Pyrolysis and biochar potential using crop residues and agricultural wastes in China

This preliminary study examines the feasibility and applications of pyrolysis and biochar in China to understand issues about bioenergy generation, agricultural cost savings and enhancement of atmospheric quality. Multiple agricultural and animal wastes are analyzed and quantitative measures of economic and environmental benefits are provided. The Poyang Lake, one of the most important clean water lakes in China, is examined to see how pyrolysis and biochar applications can be beneficiary to farmers and society in terms of the economic and greenhouse gas values. Rice straw, corn stover, poplar, orchard wastes, animal wastes and open pasture wastes are primary feedstocks for fast and slow pyrolysis. The results show that both fast and slow pyrolysis are profitable under current situations where corn stover-based pyrolysis yields the highest economic benefits but that of animal wastes-based can offset more GHG emissions. Rice straw yields a loss but it can still be a potential choice since the material is the most popular in study area. Sensitivity analysis is provided to understand the changes of economic and environmental benefits under various market conditions and the results indicate that in general, significant profits of pyrolysis and biochar application bring additional margin of safety and therefore, pyrolysis and biochar does not incur a loss unless input costs increase more than 53% to 64%.     

Effect of pretreatment with organic solvent on enzymatic digestibility of cauliflower wastes

Abstract

The present study investigated the operational conditions for different pretreatment approaches and subsequent enzymatic hydrolysis of cauliflower wastes (stalk and leaf) for better release of fermentable sugars. The structural analysis of raw and pretreated lignocellulosic biomasses was investigated using scanning electron microscopy (SEM), X-ray diffraction (XRD), and Fourier transforms infrared (FTIR) analysis. Results demonstrated that the highest cellulose conversion rate and removal of most of the hemicellulose and lignin were obtained with organosolvent pretreatment. Using methanol in presence of sodium (Na) acetate was most effective in delignification of cauliflower wastes. In the present study, methanol (100% v/v) in presence of 0.1?M Na-acetate at 121?°C for 45 and 60?min for stalk and leaf, respectively, gave maximum reducing sugar yield. Response surface methodology was used to optimize different process parameters for enzymatic saccharification using microbial cellulase and xylanase. The optimum operation condition of enzymatic hydrolysis of organosolvent pretreated cauliflower wastes were substrate loading (2.5% w/v for both stalk and leaf), enzyme loading (15 and 10?U/g for stalk and leaf, respectively), pH (4.46 and 5.48 for stalk and leaf, respectively), at 60?°C and for 180?min.     

Biological potential of fungal inocula for bioaugmentation of contaminated soils

The suitability of the fluorescein diacetate hydrolyzing activity (FDA) assay for determining the biological potential (ie fungal biomass produced per unit of substrate) of solid pelleted fungal inoculum intended for use in the bioaugmentation of contaminated soils with white-rot fungi, was evaluated. FDA activity of the white-rot fungusPhanerochaete chrysosporium grown on pelleted substrates and on agar was found to be proportional to quantities of fungal ergesterol and fungal dry matter, respectively. Inoculum biological potential was found to be greatly influenced by substrate formulation and structure, and temperature. Biological potential and the type of carrier influenced the ability ofP. chrysosporium to tolerate pentachlorophenol (PCP).Phanerochaete chrysosporium andTrametes versicolor introduced into PCP-contaminated soil on pellets with higher biological potential and higher nitrogen content (C:N ratio of 501), did not remove PCP more efficiently than when the fungi were introduced on pellets with a lower biological potential (C:N ratio of 3091). However, under the latter conditions most of the PCP was transformed to pentachloroanisole (PCA). In soil inoculated withT. versicolor on pellets with high biological potential, higher manganese peroxidase activity was detected compared to soil inoculated with pellets with a lower biological potential.     

