生物能源产业生态系统的构建及其特征研究

生物能源产业在各国政府的大力扶持下得到迅速发展,但与此同时,伴随发展生物能源产业而来的经济、社会和环境等问题也不断浮出水面。本文对“生物能源产业生态系统”的系统框架进行构建,阐述“生物能源产业生态系统”的基本内涵,解析系统的组织形式及其边界,分析系统的构成,并进一步总结了系统所具有的主要特征,探讨系统所具有的各项功能。     

全球生物产业发展现状及政策启示

生物经济时代正在引发人类新一波技术和产业革命,并已成为了全球主要发达国家和新兴经济体抢占的制高点。文中从生物医药产业、转基因作物种植产业、生物能源产业以及生物基化学品产业4个角度分析了全球生物产业发展的时空特征,概括总结了全球生物产业发展的主要特点,并进一步针对我国生物产业发展中存在的瓶颈问题提出政策建议,对我国生物经济的未来发展具有指导意义。     

东北老工业区矿业城市产业生态系统演化与重构——以辽宁大石桥为例

基于演化经济地理学与产业生态学理论,以辽宁省大石桥市为例,阐明了镁产业的演化过程与特征,建立了镁产业生态系统的结构与功能模型。结果表明:大石桥市镁产业系统演化过程分为起步期、快速期、成熟期、转型期和优化期5个阶段,各个阶段受不同因素的影响呈现出不同的演化特征;基于产业生态学视角的大石桥市镁产业生态系统结构模型包括原生产业子系统、资源环境子系统、外生产业子系统、共生产业子系统和产业创新子系统5个子系统,各子系统之间相互影响与作用,通过系统耦合和物质能量的多级利用形成复杂网络结构,与一般生态系统相似,两者具有同构性与差异性;通过优化调控镁产业生态系统的演化路径与过程,才能实现大石桥市镁产业的生态、经济和社会效益的最大化,以促进生态文明建设。     

蜡状芽孢杆菌与金矿化的协同演化作用机制

提出了以蜡状芽孢杆菌与金矿化作用及有机质、流体矿化系统协同演化作用机制,认为生物矿化作用是随着其他地质作用的发展而不断发展和演化的过程.阐述生物-蜡状芽孢杆菌、有机质、流体矿化及生物矿化作用演化机制,从而把构造演化与生物矿化作用结合起来研究.主要介绍有机流体的主要来源,着重探讨生物矿化作用子系统,其中包括活生物体的作用,有机质的作用及有机流体的相互作用机制.     

欧盟生物经济政策过程与特点及相关讨论

在对欧盟生物经济概念演变进行梳理的基础上,从欧盟与成员国两个层面对欧盟生物经济的政策过程进行了系统考察,分析并归纳出欧盟生物经济政策的特点,包括:与产业绿色转型结合,多方位促进人类经济社会的可持续发展;与农业多功能性结合,促进地区农村和农业的发展;重视生物经济发展的政策与技术双平台系统建设.在相关讨论中,进一步阐明生物经济发展的动力机制、农业在生物经济中的基础作用、生物经济的平台价值及其时代意义.     

生物复杂性研究动态

生物复杂性（biocomplexity或biological complexity）是近年来由Rita Colwell等人积极倡导的一个新的学科领域,旨在更好地了解生命系统及其环境组分间的相互作用以及系统复杂性的动态特征与演化机制,目前,生物复杂性的定义与内涵尚不明确,意见纷呈,而有关研究在美国国家科学基金会（NSF）的支持下已迅速开展起来,并即将成为国际合作研究的热点之一。本文简要介绍了有关生物复杂性的不同观点、生物复杂性与生物多样性研究之间的关系,并以若干生态系统和基因组为例,说明了现阶段生物复杂性研究的主要特点。     

生物能源专刊序言

发展生物能源是减轻经济和社会发展对不可再生矿物质能源依赖程度,实现CO2减排的有效措施。本期专刊包括综述报告和研究论文两部分,涉及燃料乙醇、生物柴油、生物燃气、生物氢能、微生物燃料电池和微生物电解池等主要生物能源产品和系统,比较全面地分析其基础研究、关键技术开发和产业发展现状,讨论了存在的问题和挑战,展望了发展的前景。     

细胞核受体LXRβ的体外酶标测活方法的建立与应用

泰国是农产品生产和出口大国,政府十分重视生物产业的发展,通过建立高层管理机构、出台优惠政策、制定发展规划,在生物农业、生物医药和生物能源等产业方面取得了较好的进展。未来泰国将更加重视政府指导作用,进一步完善法规建设,加大人才引进力度,实施产业优惠政策,加强生物资源和知识产权保护,重点发展生物农业、生物医药和生物能源产业。     

