Effect of some extrinsic factors on the respiratory metabolism of the freshwater Leech,Poecilobdella viridis: Oxygen tension,pH and salt concentrations

The effect of oxygen tension, pH and salt concentrations on the respiratory metabolism of the freshwater leech, Poecilobdella viridis has been studied. The respiratory rate increased significantly (p < 0.05) with progressive elevation of the oxygen tension of the medium and decreased significantly (p < 0.05) in both acidic and alkaline media. The respiratory rate was enhanced significantly (p < 0.05) as the salt concentration of the medium increased. Functional significance of these trends to the leech in counteracting the environmental eddies is briefly discussed.     

Hormonal control of osmoregulation in the indian freshwater leech,poecilobdella viridis (Blanchard)

Leeches maintained either in tap-water or under desiccated conditions show a continuous decline in body-weight. Debrained leeches show a significantly greater loss of weight than unoperated or sham-operated controls. Injections of brain homogenate (0.2 ml/leech = 3 brains/leech) significantly (p<0.01) reduces weight loss in debrained leeches, whereas saline injections are without effect. The results indicate that water (weight) loss is influenced by a neurosecretory hormone secreted by the brain of Poecilobdella viridis.

---

     

Microalgal biotechnology: Carotenoid and glycerol production by the green algae <Emphasis Type="Italic">Dunaliella</Emphasis> isolated from the Gave-Khooni salt marsh,Iran

In this study, carotenoid and glycerol production in two unicellular green algae (Dunaliella salina and D. viridis) isolated from the Gave-Khooni salt marsh grown in media containing five different salt concentrations (0.17, 1, 2, 3, and 4 M NaCl) were evaluated under sterile conditions. Algae growth decreased as the medium salinity increased. Optimum growth of D. salina and D. viridis were obtained at 2 and 1 M NaCl, respectively. As salinity increased, glycerol and carotenoid production were increased in D. salina, whereas lower values for these products were produced in D. viridis under the same conditions. Furthermore, the cell color of D. salina changed from green to orange-red following accumulation of carotenoid, but the color of D. viridis was not changed. Thereby, it seems that the Iranian D. salina may be suitable for carotenoid production (betacarotene) on a large scale. In addition, since carotenoid compounds enhance the efficiency of photosynthesis and glycerol synthesis, it appears that the pathway for glycerol production and mechanisms of salt tolerance in D. viridis are unique from those of D. salina.     

Physiological Aspects of Adaptation of the Marine Microalga Tetraselmis (Platymonas) viridis to Various Medium Salinity

We studied the capability of the marine microalga Tetraselmis (Platymonas) viridis to adapt to low and high medium salinity. The normal NaCl concentration for growth of this alga is 0.5 M. It was shown that T. viridis cells could actively grow and maintain osmoregulation and cytoplasmic ion homeostasis in the wide range of external salt concentrations, from 0.01 to 1.2 M NaCl. Using the plasma membrane vesicles isolated from T. viridis cells grown at various NaCl concentrations (0.01, 0.05, 0.5, 0.9, and 1.2 M), we studied the formation of the phosphorylated intermediate of Na⁺-ATPase, the enzyme responsible for Na⁺ export from the cells with a mol wt of ca. 100 kD. Na⁺-ATPase was shown to function in the plasma membrane even in the cells growing at an extremely low NaCl concentration (0.01 M). When alga was grown in high-salt media, the synthesis of several proteins with molecular weights close to 100 kD was induced. The data obtained argue for the hypothesis, which was put forward earlier, that a novel Na⁺-ATPase isoform is induced by T. viridis growing at high NaCl concentrations.     

Impact of the nemertean Lineus viridis on its polychaete prey on an intertidal sandflat

Interactions of the predator Lineus viridis (O. F. Muller 1774) with infaunal polychaetes were investigated in the German Wadden Sea. L. viridis is the dominant heteronemertean in this intertidal area with a mean abundance of 14 individuals per square meter. Predator enclosure experiments in the field revealed that L. viridis preyed on predatory polychaetes. The preferred prey species was Nereis diversicolor; others were Anaitides maculata. Nephtys hombergii and Harmothoe sarsi. These results were supported by a series of feeding experiments in the laboratory. The rate of consumption was estimated by laboratory and field experiments. The feeding rate of Lineus viridis was estimated by laboratory enclosure experiments to 5.6 g ashfree dry weight (AFDW) per square meter annually.     