破囊壶菌利用工农业废弃物生产脂肪酸的研究进展

破囊壶菌因具有高产脂肪酸的特性而受到广泛关注,然而传统的培养方式需要的原料成本很高,很大程度上阻碍了破囊壶菌的工业化进程,因此,寻找可被破囊壶菌高效利用、来源广泛并且廉价易得的生产原料成为该领域的研究重点。本文以破囊壶菌及其生产脂肪酸为切入点,综述了近年来破囊壶菌利用工农业废弃物生产脂肪酸的研究现状,总结并提出了其发展前景,以期对今后的研究有所启发。     

A metagenomic-based,cross-seasonal picture of fungal consortia associated with Italian soils subjected to different agricultural managements

This work pictures the biodiversity of fungal consortia inhabiting real agroecosystems, sampled in one production farm in two seasons (spring, autumn), coinciding with climate gradients and key moments of the agricultural cycle. Soil was sampled from three plots differently managed in terms of fertilization, pesticide and tillage application: conventional, organic, no-tillage. Metagenomic analyses on ITS1 amplicons depicted the highest indexes of richness for organic. No-tillage resulted in inhabitation by the most divergent communities, with their own composition, prevalence and seasonal trends. Ascomycota always predominated, with the exception of conventional, that had high abundance of a single basidiomycete species. Our results showed evidence that agricultural soils under organic and no-tillage systems harbour distinct mycobiota, even in neighbouring fields. From our results, fungal consortia altered even in the first year after the management change.     

海洋褐藻多糖的复杂结构、降解酶系以及生物学功能

海洋大型藻类(包括褐藻、红藻和绿藻)具有生物质资源产量高、生长过程中不占用耕地和淡水资源等优点,是未来生物炼制的优良原料。2021年,中国褐藻产量为190万吨,远高于其他经济藻类。但是与绿藻相比,褐藻所含的褐藻酸盐和红藻所含的3,6-脱水-L-半乳糖等多糖组分不容易发酵,极大地限制了其高值转化的进程。本文针对褐藻多糖的高效降解与高值转化这一研究热点,总结了褐藻的系统发育与褐藻多糖(褐藻胶、岩藻多糖以及昆布多糖)的复杂结构组成,分析了3类海洋多糖降解酶系的家族、空间结构及其特异性识别专一底物的活性架构等特征,并对褐藻多糖降解产物及其衍生寡糖的生物学功能进行了构效分析,以期揭示海洋多糖降解酶系的高效催化机制和特异性识别机理,推动褐藻的高效生物降解转化,为精准定制生物活性寡糖,构建绿色低碳工业化生产工艺提供参考。     

Polysaccharide and protein degradation,germination, and virulence against mosquitoes in the entomopathogenic fungus Metarhizium anisopliae

From a genetically uniform wild-type strain of Metarhizium anisopliae pathogenic to mosquitoes, mutants were selected which were altered in the ability to degrade starch, gelatin, or milk. The mutants with enhanced starch degradation (dep), when grown on starch-containing media, proved hypervirulent toward the mosquito Culex pipiens pipiens in standard laboratory tests. Alterations in protein (gelatin or milk) degradation did not correlate with changes in virulence. The dep mutants appear to belong to the same class as mutants selected previously as hypervirulent and characterized by early spore germination. The relationship among polysaccharide degradation, early germination, and virulence is discussed.     

Monitoring of microbial populations and their cellulolytic activities during the composting of municipal solid wastes

Seasonal changes in microbial populations and the activities of cellulolytic enzymes were investigated during the composting of municipal solid wastes at Damietta compost plant, Egypt. The changes in temperature, pH and carbon/nitrogen (C/N) ratio were also monitored. The results obtained showed that the temperatures of the windrows in all seasons reached the maximum after 3 weeks of composting and then decreased by the end of the composting period (35 days), but did not reach ambient temperature. Marked changes in pH values of the composts in all seasons were found, but generally, the pH was near neutrality. Significant increases in the size of the microbial populations were obtained in autumn and spring seasons compared to summer and winter seasons. The activities of cellulases were also higher in the autumn and spring seasons than in the summer and winter seasons. The decrease in C/N ratio in autumn and spring was higher than in summer and winter. It was evident that the degradation of organic matter increased by an increase in the microflora and its cellulolytic activities.     

