Alkali solubility of hemicelluloses in relation to delignification

The polysaccharide composition of bark from Pinus radiata, Salix fragilis, and Populus euramericana has been determined. All the barks contained lower levels of cellulose and hemicellulose than the corresponding woods; cellulose: hemicellulose ratios were also lower in the barks. Alkali extracted all of the hemicellulose-A but only half of the hemicellulose-B from P. radiata bark without prior delignification. Similar alkaline extraction removed almost all of the hemicellulose (A + B) from ryegrass leaves without delignification. With the other samples tested only a part of the hemicellulose A and B is extracted without delignification. It is suggested that the polysaccharide so extracted represents wall hemicellulose which is not linked to lignin or other wall constituents by alkali-stable links.     

The use of natural abundance stable isotopic ratios to indicate the presence of oxygen-containing chemical linkages between cellulose and lignin in plant cell walls

Qualitative and quantitative understanding of the chemical linkages between the three major biochemical components (cellulose, hemicellulose and lignin) of plant cell walls is crucial to the understanding of cell wall structure. Although there is convincing evidence for chemical bonds between hemicellulose and lignin and the absence of chemical bonds between hemicellulose and cellulose, there is no conclusive evidence for the presence of covalent bonds between cellulose and lignin. This is caused by the lack of selectivity of current GC/MS-, NMR- and IR-based methods for lignin characterisation as none of these techniques directly targets the possible ester and ether linkages between lignin and cellulose. We modified the widely-accepted “standard” three-step extraction method for isolating cellulose from plants by changing the order of the steps for hemicellulose and lignin removal (solubilisation with concentrated NaOH and oxidation with acetic acid-containing NaClO₂, respectively) so that cellulose and lignin could be isolated with the possible chemical bonds between them intact. These linkages were then cleaved with NaClO₂ reagent in aqueous media of contrasting ¹⁸O/¹⁶O ratios. We produced cellulose with higher purity (a lower level of residual hemicellulose and no detectable lignin) than that produced by the “standard” method. Oxidative artefacts may potentially be introduced at the lignin removal stage; but testing showed this to be minimal.Cellulose samples isolated from processing plant-derived cellulose–lignin mixtures in media of contrasting ¹⁸O/¹⁶O ratios were compared to provide the first quantitative evidence for the presence of oxygen-containing ester and ether bonds between cellulose and lignin in Zea mays leaves. However, no conclusive evidence for the presence or lack of similar bonds in Araucaria cunninghamii wood was obtained.     

Utilization of sugars,hemicellulose, starch,protein, fat and minerals by Erinnyis ello larvae and the digestive role of their midgut hydrolases

Fifth-instar larvae of Erinnyis ello feeding on Euphorbia pulcherrima leaves display the following rates and efficiencies: relative growth rate, 0.3 mg/day per mg; relative consumption rate, 2.6 mg/day per mg; approximate digestibility, 45%; efficiency of conversion of digested food, 25%. Chemical determinations performed on the leaves ingested and on the faeces expelled led to the determination of the approximate digestibilities (%) of the major constituents of leaves, as follows: soluble protein, 49; insoluble protein, 87; total lipids, 63; sucrose, 100; pectin, 0; hemicellulose, 52; starch, 88, cellulose, 0. Values (μg) for the daily absorption of minerals by a 3-g (fresh wt) E. ello larva were: K, 11,000; Ca, 5000; Mg, 2100; Cu, 3.3; Zn, 33; Fe, 110, The data suggest that the physiological role of the E. ello midgut β-fructosidase is to hydrolyze the major leaf carbohydrate sucrose, which is not efficiently digested by E. ello midgut α-glucosidase, whereas the physiological role of E. ello midgut β-glucosidase is to accomplish the final digestion of the hemicellulosic β-d-glycans.     

