替生长组在黑藻衰亡期种植菹草,监测各组上覆水和底泥中各形态磷含量的变化,计算黑藻衰亡释放磷及菹草生长吸收磷的总量,同时测定环境因子指标。分析沉水植物交替生长(黑藻+菹草)过程对衰亡期沉水植物(黑藻组)释放磷所带来的二次污染的消减作用,并分析环境因子变化与磷含量之间的关系。实验结果表明:黑藻+菹草组显著(P<0.05)降低了上覆水中总磷(TP)、溶解性总磷(DTP)和溶解性活性磷(SRP)的浓度;显著(P<0.05)降低了间隙水中DTP和SRP的浓度。底泥TP含量黑藻组呈上升趋势,黑藻+菹草和菹草组呈下降趋势。在采用菹草生物量期望2倍于衰亡植物黑藻生物量的模拟实验条件下,每实验组沉水植物黑藻衰亡分解所释放的磷为1.51 g,沉水植物菹草生长所富集吸收的磷为1.83 g。因此,菹草具备消减黑藻所释放磷的能力,可作为冷暖种交替控制水体富营养化的备选物种。实验组磷的迁移方向分别为:黑藻组磷迁移最终方向为底泥,黑藻+菹草组和菹草组磷的迁移方向为植物。黑藻+菹草组通过提高环境中DO和ORP,使得水相中磷向沉积物相中迁移,从而使得水相中各形态磷浓度保持在相对较低的水平。     

附着生物对太湖沉水植物影响的初步研究

在水草生长比较旺盛的季节（5—6月）,以富营养化严重的太湖梅梁湾和水草较丰富的贡湖湾作为采样区域,研究了2种环境状态不同湖区附着生物的现存量及其对沉水植物的影响.结果表明:富营养化严重水域植物上附着生物的现存量较高,但不同种类植物间有所差异.附着生物显著抑制水生植物光合作用,6月的抑制作用高达91.9%以上.这种抑制作用的大小随附着生物量的增加而增强,且受宿主植物的影响.     

沉水植物化感作用控藻能力评述

沉水植物所释放的化学物质对藻类的抑制作用是浅水湖泊维持清水状态的机制之一.本文从具有化感活性的沉水植物在湖泊中出现的频度、盖度、化感物质的种类、抑藻效应等方面对化感控藻进行了评述.已有研究结果表明：穗花狐尾藻、金鱼藻、伊乐藻等是具有很高活性的沉水植物,尤其是在其生物量达到一定程度,且湖泊中的优势藻为较敏感的种类时,沉水植物分泌的化感物质对浮游藻类的抑制作用更强;沉水植物释放的多酚类等化感物质具有控藻能力;化感物质对于不同种类藻的抑制作用具有选择性,蓝藻和硅藻比绿藻更为敏感,附生藻类通常比浮游藻类具有更高的耐受性;环境因素如光照、营养限制、温度等会显著影响沉水植物化感作用效果.沉水植物的化感控藻研究尚处于初始阶段,关于环境因素对化感作用的影响、化感物质的分离鉴定、选择性抑藻机理以及化感物质代谢途径等方面还有待深入、全面的研究.     

Effects of media composition on submerged culture spores of the entomopathogenic fungus,Metarhizium anisopliae var. acridum Part 2: Effects of media osmolality on cell wall characteristics,carbohydrate concentrations,drying stability,and pathogenicity

This study evaluates osmolality of a submerged conidia-producing medium in relation to the following spore characteristics: yield, morphology (dimensions and cell wall structure), chemical properties of cell wall surfaces (charge, hydrophobicity, and lectin binding), cytoplasmic polyols and trehalose, and performance (drying stability and pathogenicity). Spore production was increased by the addition of up to 150 g l^?1 polyethylene glycol 200 (PEG). Spores from high osmolality medium (HOM spores) containing 100 g l^?1 PEG had thin cell walls and dimensions more similar to blastospores than submerged conidia or aerial conidia. However, a faint electron-dense layer separating primary and secondary HOM spores’ cell walls was discernable by transmission electron microscopy as found in aerial and submerged conidia but not found in blastospores. HOM spores also appeared to have an outer rodlet layer, unlike blastospores, although it was thinner than those observed in submerged conidia. HOM spores’ surfaces possessed hydrophobic microsites, which was further evidence of the presence of a rodlet layer. In addition, HOM spores had concentrations of exposed N-acetyl-β-d-glucosaminyl residues intermediate between blastospores and submerged conidia potentially indicating a masking of underlying cell wall by a rodlet layer. All spore types had exposed α-d-mannosyl and/or α-d-glucosyl residues, but lacked oligosaccharides. Similar to blastospores, HOM spores were less anionic than submerged conida. Although HOM spores had thin cell walls, they were more stable to drying than blastospores and submerged conidia. Relative drying stability did not appear to be the result of differences in polyol or trehalose concentrations, since trehalose concentrations were lower in HOM spores than submerged conidia and polyol concentrations were similar between the two spore types. HOM spores had faster germination rates than submerged conidia, similar to blastospores, and they were more pathogenic to Schistocerca americana than submerged conidia and aerial conidia.     

