Medicinal plants of Paraguay: Underground Organs,II

We have identified additional underground storage organs belonging to 17 species in 12 families that are being sold as medicinal in the market #4 of Asunción currently known as “Pettirossi.” All of them grow wild in Paraguay. These organs are used locally to combat ulcers, gastritis, cough, tonsillitis, bronchitis, pharyngitis, cancer, syphilis, amenorrhea and rheumatism. They are also used as abortives, hemostatics, hypotensives, expectorants, diuretics, and as refreshing beverages.     

Potential for Bioenergy Production from Sugarcane in China

There has been rapid economic development in China in recent decades, and demand for energy has consequently been increasing rapidly. Development and utilisation of clean and renewable energy has been promoted by the Chinese government to help sustain long-term and stable development. Sugarcane is being increasingly used in several countries as feedstock for renewable energy products, and is a major and expanding crop in southern China. In this paper, we discuss the potential of sugarcane as a feedstock for bioenergy production in China. It includes a review of (1) the existing sugarcane industry in China and key bio-physical factors affecting the extent to which sugarcane-based industries could supply feedstock for renewable energy production in China, (2) the economic and policy factors which are likely to affect production of bioenergy from sugarcane in China, and (3) recommendations on actions and policies that may assist with appropriate development of bioenergy production from sugarcane in China. Existing and expected future economic conditions are unlikely to favour production of biofuel from the sugar component in cane. However, the fibre component of cane remains an under-utilised resource component. A conclusion is made that sugarcane fibre has potential to contribute towards renewable electricity production in China. However, at present, favourable incentives do not exist to encourage this production. It is suggested that policies to facilitate cost-effective production of renewable electricity by sugar mills, consistent with national objectives regarding production of renewable energy, be considered by governments. Priorities for future research are in improving biomass yields per unit area of land and technologies for low-cost conversion of lignocellulosic biomass into biofuel.     

Composition and Structure of Sugarcane Cell Wall Polysaccharides: Implications for Second-Generation Bioethanol Production

The structure and fine structure of leaf and culm cell walls of sugarcane plants were analyzed using a combination of microscopic, chemical, biochemical, and immunological approaches. Fluorescence microscopy revealed that leaves and culm display autofluorescence and lignin distributed differently through different cell types, the former resulting from phenylpropanoids associated with vascular bundles and the latter distributed throughout all cell walls in the tissue sections. Polysaccharides in leaf and culm walls are quite similar, but differ in the proportions of xyloglucan and arabinoxylan in some fractions. In both cases, xyloglucan (XG) and arabinoxylan (AX) are closely associated with cellulose, whereas pectins, mixed-linkage-β-glucan (BG), and less branched xylans are strongly bound to cellulose. Accessibility to hydrolases of cell wall fraction increased after fractionation, suggesting that acetyl and phenolic linkages, as well as polysaccharide–polysaccharide interactions, prevented enzyme action when cell walls are assembled in its native architecture. Differently from other hemicelluloses, BG was shown to be readily accessible to lichenase when in intact walls. These results indicate that wall architecture has important implications for the development of more efficient industrial processes for second-generation bioethanol production. Considering that pretreatments such as steam explosion and alkali may lead to loss of more soluble fractions of the cell walls (BG and pectins), second-generation bioethanol, as currently proposed for sugarcane feedstock, might lead to loss of a substantial proportion of the cell wall polysaccharides, therefore decreasing the potential of sugarcane for bioethanol production in the future.     

红糖加工型甘蔗种质资源评价与筛选方法的建立

优良的甘蔗原料是生产高品质红糖的基础,筛选营养价值丰富的甘蔗种质资源,是选育红糖加工型甘蔗品种的基础.本研究以全国广泛种植、当前普遍用于红糖加工以及历史上较早应用于制作红糖等具有代表性的16份甘蔗种质为试验材料,通过分析蔗汁的蛋白质、总游离氨基酸、总多酚、蔗糖、还原糖、灰分、氯化物、胶体含量等营养、品质指标,采用因子分...     

Sustainable Cultivation Concepts for Domestic Energy Production from Biomass

Referee: Dr. J. Grant McLeod, Semiarid Prairie Agricultural Research Centre, Research Branch, Agriculture and Agri-Food Canada, P.O. Box 1030 Swift Current, Saskatchewan S9H 3X2, Canada According to the European Union, biomass will play a major role in the substitution of fossil fuels with renewable resources. Biomass will contribute 83% to the increased use of renewable resources by the year 2010. In contrast to other solar energy sources, plant biomass is always available and can be converted into energy continuously. An important objective in the production of energy crops on arable farm land should be to realize a high net energy yield and fulfill obligations in the field of environmental protection. The “double cropping system” was developed to meet these obligations. Silaging as a conservation method for wet biomass makes this sustainable cultivation system possible. It includes a diverse array of crops and provides the opportunity to integrate rural organic wastes into this energy concept. The model presented, “the energy self supplying farm”, shows that it is possible to meet the energy consumption requirements of a livestock farming operation with energy crop production on 10 to 18% of the arable farm land. According to a new rape energy concept, a land resource requirement of roughly 10% is feasible if biomass residues from rape oil production for liquid fuels are also utilized for energy production. For a farm with livestock, anaerobic digestion technology is an appropriate technique to deliver heat and electricity for the farmstead. Digestion residues, used as fertilizer in energy crop production, results in an almost complete nutrient recycling. Energy output can be increased above the demand of the farm via the biogas reactor, using the total biomass produced with double cropping. Surplus electricity is supplied to the grid at a guaranteed price. Biomass is a domestic energy resource, and farmers have the chance to extend their function from a supplier of raw material to managers of domestic energy resources. Under the currently established framework, monetary return per hectare could be more than double with biomass energy production via biogas. This will allow the agricultural economy to recover and promote a sustainable regional development. In addition to being a convenient method of waste management, sustainable energy crop production can make a significant contribution to environmental protection and the improvement of the social and economic cohesion within a community.     