Conversion of cellulosic materials to ethanol

The plant cell wall can be regarded as a giant bag-like macromolecule in which crystalline bundles of cellulose are embedded in a covalently linked matrix of hemicellulose and lignin. This heterologous polymer represents the dominant form of biomass on earth and a formidable challenge for solubilization and bioconversion. Bioconversion of lignocellulose requires the saccharification of both the hemicellulose and cellulose. Hemicellulose is composed of a mixture of sugars and can be readily hydrolysed by dilute acid at 140°C to produce a syrup containing pentoses and hexoses. However, no organisms in nature rapidly and efficiently convert both pentoses and hexoses into a single product of value. Our laboratory has developed such an organism by genetic engineering. Recombinant strains of Gram-negative bacteria (Escherichia coli or Klebsiella oxytoca or Erwinia sp.) have been constructed in which genes encoding the ethanol pathway from Zymomonas mobilis (pdc and adh) were inserted into the chromosome. These strains now efficiently convert all of the component sugars of hemicellulose and (cellulose) into ethanol. The saccharification of cellulose is more difficult and more complex. An enzymatic approach is preferred but at least three classes of enzymes are needed: endoglucanase, exoglucanase, and β-glucosidase. Klebsiella oxytoca and Erwinia sp. possess the native ability to transport and metabolize cellobiose (also cellotriose, xylobiose, and xylotriose), minimizing the need for added β-glucosidase. K. oxytoca strain P2, an ethanol-producing recombinant, has been evaluated in simultaneous saccharification and fermentation experiments to determine optimal conditions and limits of performance. Temperature was varied between 32 and 40°C over a pH range of 5.0–5.8 with 100 g 1⁻¹ of crystalline cellulose (Sigmacell 50, Sigma Chemical Company, St. Louis, MO) as the substrate and commercial cellulase (Spezyme CE; Genencor, South San Francisco, CA). A broad optimum for fermentation was observed which allowed the production of over 44 g ethanol 1⁻¹ (82–87% of the maximum theoretical yield). Two optimal saccharification and fermentation conditions were identified for fermentation yield, pH 5.2 at 35°C and pH 5.5 at 32°C, which produced 47 g ethanol 1⁻¹ in 144 h (0.48 g ethanol (g cellulose) ⁻¹). Although yields were reduced at the lowest cellulase levels tested (2–5 filter paper units (g cellulose)⁻¹), ethanol production per unit enzyme was much higher.     

Degree of plant root digestion by the larva of the beetle, Costelytra zealandica

The degree of plant root digestion by grass grubs (Costelytra zealandica) has been evaluated by scanning electron microscope examination of plant residues in faeces. Faecal pellets were examined from grubs fed on roots of pure plant species (perennial ryegrass, Lolium perenne, and white clover, Trifolium repens) under soil-free conditions, as well as from naturally occurring grubs on mixed pasture. There was considerable variation in the degree of digestion observed with different plant species. Clover root was more extensively digested with formation of partially digested xylem vessels, whereas ryegrass root appeared to undergo very little digestive breakdown. These results indicate that plant structural carbohydrates undergo limited digestion by the grass grub. Thus grass grubs may require a high turnover of dietary root material, which would explain the highly destructive effect of the larvae on pasture plants.     

Differences between cattle and sheep in their digestion and relative intake of a mature tropical grass hay

The dry-matter digestibility (DMD) of a low quality tropical grass hay was much higher in cattle (49.6%) than in sheep (34.6%). This difference was not due to a difference in relative intake per kg liveweight (W^0.9) nor to a difference in the diet selected. However, neutral-detergent fibre (NDF) was digested better by cattle than by sheep. For each kg of dry matter consumed, cattle digested 415 g NDF and sheep 279 g NDF. This was because 60% more of the hemicellulose and 35% more of the cellulose were digested by cattle than by sheep.Differences between cattle and sheep in the concentrations of urea and sulphate in blood, and the relatively lower excretion of N, P and Ca by the cattle suggested that the rumen micro-organisms of the cattle were utilizing these nutrients better than those of the sheep. This could have increased microbial activity in the rumen and, hence, digestion of fibre.     