沉水植物对重金属的吸收净化和受害机理研究进展

沉水植物对重金属的积累净化和受害机理研究主要集中在4个方面: (1)沉水植物对重金属(包括放射性物质)的吸收、积累和净化作用; (2)沉水植物对重金属的抗性强弱和机制; (3)沉水植物用于监测水体的重金属污染; (4)沉水植物的重金属胁迫机制, 包括重金属对植物形态和显微结构的损伤, 对植物抗氧化酶系统的影响, 对植物的叶绿素、蛋白质以及光合与呼吸作用等生理生化指标的影响, 植物对重金属的吸附和转运动力学, 以及Zn对Cd毒害的拮抗等。     

The Biogeochemistry of Submerged Soils. * Kirk, G. 2004. * Chichester, UK: John Wiley & Sons, Ltd. {pound}100 (hardcover). 304 pp.

One can learn a lot about thegeochemistry of submerged soils in this book by Kirk. However,it is not, as the title implies, focused on the biogeochemistryof all submerged soils. In Chapter 1 Kirk gives a very briefoverview     

沉水植物对重金属的吸收净化和受害机理研究进展

沉水植物对重金属的积累净化和受害机理研究主要集中在4个方面：（1）沉水植物对重金属（包括放射性物质）的吸收、积累和净化作用;（2）沉水植物对重金属的抗性强弱和机制;（3）沉水植物用于监测水体的重金属污染;（4）沉水植物的重金属胁迫机制,包括重金属对植物形态和显微结构的损伤,对植物抗氧化酶系统的影响,对植物的叶绿素、蛋白质以及光合与呼吸作用等生理生化指标的影响,植物对重金属的吸附和转运动力学,以及Zn对Cd毒害的拮抗等。     

利用人工围隔研究沉水植被恢复的生态效应

近几十年来,随着水体富营养化加剧和其它人类活动影响,一些湖泊,尤其是我国长江中下游地区浅水湖泊中,沉水植被锐减甚至消失。如武汉东湖,６０年代十分繁茂的沉水植被现已濒临灭绝。沉水植被作为主要初级生产者,在水生态系统中起着一定的作用。在退化湖泊生态系统重建与恢复中,重建沉水植被是关键性的步骤。本研究利用人工围隔,在富营养化水体中重建沉水植被,通过与近旁无沉水植被的湖区对照,从水体理化性质、浮游植物叶绿素ａ含量以及原生动物群落结构与多样性几个方面,研究沉水植被恢复的生态效应,以期为退化湖泊生态系统的重…     

Sporulation of Streptomyces griseus in submerged culture.

A wild-type strain of Streptomyces griseus forms spores both on solid media (aerial spores) and in liquid culture (submerged spores). Both spore types are highly resistant to sonication, but only aerial spores are resistant to lysozyme digestion. Electron micrographs suggest that lysozyme sensitivity may result from the thinner walls of the submerged spores. Studies of the life cycle indicate that neither streptomycin excretion nor extracellular protease activity is required for sporulation: the analysis of mutants, however, suggests that antibiotic production may be correlated with the ability to sporulate. A method was devised to induce the rapid sporulation of S. griseus in a submerged culture. This method, which depends on nutrient deprivation, was used to determine that either ammonia or phosphate starvation can trigger sporulation and that the enzyme glutamine synthetase may be useful as a sporulation marker after phosphate deprivation.     

Optimization of nutrient medium for submerged cultivation of Ganoderma lucidum (Curt.: Fr.) P. Karst

The dependence of the amount of the grown vegetative mycelium of Ganoderma lucidum on the composition of the nutrient medium has been studied under conditions of submerged cultivation. The medium was optimized using full factorial and steepest ascent experimental designs. The addition of two carbon sources to the medium considerably improved the submerged growth of the fungus. An optimized medium provided for a high yield (20-20.95 g/l) of the morphologically homogeneous mycelium and shortened the cultivation period to 3-4 days.     

Studies on biosynthesis of hydrolases by trichoderma sp. M7 on submerged and solid-state cultivation conditions

The biosynthesis of cellulases and xylanase by the mould strain Trichoderma sp. M₇ on submerged and solid-state cultivation conditions has been studied. The effect of different inducers on the enzyme biosynthesis on the conditions used was determined. The relation between the enzyme biosynthesis and the morphological state of the producing strain was studied. The advantages of the submerged cultivation conditions with regards to the efficiency of the enzyme inducer are shown.     