生物多样性与生态系统服务评估指标与方法

评估、模拟和预测全球生物多样性和生态系统服务的状态、趋势及其对人类福祉的影响,是当前生物多样性和生态系统服务研究领域的重要任务。指标和数据、模型和情景是推动生物多样性与生态系统服务评估研究理论建设和方法集成的重要工具。但是,目前对生物多样性和生态系统服务评估的指标体系和技术方法的综合对比研究相对缺乏。因而,系统评述了生物多样性和生态系统服务评估的概念框架、评估指标以及各类评估模型和方法的最新进展。生物多样性—生态系统功能—生态系统服务—人类福祉的级联框架是极具逻辑性的生物多样性和生态系统服务评估框架。现有的评估指标体系和模型方法还存在很多的问题和挑战,难以充分揭示生态系统服务的形成和影响机制、服务之间的联系和作用机理,有效地指导生态系统服务管理和决策制定。然而,这些评估指标和方法可为构建生物多样性与生态系统服务综合集成模型研究的框架提供重要的切入点。基于此,提出了生物多样性与生态系统服务综合集成模型研究的核心内容:i)目的:基于自然—社会综合特征的情景分析确定所解决的科学问题,输出生态系统服务管理和决策制定方案;ii)内容:尺度、生态系统服务类型、生物多样性的层次结构、组分间相互关系、驱动要素、多源数据的综合分析;iii)方法:对现有的各类模型和模型组合进行比较和不确定性分析,建立符合区域实际需求的生物多样性与生态系统服务综合制图模型库。在此基础上,建议我国应尽快发展适合中国区域特点的标准化指标体系和综合评估模型系统,定期对生物多样性和生态系统服务进行综合评估,掌握生物多样性和生态系统服务的变化趋势,提升我国在生物多样性和生态系统服务研究领域的国际地位和话语权。     

泰国生物产业发展现状和趋势分析

泰国是农产品生产和出口大国,政府十分重视生物产业的发展,通过建立高层管理机构、出台优惠政策、制定发展规划,在生物农业、生物医药和生物能源等产业方面取得了较好的进展。未来泰国将更加重视政府指导作用,进一步完善法规建设,加大人才引进力度,实施产业优惠政策,加强生物资源和知识产权保护,重点发展生物农业、生物医药和生物能源产业。     

生物质能源四十年

为应对1973年全球石油危机而发展起来的现代生物质能源已渐趋成熟,在对化石能源的替代中发挥着越来越突出的作用。回顾了生物质能源40年的发展历程,对液体生物燃料、生物天然气和固体生物燃料与发电作了专门叙述。就生物质能源与中国,以及中国发展生物质能源方略发表了自己的见解。     

Resolving regulatory uncertainty: legislative language for potentially invasive bioenergy feedstocks

Concerns about invasions by novel bioenergy feedstocks are valid, given the parallels between the traits of energy crops and those of many common invasive plants. As the bioenergy industry is poised to introduce nonnative bioenergy crops to large acreages in the United States under state and federal mandates, it is important to consider these concerns – and not simply in an academic sense. Instead, the prevention of invasions should be codified in statutes and regulations pertaining to bioenergy production on both the state and federal level. Unfortunately, this is not occurring regularly or consistently at this time. The few existing regulations that do consider invasiveness in bioenergy systems suffer from vague terminology that could have major economic, environmental, and legal consequences. Here, we discuss existing regulatory challenges and provide solutions to address invasion potential of bioenergy crops. We provide model definitions and provisions to be included in revised or new state and federal regulations, including an invasion risk assessment process, a permit and bond system for high‐risk crops, and a risk mitigation provision for all novel crops. Our proposal provides a consistent and transparent system that will allow the industry to move forward with minimal risk of invasion by novel feedstocks.     

A Framework for Modeling Local Production Systems with Techno‐Ecological Interactions

At the local scale, interconnected production, consumption, waste management, and other man‐made technological components interact with local ecosystem components to form a local production system. The purpose of this work is to develop a framework for the conceptual characterization and mathematical modeling of a local production system to support the assessment of process and component options that potentially create symbiosis between industry and ecosystem. This framework has been applied to a case study to assess options for the establishment of a local energy production system that involves a heathland ecosystem, bioenergy production, and wastewater treatment. We found that the framework is useful to analyze the two‐way interactions between these components in order to obtain insight into the behavior and performance of the bioenergy production system. In particular, the framework enables exploring the levels of the ecosystem states that allow continuous provisioning of resources in order to establish a sustainable techno‐ecological system.     