Production of ethanol from wood and agricultural residues by Neurospora crassa

The feasibility of utilizing the rapidly growing tropical woods for ethanol production by Neurospora crassa has been studied. Hydrolysis of cold alkali pretreated wood gave a saccharification of 68% based on the available carbohydrate. The direct fermentation of pretreated wood (20 g l^?1) by Neurospora crassa gave quantitative conversion of available hemicellulose/cellulose to ethanol in 5 days. Increasing the substrate concentration to 50 g l^?1lowered the conversion to 40–60% yielding 12 g l^?1of ethanol. Fermentation of wood (50 g l^?1) pretreated with hot 1 m NaOH followed by neutralization with HCl gave only 6 g l^?1of ethanol.     

Botanical composition and extent of lignification affecting digestibility of wheat and oat straw and paspalum hay

Samples of 1 kg of wheat straw, oat straw and paspalum hay were separated manually into botanical fractions, and the three largest fractions of each forage were analysed chemically for cell-wall constituents, silica and nitrogen. Proportions of digested dry matter, cellulose and hemicellulose, and potential digestibility for each of these major botanical fractions were determined when chaffed samples were placed in nylon bags and incubated for 12, 24, 48, 72 and 96 h in the rumen of sheep fed on lucerno. Cross-sections of botanical fractions were stained with safranin and fast green, and proportions of lignified tissue determined by light-microscopy and planimetry.Large differences in dry-matter digestibility between wheat straw and oat straw were attributed to the different proportions of botanical fractions. Within forages, stem was the largest fraction, the most lignified and had the lowest potential digestibility. Proportions of digested dry matter from botanical fractions at 12 h were poorly correlated with lignin content of dry matter (r = 0.25) but at 72 h were negatively correlated with lignin content of dry matter (r = ?0.84, P<0.01) and with proportions of lignified tissue (r = ?0.67, P<0.05) in the respective botanical fractions. Proportions of cellulose and hemicellulose digested at 72 h were strongly correlated with lignin content of cell walls (r = ?0.90, P<0.01; r = ?0.85, P<0.01, respectively). Proportions of lignified tissues were less closely correlated with all measurements of digestibility than were proportions of lignin in cell walls determined chemically. Development of a technique for measuring intensity of lignification might enhance the value of light-microscopy measurements.     

THE STRUCTURE OF INSECT VIRUS PARTICLES

Thin sections have been cut of the virus particles from four types of insect virus diseases: cytoplasmic polyhedroses of lepidopterous larvae, a nuclear polyhedrosis of Tipula paludosa (Diptera), a granulosis from Melanchra persicariae (Lepidoptera), and a new virus disease without polyhedra from T. paludosa. The cytoplasmic polyhedral viruses are thought to have composite particles in some cases. The shape and enveloping membranes of the different virus particles are compared. In the new virus disease of T. paludosa some of the virus particles appear to be empty; inclusion bodies surrounded by complicated membranes are also demonstrated.     

Search for optimum conditions of wheat straw hemicelluloses cold alkaline extraction process

A method for the selective extraction of hemicellulose from wheat straw involving cold alkaline extraction and subsequent separation by precipitation with ethanol is proposed. Wheat straw affords selective separation of the hemicellulose fraction from the cellulose and lignin fractions with the proposed method. The hemicellulose yield was optimized by using a 2n factor design to examine the influence of temperatures (temperature was designed between 20 and 40 °C), operation times (operation time was designed between 30 and 60 min) and alkali concentrations (alkali concentration was designed between 80 and 120 g L⁻¹). These conditions allowed 56.1% of all hemicellulose initially present in the raw material, and 59.1% of the lignin, to be extracted. Subsequent separation of hemicellulose in the liquid phase from the cold alkaline extraction by precipitation with ethanol provided a fraction containing 39.4% of all hemicellulose (45.2% hemicellulose in extract/total extract) and only 12% of all lignin in the raw material.     