Effect of anisotonic media on cell volume and electrolyte fluxes in slices of the dogfish (Squalus acanthias) rectal gland

Summary Osmotic responses of slices of dogfish rectal gland to hypotonic (urea-free) and hypertonic media were studied. Transfer of tissue from isotonic (890 mosM) to hypotonic (550 mosM) saline produced an osmotic swelling associated with a slow net uptake of cell K⁺ (and Cl^–) and a slow, two-component efflux of urea. Media made hypertonic (1180 mosM) by addition of urea or mannitol produced osmotic shrinkage with a net loss of KCl. The cell osmotic responses in hypotonic media were lower than predicted for an ideal osmometer. No volume regulatory responses were seen subsequent to the initial osmotic effects. The cation influx in hypotonic media lacked specificity: in the presence of 0.5 mM ouabain or in K⁺-free media a net influx of Na⁺ was found. At steady state, the cell membrane potential evaluated from the Nernst potentials of K⁺ and triphenylmethyl phosphonium⁺, was independent of medium tonicity, suggesting the membrane potential as a determinant in the cellular osmotic response. Zero-time⁸⁶Rb⁺ fluxes were measured:⁸⁶Rb⁺ influx was not affected by hypotonicity, implying an unchanged operation of the Na⁺–K⁺-ATPase. On the other hand,⁸⁶Rb⁺ efflux was significantly reduced at hypotonicity; this effect was transient, the efflux returning to the control value once the new steady state of cell volume had been reached. A controlled efflux system is therefore involved in the cell osmotic response. The absence of the volume regulatory phenomenon suggests that the cells are not equipped with a volume-sensing mechanism.Abbreviations and symbols DW dry weight - E extracellular (polyethylene glycol) space - E Nernst potential - H₂O_e H₂O_i tissue water, extra- and intracellular - TPMP ⁺ triphenyl methyl phosphonium salt - WW wet weight     

The salt relations of Dunaliella

Dunaliella tertiolecta (marine) and D. viridis (halophilic) were each trained by serial transfer to growth at salt concentrations previously regarded as the other's domain. D. viridis then had a salt optimum at 1.0–1.5 M sodium chloride whereas that for D. tertiolecta was less than 0–2 M. Nevertheless D. tertiolecta grew faster than the halophil at all salt concentrations up to 3.5 M, the highest at which they were compared.Both species accumulate glycerol, which is necessary for growth at elevated salinities and which responds in its content to water activity (a _w ) rather than specifically to salt concentration. Variation in glycerol content is a metabolic process which occurs in the dark from accumulated starch as well as photosynthetically. Regulation of glycerol content by a _w does not require protein synthesis. The NADP-specific glycerol dehydrogenase of each of the algae is likely to be directly involved in the regulation of glycerol content. Kinetic studies, together with those described in an earlier publication, show that the enzyme has regulatory properties, and that both glycerol and dihydroxyacetone act as effectors as well as reactants. A mechanism of the reaction is tentatively proposed.     

Phylogenetic analysis of ITS2 sequences suggests the taxonomic re‐structuring of Dunaliella viridis (Chlorophyceae,Dunaliellales)

We analyzed the ITS2 primary and secondary structure (including Compensatory Base Changes (CBCs)) of 17 new Dunaliella strains (11 D. viridis, two D. tertiolecta, and four Dunaliella sp.), and compared these with other Dunaliella sequences available from the ITS2 database to circumscribe their taxonomic position. The ITS2 primary and secondary structure analysis positioned the majority of D. viridis strains in four main clades, showing that D. viridis is polyphyletic. The detection of at least one CBC among these clades strongly suggests that they could correspond to different biological species. Unexpectedly, while D. viridis var. euchlora (CCAP19/21) was positioned within the subgenus Dunaliella, D. viridis var. palmelloides (CCAP11/34) was positioned clearly outside this subgenus, suggesting that this taxon may not be properly placed in Dunaliella. Furthermore, the detection of at least three compensatory base changes (CBCs) between D. viridis var. palmelloides (CCAP11/34) and the other strains analyzed, confirm that this strain is a different species. For these reasons we propose re‐naming D. viridis var. palmelloides (CCAP11/34) to incertae sedis, and D. viridis var. euchlora (CCAP19/21) to Dunaliella sp. Therefore, the ITS2 primary and secondary structure data suggest a taxonomic re‐structuring of D. viridis.     