Submerged vegetation of the Rotorua and Waikato lakes 3. Lake Rerewhakaiitu

The submerged and emergent aquatic macrophyte vegetation of the eutrophic Lake Rerewhakaiitu was surveyed in February–March 1973, and is described qualitatively. At the time the lowered lake level had resulted in producing a sward of normally submerged aquatics as land forms. The principal dominant in the sward is Myriophyllum propinquum, the plants being greatly reduced in length to short stems with single entire leaves. At the uppermost levels Tillaea sinclairii is a significant component of the sward, and at lower levels Lilaeopsis lacustris behaves similarly. Below the uppermost submerged belt of macrophytes there is a characean meadow of Chara fibrosa and C. australis which in deeper waters gives way to Potamogeton ochreatus with either C. australis or Nitella hookeri. The high degree of eutrophication and consequent low light penetration has resulted in a vegetation limit at 4.5–5 m, which is lower than that found in other Rotorua lakes.     

Optimization of nutrient medium for submerged cultivation of Ganoderma lucidum (Curt.: Fr.) P. Karst

The dependence of the amount of the grown vegetative mycelium of Ganoderma lucidum on the composition of the nutrient medium has been studied under conditions of submerged cultivation. The medium was optimized using full factorial and steepest ascent experimental designs. The addition of two carbon sources to the medium considerably improved the submerged growth of the mushroom. An optimized medium provided for a high yield (20-20.95 g/l) of the morphologically homogeneous mycelium and shortened the cultivation period to 3–4 days.     

Effects of media composition on submerged culture spores of the entomopathogenic fungus, Metarhizium anisopliae var. acridum, Part 1: Comparison of cell wall characteristics and drying stability among three spore types

Metarhizium anisopliae var. acridum (IMI 330189) can produce at least three spore types in vitro; blastospores, submerged conidia, and aerial conidia, as defined by culturing conditions, sporogenesis, and spore morphology. This study compares morphological characteristics (dimensions and cell wall structure), chemical properties of cell wall surfaces (charge, hydrophobicity, and lectin binding), and performance (germination rate and drying stability) among these three spore types. Submerged conidia and aerial conidia both possessed thick, double-layered cell walls, with hydrophobic regions on their surfaces. However, in contrast to aerial conidia, submerged conidia have: (1) a greater affinity for the lectin concanavalin-A; (2) more anionic net surface charge; and (3) a less distinct outer rodlet layer. Blastospores were longer and more variable in length than both submerged conidia and aerial conidia, and had thinner single-layered cell walls that lacked an outer rodlet layer. Also, blastospores had a greater affinity than either conidia type for the lectin, wheat germ agglutinin. Blastaspores lacked hydrophobic regions on their surface, and had a lower anionic net surface charge than submerged conidia. In culture, blastospores germinated the fastest followed by submerged conidia, and then aerial conidia. Survival of submerged conidia and aerial conidia were similar after drying on silica gel, and was greater than that for blastospores. We provide corroborating information for differentiating spore types previously based on method of production, sporogenesis, and appearance of spores. These physical characteristics may have practical application for predicting spore-performance characteristics relevant to production and efficacy of mycoinsecticides.     

Respiratory Properties of Mitochondria from Rice Seedlings Germinated under Water and Their Changes during Air Adaptation

Respiratory activities were compared among rice seedlings germinated in air for 6 days (aerobic seedlings), those germinated under water for 5 days (submerged seedlings), and those grown in air for 1 day after 5 days' submerged germination (air-adapted seedlings). The respiratory activity of the submerged seedlings increased rapidly on transfer to air and reached a plateau at 16 hours in air. Respiration of the submerged seedlings was as sensitive to cyanide as those of aerobic and air-adapted seedlings. 2,4-Dinitrophenol had no effect on the respiration of the submerged seedlings, but stimulated those of the other two types of seedlings. Mitochondria from three types of seedlings did not differ in the ADP/O ratio and the respiratory control ratio (RCR) when succinate was oxidized. However, mitochondria from submerged seedlings (submerged mitochondria) showed poor RCR of about unity when malate was oxidized. Both the rate of succinate oxidation and succinate dehydrogenase activity were low in submerged mitochondria, but increased during air adaptation. Although submerged mitochondria oxidized malate very slowly, this activity increased after exposure to air without any increase in malate dehydrogenase activity. When NAD⁺ was added to submerged mitochondria, oxidation of malate was restored to the level of the aerobic controls. Addition of NAD⁺ enhanced the state 3 rate in submerged mitochondria, and RCR recovered to nearly the same value as that of the aerobic controls. Similar effects of NAD⁺ on 2-oxoglutarate oxidation were observed. All these defects in submerged mitochondria were repaired during air adaptation. These results suggest that NAD⁺-linked substrate oxidation was low in submerged mitochondria because of NAD⁺ deficiency, and that the oxidation increased with an increasing level of NAD⁺ during air adaptation.     