Stress-Tolerant Feedstocks for Sustainable Bioenergy Production on Marginal Land

Given the mandated increases in fuel production from alternative sources, limited high-quality production land, and predicted climate changes, identification of stress-tolerant biomass crops will be increasingly important. However, existing literature largely focuses on the responses of a small number of crops to a single source of abiotic stress. Here, we provide a much-needed review of several types of stress likely to be encountered by biomass crops on marginal lands and under future climate scenarios: drought, flooding, salinity, cold, and heat. The stress responses of 17 leading biomass crops of all growth habits (e.g., perennial grasses, short-rotation woody crops, and large trees) are summarized, and we identify several that could be considered “all purpose” for multiple stress types. Importantly, we note that some of these crops are or could become invasive in some landscapes. Therefore, growers must take care to avoid dissemination of plants or propagules outside of cultivation.     

茉莉酸类与植物地下贮藏器官的形成

茉莉酸类化合物(茉莉酸及其衍生物)可能参与了马铃薯、薯蓣、菊芋的块茎,甘薯的块根以及洋葱、大蒜的鳞茎形成。JA及MeJA均可诱导离体条件下马铃薯块茎的形成和马铃薯髓部细胞的膨大。JA诱导细胞膨大是由于蔗糖积累导致渗透压增加以及细胞壁结构变化,从而使其伸展性增加,纤维素的合成起了重要作用,细胞骨架也是JA诱导细胞膨大所必需的。但迄今为止,尚未确定块茎形成的直接诱导物。     

茉莉酸类与植物地下贮藏器官的形成

茉莉酸类化合物（茉莉酸及其衍生物）可能参与了马铃薯,薯蓣,菊芋的块茎,甘薯的块根以及洋葱,大蒜的鳞茎形成,JA及MeJA均可诱导离体下马铃薯块茎的形成和马铃薯髓部细胞的膨大,JA诱导细胞膨大是由于蔗糖积累导致渗透压增加以及细胞壁结构变化,从而使其伸展性增加,纤维素的合成起了重要作用,细胞骨架也是JA诱导细胞膨大所必需的,但迄今为止,尚未确定块茎形成的直接诱导物。     

Going for brokerage

Broker: person licensed to sell or appraise distrained goods; hence ∼ age n., the business of a broker (ME f. AF brocour = Prov. abrocador, of unkn. orig.)     

Oil Palm Biomass Biorefinery for Sustainable Production of Renewable Materials

Oil palm biomass is widely known for its potential as a renewable resource for various value‐added products due to its lignocellulosic content and availability. Oil palm biomass biorefinery is an industry that comes with sociopolitical benefits through job opportunities, as well as potential environmental benefits. Many studies have been conducted on the technological advancements of oil‐palm biomass‐derived renewable materials, which are discussed comprehensively in this review. Recent technological developments have made it possible to bring new and innovative technologies to commercialization, such as compost, biocharcoal, biocomposites, and bioplastics.     

Utilizing the Allelopathic Potential of Brassica Species for Sustainable Crop Production: A Review

Journal of Plant Growth Regulation - Sustainable crop production under changing climate is crucial to feed the increasing population of the world. Efforts are underway to discover novel strategies...     

Assessment of Sugarcane Billet Harvester on Recovery of Sweet Sorghum Biomass for Ethanol Production

Sweet sorghum (Sorghum bicolor L. Moench) is a promising bioenergy crop for the production of ethanol and bio-based products. Sugarcane billet harvesters can be used to harvest sweet sorghum. Multiple extractor fan speed settings of these harvesters allow for separating the extraneous matter in the feedstock, which has been associated with increased milling throughput and better juice quality at the processing facility. This removal is not completely selective, and some stalk material is also lost. These losses can be higher for sweet sorghum than sugarcane due its lower weight. This paper presents an assessment of how the speed of the primary extractor fan of a sugarcane billet combine used for harvesting sweet sorghum affects the biomass yield, biomass losses, and quality at delivery for the production of ethanol from extracted juice and fiber. Three primary extractor fan speeds (0, 800, and 1100 rpm) were evaluated. Higher fan speeds decreased fresh biomass yields by up to 28.3 Mg ha^?1. Juice quality was not significantly different among treatments. Ethanol yield calculated from sweet sorghum harvested at 0 rpm was 6075 L ha^?1. This value decreased by about half for material harvested at 1100 rpm due to the differences in biomass yield.