Effect of plant species on the larvae of gastrointestinal nematodes which parasitise sheep

Faeces containing Trichostrongylus colubriformis and/or Ostertagia circumcincta eggs were used to provide four contaminations in each of 2 years on plots of browntop, Yorkshire fog, ryegrass, tall fescue, lucerne, chicory, cocksfoot, white clover, and prairie grass and in the second year a mixed sward of ryegrass/white clover. Third stage larvae were recovered from faeces and from four strata of herbage, 0–2.5, 2.5–5, 5–7.5 and >7.5 cm above the soil surface at 2, 4, 6, 8, 11, and 14 weeks after faeces were deposited on the swards. Herbage species had a significant (P &lt; 0.0001) effect on the number of larvae recovered. Greatest numbers of larvae, as indicated by ranking analysis, were recovered from Yorkshire fog, ryegrass, and cocksfoot and lowest numbers from white clover and lucerne. The difference between herbages in numbers of larvae recovered was due to the ‘‘development success’’, the ability of larvae to develop to the infective stage and migrate on to herbage, rather than ‘‘survival’’, the rate of population decline once on the herbage. Faecal degradation was most rapid from white clover and browntop, intermediate from tall fescue, lucerne, prairie grass, cocksfoot, and ryegrass, and slowest from Yorkshire fog swards. The numbers of larvae recovered from herbages were related (r² = 0.59, P &lt; 0.05) with the faecal mass remaining. A greater proportion of the total larvae recovered from the herbage was recovered from the bottom stratum of Yorkshire fog and prairie grass than from white clover, with the other herbages intermediate, indicating that larvae had greater difficulty migrating up Yorkshire fog and prairie grass than the other herbage species. In most herbage species, despite more larvae being recovered from the lowest stratum, larval density (L₃/kg herbage DM) was highest in the top stratum. This study has demonstrated that herbage species can have a significant impact on the population dynamics and vertical migration of T. colubriformis and O. circumcincta larvae.     

Pre-hydrolysis improves utilisation of dietary protein in the larval teleost Atlantic halibut (Hippoglossus hippoglossus L.)

A protein preparation labelled by incorporation of [U]¹⁴C-AA was hydrolysed to various degrees and administered to a teleost fish larva (Atlantic halibut, Hippoglossus hippoglossus L.) by tube-feeding, and its post-administration utilisation was studied. Three treatments were prepared: IntP—intact protein, PHP—pepsin-hydrolysed protein, and HHP—highly hydrolysed protein (using pepsin, trypsin, endoproteinase Glu-C, Asp-N, and Pro-C). At small doses (11.4±1.5 μg larvae⁻¹), the intact protein (IntP) was digested and absorbed to 36±5.5%. However, the relative absorption efficiency of the intact protein was reduced as the dose increased. Absorption efficiency was higher when the protein was hydrolysed prior to feeding the larvae and was constant at 63% (R²=98) independent of degree of proteolysis and dose (ranging from 3.5 to 35 μg larvae⁻¹). The initial absorption rate increased with the degree of hydrolysis. Calculations based on data collected during the first 30-120 min show that the absorption of PHP and HHP into extra-intestinal body tissues was 2.2 and 3 times as fast, respectively, as that of intact protein. However, the rates of absorption did not influence the distribution of absorbed AA into either catabolism or anabolism, as all larvae, independent of which protein solution they were given, catabolised 42±7% of the absorbed AA, and accumulated 49±6% into the body tissue, during the 20 h post-feeding incubation period.Larval age and size did not influence the absorption and utilisation of the hydrolysed protein preparations. This was different from the intact protein, as significantly higher fractions of the intact protein were absorbed by the larvae at 31 days past first feeding (dpff) than by larvae at 25 dpff. Analysis of the faecal evacuation suggested that the poor protein utilisation in the younger larvae was due to enhanced faecal evacuation, which in some larvae was more than 50% only 4 h post diet administration, at a time when the process of digestion and absorption was far from complete. This indicated that faecal evacuation is a critical factor in the utilisation of slowly digested and absorbed feed components, such as intact proteins, by fish larvae.     