Acremonium-like submerged conidiation inPaecilomyces nostocoides andP. lilacinus

Paecilomyces nostocoides, in which conidia of smaller or larger sizes appear in chains, was newly isolated from Japan. In addition to the typicalPaecilomyces-type conidiation, the Japanese isolate showed additionalAcremonium-like submerged conidiation in and/or on some agar media. The submerged conidiation was also observed in the ex-type strains, but not in the type specimens ofP. nostocoides. The same submerged conidiation was observed inP. lilacinus, the species most similar toP. nostocoides. The species definitions ofP. nostocoides andP. lilacinus were emended to include the submerged conidiation.Paecilomyces-type conidia were uninucleate in bothP. nostocoides andP. lilacinus. Paecilomyces nostocoides andP. lilacinus had the Q-10(H₂) ubiquinone system.     

水淹导致皇冠草光合机构发生变化并加剧其出水后光抑制

通过气体交换和叶绿素荧光等方法研究了水淹及胁迫解除后皇冠草不同功能叶的光合特性及光抑制的变化.结果表明:与对照相比,气生叶(全淹组淹水前形成的功能叶)在水淹条件下叶片大小和气孔没有明显变化,但沉水叶(全淹组淹水后新生的功能叶)的叶面积增加,气孔变小,上表皮气孔密度增加.水淹导致气生叶碳同化能力、光化学效率和叶绿素含量下降.沉水叶在发育过程中碳同化能力、光化学效率和叶绿素逐渐升高.气生叶和沉水叶出水后其活体叶片在强光下的相对含水量急剧下降,发生明显的光抑制;而弱光下无明显光抑制发生.出水后离体叶片强光照射下6h后两种功能叶均发生严重光抑制,且弱光下不能恢复.因此,可以认为淹水条件下,沉水叶上表皮气孔密度的增加使其蒸腾速率提高;沉水叶较强的碳同化能力和增加的叶面积是确保其植株水下生存的重要因素;强光使气生叶和沉水叶出水后均发生严重光抑制,导度和蒸腾速率提高导致的叶片失水则加剧了这一过程,两者共同作用导致自然条件下两种功能叶的出水死亡.     

Leaf litter decomposition in an ephemeral karst lake (Chaney Lake,Kentucky, U.S.A.)

Litter decomposition in temporary aquatic environments has not been experimentally studied as much as it has in perennial systems. However, litter is likely a critical resource for organisms inhabiting ephemeral aquatic habitats. In this study, we used litterbags under different conditions of submergence and water physical and chemical properties/characteristics to study mass and nutrient losses of terrestrial materials in an ephemeral karst lake in south-central Kentucky (USA). In the first experiment, which was designed to compare decomposition rates in submerged and dry sites, total mass and carbon declined more rapidly in the litter at fully submerged sites than in dry sites. In the second experiment, which was designed to compare decomposition rates in two different submerged environments, total mass and carbon showed similar decomposition trends between the two submerged areas with different seasonal temperature patterns. Nitrogen patterns were variable but in general nitrogen levels increased in the litter in both experiments over a period of several months. These results are similar to those found in some perennially inundated systems and indicate that litter decomposition dynamics in this temporary lake can be greatly affected by lake hydrology. Year-to-year variations in hydrology may thus have strong impacts on nutrient and energy release within this system, which may affect the organisms within this karst lake and in other areas of the karst ecosystem that are ecologically connected to it.     

Petiole Growth in Ranunculus sceleratus L.: Ethylene Synthesis and Submergence

Petioles of the celery-leaved buttercup (Ranunculus sceleratusL.) elongate in response to treatment with ethylene in air whenthe leaf blades are attached. An enhanced rate of elongationgrowth also occurs when the leaves are submerged. Submergencecauses an increase in extractable ethylene gas within the tissues,and these levels appear to approach those required to saturatethe ethylene-promoted elongation growth response. Coincidentwith a rise in ethylene in the tissues is a dramatic increasein the level of I-aminocyclopropane-1-carboxylic acid (ACC),the precursor of ethylene. Both the petiole and leaf blade tissueshave a similar capacity to evolve ethylene in the presence ofadded ACC. However, in air the leaf blade evolves more ethylenefrom endogenous resources than the petiole. The simultaneousincreases in ethylene and ACC levels in submerged tissues areconsidered in terms of the low diffusivity of ethylene in water,the ‘autocatalytic’ effect of ethylene on ethylenebiosynthesis and the rôle of both carbon dioxide and oxygenfluxes in ethylene metabolism of submerged tissues. Ranunculus sceleratus, celery-leaved buttercup, petiole growth, submergence, ethylene metabolism