Survey tools and demographic parameters of Slovakian Agrilus associated with beech and poplar

Woodborers in the Agrilus genus (Coleoptera: Buprestidae) pose high invasiveness risk as indicated by the recent invasion and continental spread of emerald ash borer, and the associated threat to ash resources in North America. In that context, development of detection tools for potentially invasive Agrilus spp. is a research priority. Experiments carried out in 2013 in Slovakian beech and poplar forests evaluated the attraction of multiple Agrilus species to green and purple sticky prism traps baited with various lures [blank, cubeb oil, (Z)‐3‐hexenol]. The two most abundant species were Agrilus viridis L. in beech (Fagus spp.) forest (146 adults, >95% of which were females) and Agrilus convexicollis Redtenbacher in poplar (Populus spp.) forest (158 adults, two‐thirds of them males). The two species exhibited opposite responses to color: purple traps attracted 2–3× more adult A. viridis than green traps, whereas most (>95%) specimens of A. convexicollis were captured on green traps. Volatile baits did not influence captures of adults for either species. The introduction and establishment of A. viridis in North America is of particular concern owing to its feeding niche (primary pest that can attack healthy trees), large body size, and high level of polyphagy (>10 genera of host trees). Additional experiments conducted in beech forests in 2014 found purple prism traps more attractive to female A. viridis than green prism traps, especially those baited with cubeb oil. No analysis was conducted for males because of their low abundance. Female A. viridis flew earlier in 2013 than in 2014, but neither their body size nor fecundity varied between years. In both years, large females had more eggs in their abdomen than small females, and the number of eggs steadily declined over time, which suggests that female A. viridis are reproductively mature at emergence.     

Seasonal changes in daily metabolic patterns of Lacerta viridis

Summary Lacerta viridis maintained under natural photoperiodic conditions show daily and seasonal changes in metabolic rates and body temperature (T _b) as well as seasonal differences in sensitivity to temperature change. At all times of the year lizards have a daily fluctuation in oxygen consumption, with higher metabolic rates during the light phase of the day when tested at a constant ambient temperature (T _a) of 30°C. Rhythmicity of metabolic rate persists under constant darkness, but there is a decrease in the amplitude of the rhythm.Oxygen consumption measured at various T_as shows significant seasonal differences at T _as above 20°C. Expressed as the Arrhenius activation energy, metabolic sensitivity of Lacerta viridis shows temperature dependence in autumn, which changes to metabolic temperature independence in spring at T _as above 20°C. The results indicate a synergic relationship between changing photoperiod and body temperature selection, resulting in seasonal metabolic adjustment and seasonal adaptation.Abbreviations ANOVA analysis of variance - LD long day (16 h light) - SD short day (8 h light) - T _a ambient temperature - T _b body temperature     

Natural biological control of green scale (Hemiptera: Coccidae): a field life-table study

Understanding how the biotic and abiotic factors influence pest-population dynamics is important to implement sound pest management strategies in biological control and integrated pest management (IPM) programmes. Coccus viridis (Green) is an important indirect pest of coffee plants, but very little has been done to understand the factors that contribute most for its biological control in the field. In the present study, we examined the critical life stage and the key factors associated with the mortality of C. viridis in coffee plantations in Brazil by conducting field-based life table studies. Predators, parasitoids, fungi, infested leaf abscission and rainfall were collectively responsible for a total C. viridis mortality of 96.08%. Predation by coccinellids was the key factor governing the mortality of C. viridis. The parasitism of early instars by parasitoids was the second most important factor contributing to C. viridis mortality. Unlike the parasitoids, the fungus Lecanicillium lecanii caused mortality of scales in more advanced life stages. The abscission of infested leaves from the trees, and rainfall also contributed to the mortality of C. viridis. The nymph stage was considered the critical stage for mortality of C. viridis in the field. The results suggest that predators (Coccinellidae) are the most important factors controlling C. viridis, and thus should be the target of conservation measures in coffee plantations infested with this pest.     