Anaerobic biohydrogen production from wheat stalk by mixed microflora: Kinetic model and particle size influence

This study investigated the influence of particle size on anaerobic biohydrogen production from wheat stalk by mixed microflora. In addition, the kinetic model for the formation of main products was also mentioned. The results demonstrated that all the cumulative productions of hydrogen, acetate and butyrate decreased as the particle size increasing from 1 to 10 mm at a constant TS value of 2%, 5% and 8%, respectively. However, this difference for aqueous products was not very obvious compared with hydrogen. A modified Gompertz equation was able to adequately describe the cumulative production of hydrogen, acetate and butyrate (R² higher than 0.989). The results also indicated that the formation of the main products were all associated with the degradation of cellulose and hemicellulose (R² higher than 0.855).     

Delignification of Wheat Straw by Pleurotus spp. under Mushroom-Growing Conditions

Pleurotus sajor-caju, P. sapidus, P. cornucopiae, and P. ostreatus mushrooms were produced on unsupplemented wheat straw. The yield of mushrooms averaged 3.6% (dry-weight basis), with an average 18% straw weight loss. Lignin losses (average, 11%) were lower than cellulose (20%) and hemicellulose (50%) losses. The cellulase digestibility of the residual straw after mushroom harvest was generally lower than that of the original straw. It does not appear feasible to simultaneously produce Pleurotus mushrooms and a highly delignified residue from wheat straw.     

Pyrolysis characteristics and kinetics of Arundo donax using thermogravimetric analysis

The increase of the price of fossil means, as well as their programmed disappearing, contributed to increase among appliances based on biomass and energy crops. The thermal behavior of Arundo donax by thermogravimetric analysis was studied under inert atmosphere at heating rates ranging from 5 to 20 °C min⁻¹ from room temperature to 750 °C. Gaseous emissions as CO₂, CO and volatile organic compounds (VOC) were measured and global kinetic parameters were determined during pyrolysis with the study of the influence of the heating rate. The thermal process describes two main phases. The first phase named active zone, characterizes the degradation of hemicellulose and cellulose polymers. It started at low temperature (200 °C) comparatively to wood samples and was finished at 350 °C. The pyrolysis of the lignin polymer occurred during the second phase from 350 to 750 °C, named passive zone. Carbon oxides are emitted during the active zone whereas VOC are mainly formed during the passive zone. Mass losses, mass loss rates and emission factors were strongly affected by the variation of the heating rate in the active zone. It was found that the global pyrolysis of A. donax can be satisfactorily described using global independent reactions model for hemicellulose and cellulose in the active zone. The activation energy for hemicellulose was not affected by a variation of the heating rate with a value close to 110 kJ mol⁻¹ and presented a reaction order close to 0.5. An increase of the heating rate decreased the activation energy of the cellulose. However, a first reaction order was observed for cellulose decomposition. The experimental results and kinetic parameters may provide useful data for the design of pyrolytic processing system using A. donax as feedstock.     

Production of Glucose Isomerase by Streptomyces flavogriseus

A microorganism that produces glucose isomerase was isolated from soil and identified as a strain of Streptomyces flavogriseus. The organism produced a large quantity of glucose isomerase when grown on straw hemicellulose, xylan, xylose, and H₂SO₄ hydrolysate of ryegrass straw. The organism produced glucose isomerase both intra- and extra-cellularly. The highest level of intracellular glucose isomerase (3.5 U/ml) was obtained in about 36 h by a culture grown on straw hemicellulose; the extracellular enzyme (1.5 U/ml) appeared in cultures grown for about 72 h. About equal levels of enzyme were produced in cultures grown on straw hemicellulose, xylan, xylose, and H₂SO₄ hydrolysate of straw, but production of the enzyme was drastically reduced when the organism was grown on other carbon sources. As a nitrogen source, corn steep liquor produced the best results. Soy flour extract, yeast extract, and various peptones also were adequate substrates for glucose isomerase production. Addition of Mg²⁺, Mn²⁺, or Fe²⁺ to the growth medium significantly enhanced enzyme production. The organism, however, did not require Co²⁺, which is commonly required by microorganisms used in the production of glucose isomerase.     