Effects of fungal pretreatment and steam explosion pretreatment on enzymatic saccharification of plant biomass

The effects of consecutive treatments by a lignin-degrading fungus Phanerochaete chrysosporium and by steam explosion for the enzymatic saccharification of plant biomass were studied experimentally, and the optimal operational conditions for obtaining the maximum saccharification were evaluated. Beech wood-meal was treated by the fungus for 98 days and then by high steam temperatures of 170-230 degrees C with steaming times of 0-10 min. The treatment of the wood-meal by fungus prior to steam explosion enhanced the saccharification of wood-meal. The treated wood-meal was separated into holo-cellulose, water soluble material, methanol soluble lignin, and Klason lignin. The saccharification decreased linearly with the increase in the amount of Klason lignin. It was estimated by the equation for the saccharification of exploded wood-meal expressed as a function of steam temperature and steaming time that the maximum saccharification of wood-meal was obtained by consecutive treatments such as fungal treatment for 28 days and then steam explosion at a steam temperature of 215 degrees C and a steaming time of 6.5 min. (c) 1995 John Wiley & Sons, Inc.     

Biological control of nematodes: Soil amendments and microbial antagonists

Summary Organic matter amendments to soil can be used to manage phytoparasitic nematodes. The most effective amendments are those with narrow C:N ratios and high protein or amine-type N content. For soil with 1.0% (w/w) organic matter amendment there is a direct relation between extent of nematode control and the N content of amendments. A special group of amendments are those containing chitinous materials. Chitin addition to soil results in stimulation of a select microflora capable of degrading the polymer. Several microbial species are known to destroy the eggs of phytonematodes (Meloidogyne spp). Organic matter can be modified by addition of specific compounds or by inoculation with particular microbial species to produce an amendment that will induce suppressiveness.     

蚊幼虫病原真菌贵阳腐霉的生物学研究

为了开发灭蚊真菌贵阳腐霉Pythium guiyangense用于蚊虫防治,对贵阳腐霉生物学特性进行了研究。采用菌丝生长率、真菌产孢情况以及对致倦库蚊Culex quinquefaciatus1龄幼虫的毒力作为评价的指标。测试了7种人工培养基、7种单糖、7种氮源、真菌生长所需的pH范围和温度范围、以及4种光-暗比的光照程序对真菌的影响。结果证明该真菌生长的适合温度为5℃～35℃,最佳温度为25℃～30℃;适合pH范围是5～12;在pH 9～11范围内菌丝和游动孢子生长最好;测试的人工培养基中,按照菌丝生长速度从高到低排列,依次为Czapek’SFE、PYG、KPYG₂、SDAY、CMA和PDA。其中从真菌的游动孢子形成量和对蚊幼虫的毒力来看,最佳培养基为SFE;葡萄糖、果糖、乳糖、蔗糖、麦芽糖、甘露糖和可溶性淀粉都是本真菌的合适碳氢营养源;含有机氮的培养基比含无机氮的培养基好;不同的光照程序没有表现明显的影响,但是观察到紫外光对本真菌有明显的抑制作用。     

Biological control of Botrytis cinerea on tomato using naturally occurring fungal antagonists

Abstract

In order to evaluate the potential of naturally occurring filamentous fungi having potential as biocontrol agents effective against grey mould and post-harvest fruit rot caused by Botrytis cinerea on tomato, fungal saprophytes were isolated. They were obtained from leaves, fruits and flowers belonging to different species of cultivated and spontaneous Solanaceous plants collected at the horticultural area of La Plata, Argentina. Of 300 isolates screened for inhibition of B. cinerea using the dual culture technique on agar plate, 12 strains inhibited strongly mycelial growth of the pathogen. Among the antagonists one isolate of Epicoccun nigrum (126), four of Trichoderma harzianum (110, 118, 248 and 252) and four isolates of Fusarium spp. decreased the spore germination of B. cinerea between 30 and 70%. These isolates were probed on tomato fruits to evaluate their biocontrol activity against post-harvest grey mould. In growth chamber tests, E. nigrum (27), F. equiseti (22, 105) and T. harzianum (118, 252) reduced the diameter of fruit lesions by 50 – 90% and were selected for further biocontrol assays of tomato plants in the greenhouse. Although there were not significant differences between the treatments and the control, F. equiseti (105), E. nigrum (27) and T. harzianum (118) reduced by 20, 22 and 22 respectively the disease on whole plants. The targeted application of isolates of E. nigrum, T. harzianum and F. equiseti provides a promising alternative to the use of fungicide spray to control B. cinerea on tomatoes.     