The Feeding Strategies of the Leech Erpobdella octoculata (L.): A Laboratory Study

The feeding behaviour of the freshwater leech Erpobdella octoculata was analysed by exposing potential invertebrate and vertebrate prey organisms (alive, wounded or dead) to leech attack in dishes, in the laboratory. The fact that E. octoculata is a macrophagous feeder that swallows living prey organisms whole (preferentially Chironomus larvae) is documented. However, it was repeatedly observed that adult leeches sucked the body fluids from wounded larvae. Likewise, cut pieces of earthworms, dead crustaceans and crushed water snails were attacked and the soft parts sucked in with the aid of the unarmed pharynx. Adult leeches sucked the body fluids from dead, decaying bodies of vertebrates (fish, newt larvae). Newly hatched young are blood suckers that rapidly attacked the wounded regions of Chironomus larvae and other invertebrates such as crushed water snails. It is concluded that the common leech E. octoculata is not only a predator, but also a fluid sucker and a scavenger. The ecological implications of this finding are discussed.     

Molecular phylogeny of selected predaceous leeches with reference to the evolution of body size and terrestrialism

The phylogenetic relationships of erpobdellid leeches collected throughout Europe were investigated using newly obtained mitochondrial cytochrome c oxidase subunit I (CO-I) gene sequence data from 10 taxa. Monophyly of the five European Erpobdella species (sub-family Erpobdellinae) was supported, but a newly discovered leech, E. wuttkeit Kutschera, 2004 (the smallest member of its genus, discovered in an aquarium) was only distantly related to this clade. Three members of the semiaquatic Trochetinae were included in this study. The largest European leech species discovered so far, Trocheta haskonis Grosser, 2000, was found to be a terrestrial predator that feeds on earthworms. The rare species T. haskonis is the sister taxon of T. bykowskii Gedroyc, 1913, a well-known amphibious leech. Based on a comparison of body sizes and a phylogenetic tree the evolution of terrestrialism in the family Erpobdellidae is discussed.     

Reproductive biology of the indian freshwater leech,Poecilobdella viridis (Blanchard)

Annual reproductive cycle of the protandrous hermaphroditic freshwater leech, Poecilobdella viridis has been traced from August 1974 to July 1975. Spermatogenesis initiated a little earlier than oogenesis. The reproductive programme is as follows; commencement of spermatogenesis in February followed by oogenesis in March. Breeding begins in late March extending upto late May and early June while breeding terminated towards late June. From August to January reproductive quiescence was observed. Among the environmental factors temperature, possibly coupled with photoperiod, plays a key role in synchronising the reproductive cycle.     

Antioxidative responses and their relation to salt tolerance in <Emphasis Type="Italic">Echinochloa oryzicola</Emphasis> Vasing and <Emphasis Type="Italic">Setaria virdis</Emphasis> (L.) Beauv.

Two gramineous species among wild plants, Echinochloa oryzicola Vasing and Setaria viridis (L.) Beauv., and Oryza sativa L. cv. Nipponbare were subjected to salt stress. The relative growth rate (RGR), Na content, photosynthetic rate, antioxidant enzymes activity (superoxide disumutase (SOD), catalase (CAT), ascorbate peroxidase (APx) and glutathione reductase (GR)), and malondialdehyde (MDA) content in leaves after NaCl treatment were studied. RGR significantly decreased in O. sativa more than in E. oryzicola and S. viridis. Comparatively salt-tolerant S. viridis showed higher growth rate, lower Na accumulation rate in leaves, higher photosynthetic rate, and induced more SOD, CAT, APx, and GR activity and lower increase of MDA content as compared to the salt-sensitive O. sativa. At the same time, the comparatively salt-tolerant E. oryzicola also showed higher growth rate, much lower Na accumulation and no observable increase of MDA content, even though the CAT and APx activities were not induced by salinity. These results suggested that the scavenging system induced by H₂O₂-mediated oxidative damage might, at least in part, play an important role in the mechanism of salt tolerance against cell toxicity of NaCl in some gramineous plants     

The salt relations of marine and halophilic species of the unicellular green alga,Dunaliella

1. Comparisons were made of the effects of salt on the exponential growth rates of two unicellular algae,Dunaliella tertiolecta (marine) andDunaliella viridis (halophilic).
2. The algae contained glycerol in amounts which varied directly with the salt concentration of the growth media. The highest measured glycerol content ofD. tertiolecta was approximately equivalent to 1.4 molal and occurred in algae grown in 1.36 M sodium chloride. The highest glycerol content measured inD. viridis was approximately equivalent to 4.4 molal and occurred in algae grown in 4.25 M sodium chloride. Lower concentrations of free glucose, which varied inversely with extracellular salt concentration, were also detected.
3. It is inferred that Na⁺ is effectively excluded from the two algae. There was some evidence of a moderate uptake of K⁺.
4. Comparisons were made of erude preparations of the glucose-6-phosphate dehydrogenase and an NADP-specific glycerol dehydrogenase from each species and of the effects of salt and glycerol on the activities of these enzymes. It is concluded that the different salt tolerances of the two algae cannot be explained by generalized differences between their enzyme proteins.
5. Although intracellular glycerol must necessarily contribute to the osmotic status of the algae, its primary function in influencing their salt relations is considered to be that of a compatible solute, whereby glycerol maintains enzyme activity under conditions of high extracellular salt concentration and hence low (thermodynamic) water activity.