Studies on the horizontal migration of dipterous stem borers (Oscinella spp.) in direct drilled Italian ryegrass

The distance stem boring dipterous larvae e.g. Oscinella frit L. migrate in direct drilled Italian ryegrass (Lolium multiflorum) was investigated. First, adjacent contrasting swards of Italian ryegrass or Cocksfoot (Dactylis glomerata) were grown which were, respectively, expected to be either infected with large populations of larvae or likely to be free of larvae. Sampling revealed that these expectations were realised. Swards were then desiccated by herbicide, and subsequently direct drilled with Italian ryegrass. Over 50% of the larvae in original, infested part of the sward migrated to infest tillers of the newly sown ares. The distance larvae migrated was gauged by assessing how far they were found from the perimeter of a previously uninfested area which had been reseeded. Most larvae migrated 20 cm or less, but a small proportion appeared to migrate several metres, apparently passing many suitable host tillers as they did so.deceased September 1989     

Life Cycle,Production and Survival Rates of Ptychoptera paludosa(Diptera: Ptychopteridae)

Life cycle, survival and production of the univoltine midge Ptychoptera paludosa whose larvae live in fine sandy sediments were studied in a German stream (1989–1990). Growth of the 4th larval instar was linear. Adults emerge from May, for ca 8 weeks (1985–1990); emergence was 0.56 g dry weight m^–2 lentic area (1990). Density decreased strongly only when larvae were young; except after an exceptional spate, numbers emerging were independent of discharge. Larval survival was ca 9%; only 10% of the potential offspring of the survivors actually appeared in the next generation. Secondary production (P) was 2.3 g ash free dry weight (AFDW) m^–2y^–1, mean biomass (B) was 0.6 g AFDW m^–2, i.e., the P/B ratio was 3.8.     

Differential susceptibility of parasitized and nonparasitized larvae of Trichoplusia ni to a nuclear polyhedrosis virus

Nonparasitized second-instar larvae of Trichoplusia ni were twice as susceptible (at the LD₅₀ level) to the singly enveloped T. ni nuclear polyhedrosis virus as those parasitized by Hyposoter exiguae (Hymenoptera: Ichneumonidae). The LD₅₀ values for nonparasitized and parasitized larvae were 1.58 × 10³ and 3.16 × 10³ polyhedra/ml of diet, respectively. The LD₉₅ value for parasitized larvae was approximateely 5 times higher than that for nonparasitized larvae. The slopes (b values) were 1.2 for parasitized larvae and 1.7 for nonparasitized larvae. The LT₅₀ values for parasitized larvae also were significantly longer than those for nonparasitized larvae. No significant difference was found between the food consumption of parasitized and nonparasitized T. ni larvae.     

Multiple response optimization of alkaline pretreatment of sisal fiber (Agave sisalana) assisted by ultrasound

A procedure for the alkaline pretreatment of sisal fiber assisted by ultrasound was optimized to obtain a higher solubilization of hemicellulose and the removal of lignin with cellulose fraction maintenance. A full factorial design 2³ was used for the evaluation of the effects of the variables (sonication time, NaOH concentration, and sonication amplitude) on the pretreatment. The optimal values for the variables using the Doehlert matrix for the sonication time, NaOH concentration, and sonication amplitude were 27 min, 4.1% (m/v), and 50%, respectively. The X-ray diffractometry and scanning electron microscopy analyses, after pretreatment, showed changes in chemical structure and morphology due to the removal of 82% of hemicellulose and 86% of lignin from sisal fiber. The soft reaction conditions and relatively short times demonstrated the effectiveness of the combined action of ultrasound with alkaline pretreatment to improve the accessibility to cellulose in this important step of the ethanol production process from biomass.