Metagenomes of tropical soil-derived anaerobic switchgrass-adapted consortia with and without iron

Tropical forest soils decompose litter rapidly with frequent episodes of anoxia, making it likely that bacteria using alternate terminal electron acceptors (TEAs) such as iron play a large role in supporting decomposition under these conditions. The prevalence of many types of metabolism in litter deconstruction makes these soils useful templates for improving biofuel production. To investigate how iron availability affects decomposition, we cultivated feedstock-adapted consortia (FACs) derived from iron-rich tropical forest soils accustomed to experiencing frequent episodes of anaerobic conditions and frequently fluctuating redox. One consortium was propagated under fermenting conditions, with switchgrass as the sole carbon source in minimal media (SG only FACs), and the other consortium was treated the same way but received poorly crystalline iron as an additional terminal electron acceptor (SG + Fe FACs). We sequenced the metagenomes of both consortia to a depth of about 150 Mb each, resulting in a coverage of 26× for the more diverse SG + Fe FACs, and 81× for the relatively less diverse SG only FACs. Both consortia were able to quickly grow on switchgrass, and the iron-amended consortium exhibited significantly higher microbial diversity than the unamended consortium. We found evidence of higher stress in the unamended FACs and increased sugar transport and utilization in the iron-amended FACs. This work provides metagenomic evidence that supplementation of alternative TEAs may improve feedstock deconstruction in biofuel production.     

基于能值生态足迹理论的福建省农业废弃物再利用方式评估

农业废弃物(包括作物秸秆和畜禽粪便)蕴含着巨大的能量,如果未合理的再利用,将造成资源的浪费甚至环境污染。运用能值分析与生态足迹相结合的方法,对福建省1997—2006年农业废弃物的利用方式进行评估。首先对各种利用方式进行能值评估,然后采用能值生态足迹理论进行分析。结果表明,近10a来,福建省农业废弃物利用方式年均生态盈余为1.299hm2/人,说明福建省农业废弃物再利用的空间仍较大。如果农业废弃物能够被充分利用,将对福建省农业发展以及农业生态环境改善具有很大的促进作用。     

Production and characterization of cellulolytic and xylanolytic enzymes from the ligninolytic white-rot fungus Phanerochaete chrysosporium grown on sugarcane bagasse

The ligninolytic white-rot fungus Phanerochaete chrysosporium BKM-F-1767 produced extracellular cellulolytic enzymes (carboxymethylcellulase, CMCase and -glucosidase) and xylanolytic enzymes (xylanase and -xylosidase) in liquid medium containing 1.0% sugarcane bagasse with or without 1.0% glucose. The changes in pH and soluble protein content were monitored in the culture filtrates. The results obtained showed that the pH decreased after 3 days and then increased. The soluble protein content increased and reached the maximum value after 12 days. The results showed that the activities of enzymes were higher in the case of sugarcane bagasse without glucose. The characterization study indicated that the optimum pH values were 4.6, 4.2, 5.0 and 5.0 for CMCase, -glucosidase, xylanase and -xylosidase, respectively and the optimum temperatures were 60, 70, 65 and 60 °C for the investigated enzymes, respectively. The results showed also that after prolonged heating (5 h) at 60 °C, CMCase, -glucosidase, xylanase and -xylosidase retained 81.2, 86.8, 51.5 and 27.4% activity, respectively.     

Recent status and prospects of the fungal immunomodulatory protein family

With the exception of polysaccharides and triterpenes/triterpenoids compounds, fungal immunomodulatory protein (FIP), a small molecule protein, is also an important bioactive component with immune regulating activity. It plays a significant role in immunomodulating. The objective of this paper was to review the latest advances in various aspects of research on FIPs, including their basic components and structural character, characters of diversity, gene cloning and expression, and their biological function, etc. In addition, prospects of utilization value and the exploitation foreground of FIPs were also discussed. The review will provide a useful reference for further research, development, and utilizations of FIPs.