     

Antioxidants protect the yeast Saccharomyces cerevisiae against hypertonic stress

Yeast (Saccharomyces cerevisiae) mutants lacking CuZnSOD have been reported to be hypersensitive to hypertonic media and to show increased oxidative damage. This study demonstrates that hypertonic medium (containing 0.8?M NaCl) increases the generation of superoxide and other reactive species in yeast cells. Other sequelae of exposure to hypertonic medium include oxidation of cellular low-molecular weight thiols and decrease in total antioxidant capacity of cellular extracts. Δsod1 mutant is more sensitive than a wild-type strain to colony growth inhibition on a hypertonic medium. Anaerobic conditions, ascorbate, glutathione, cysteine and dithiothreitol are able to ameliorate this growth inhibition but a range of other antioxidants does not protect. The protective ability of the antioxidants does not correlate with the rate of their reactions with superoxide but seems to be conditioned by low redox potential for one-electron oxidation of free radicals of the antioxidants. It suggests that repair of low-redox potential targets rather than prevention of their damage by superoxide is important in the antioxidant protection against oxidative stress induced by hypertonic conditions.     

The role of post‐floral persistent perianth in Helleborus viridis subsp. occidentalis (Ranunculaceae)

Species within the genus Helleborus differ in the relative location of their sepals. Previous studies have proved the existence of post‐floral functionality of sepals in H. foetidus, which leads us to consider the possibility of differences in the functionality of the sepals in H. viridis subsp. occidentalis. In this study, we analyzed their influence on the number and weight of seeds through experimental manipulations, which involve a progressive reduction of sepals following fertilization. Our results show that different levels of perianth reduction have no effect on the number and weight of seeds in Helleborus viridis subsp. occidentalis. We propose that differences in the timing of leaf development and changes in the position of floral organs among the different Helleborus species, underlie a distinctive response to the ever‐changing weather conditions of the European winters and springs.     

Kidney concentrating ability of a subterranean xeric rodent,the naked mole-rat (Heterocephalus glaber)

The naked mole-rat (Heterocephalus glaber) is a strictly subterranean mammal inhabiting the arid zones of north-east Africa. These animals have no access to free water and water balance thus might be facilitated by regulating renal water loss. The urinary concentrating ability of the naked mole-rat was determined using five dietary manipulations in which both water and salt content were altered. Control animals (n=7) received a high quality protein cereal mixed to a thin paste with water (1 g cereal: 85 g water). Water stress was induced by reducing the water content of the diet by either 50% (n=7) or 65% (n=7). Salt loading was facilitated by replacing the water with the same volume of either 0.9% salt (n=7) or 3.0% salt (n=4) solutions. Changes in body mass, food consumption and urine volume were measured daily. The effect of diet on osmolality and electrolyte concentrations of urine and plasma were determined on termination of the diet trials. Although energy intake was not reduced, naked mole-rats lost body weight with both water stress treatments. Urine volume voided per day decreased significantly with both water stress treatments (P<0.05), such that the most extreme water stress led to an 80% reduction in urine volume. Mildly salt-loaded animals gained weight, yet underwent a sodium diuresis, as indicated by a 1.3-fold increase in the daily volume of urine voided (P<0.05). Maximum urine concentration (1521±250 mmol·kg^-1) was achieved with mild water stress and was 4.6±0.9 times that of plasma. Neither further water stress nor salt loading further increased urine osmolality (P>0.05). The naked mole-rat exhibits a moderate kidney concentrating ability and cannot maintain plasma osmolality or body mass with either extreme water stress or salt loading. Although this species succesfully inhabits arid zones, survival in these areas is not facilitated by renal water conservation, but rather by their underground existence in a microhabitat where humidities are high and radiant heat loads low. In this milieu a moderate kidney concentrating ability is adequate.Abbreviations Bm body mass - ESL extreme salt load - EWS extreme water stress - MSL mild salt load - MWS mild water stress