人工合成多样性突变文库研究进展*

突变文库的构建是定向进化研究过程中一个关键步骤,主要利用天然存在的系统或者人工合成的分子技术来产生多样性核酸分子文库,为制备和筛选具有一定特性的蛋白酶、多肽、人工抗体等提供庞大的遗传基因库,也可用于合成生物学中相关基因元件的研究与筛选,为目标生物制品的高效工业化生产提供动力。随着对突变文库构建技术研究的日益深入,各种文库构建策略相继被开发出来,并在生物能源、生物化工、生物医药、生物试剂和食品工业等方面得到了广泛的应用。然而,定向进化中的文库构建策略多有不同,各种突变文库构建技术的核心方法也在不断创新。主要介绍近年来实验室中人工合成多样性文库的前沿技术,并对文库构建技术在自动化和智能化方向的发展进行了展望。     

Simulation of sorghum introduction and its impacts on land use change—A case study on Lubelski region of Eastern Poland

Echoing the bioenergy development initiative in Poland, high expectations are pinned on sweet sorghum usage for biogas plants. In contrast to its high profile in the industry, the research on the introduction and production of sorghum in Poland is lagging behind. To solve this issue, in this paper we have developed a spatial‐agent dynamic model of the agricultural land use and applied the model to eastern Poland. The model suggests that the economic and technical potential of sweet sorghum in this region is 6 and 7.5 million tonnes, respectively. Its introduction process largely follows the pattern of a typical industry life cycle, with the startup at the price of 8.20 €/tonne. Along with the market penetration of sorghum, a dramatic land use change of conventional crops can be foreseen, even with a land use competition among those crops. We believe that the exploitation of unutilized agricultural land resources and improving the yield of sorghum are helpful to alleviate this land use conflict. However, a higher food demand in the future and climate change may constrain the role of sorghum. This first comprehensive and high‐resolution study to its kind in Poland can help assess the country's bioenergy policies and contribute to the development of the biogas industry.     

Consensus,uncertainties and challenges for perennial bioenergy crops and land use

Perennial bioenergy crops have significant potential to reduce greenhouse gas (GHG) emissions and contribute to climate change mitigation by substituting for fossil fuels; yet delivering significant GHG savings will require substantial land‐use change, globally. Over the last decade, research has delivered improved understanding of the environmental benefits and risks of this transition to perennial bioenergy crops, addressing concerns that the impacts of land conversion to perennial bioenergy crops could result in increased rather than decreased GHG emissions. For policymakers to assess the most cost‐effective and sustainable options for deployment and climate change mitigation, synthesis of these studies is needed to support evidence‐based decision making. In 2015, a workshop was convened with researchers, policymakers and industry/business representatives from the UK, EU and internationally. Outcomes from global research on bioenergy land‐use change were compared to identify areas of consensus, key uncertainties, and research priorities. Here, we discuss the strength of evidence for and against six consensus statements summarising the effects of land‐use change to perennial bioenergy crops on the cycling of carbon, nitrogen and water, in the context of the whole life‐cycle of bioenergy production. Our analysis suggests that the direct impacts of dedicated perennial bioenergy crops on soil carbon and nitrous oxide are increasingly well understood and are often consistent with significant life cycle GHG mitigation from bioenergy relative to conventional energy sources. We conclude that the GHG balance of perennial bioenergy crop cultivation will often be favourable, with maximum GHG savings achieved where crops are grown on soils with low carbon stocks and conservative nutrient application, accruing additional environmental benefits such as improved water quality. The analysis reported here demonstrates there is a mature and increasingly comprehensive evidence base on the environmental benefits and risks of bioenergy cultivation which can support the development of a sustainable bioenergy industry.     

Coenzyme Q10 and its putative role in the ageing process

Summary A phenomenon associated with the aging process is a general age-dependent decline in cellular bioenergetic capacity that varies from tissue to tissue and even from cell to cell within the same tissue. This variation eventually forms a tissue bioenergy mosaic. Recent evidence by our group suggests that the accumulation of mitochondrial DNA mutations, in conjunction with a concurrent decrease in full-length mtDNA in tissues such as skeletal and cardiac muscle, strongly correlates with decreased mitochondrial function and accounts for the bioenergy mosaic. Evidence is also presented suggesting that amelioration with coenzyme Q₁₀ may restore some of the age-associated decline in bioenergy function, in effect providing the potential for a “redox therapy”. Coenzyme Q is a naturally occurring material that is present in the membranes of all animal cells. Its primary function is to act as an electron carrier in the mitochondrial electron transport chain enabling the energy from substrates such as fats and sugars (in the form of reducing equivalents) to be ultimately captured in the form of ATP, which in turn may be utilised as a source of cellular bioenergy. Coenzyme Q₁₀ has no known toxic effects and has been used in a limited number of animal studies and human clinical trials; however, the mechanism of action of coenzyme Q₁₀ remains unclear. A series of experiments by this group aimed at determining the efficacy of coenzyme Q₁₀ treatment on ameliorating the bioenergy capacity at the organ and cellular level will also be reviewed.     

Modeling biogeochemical impacts of bioenergy buffers with perennial grasses for a row‐crop field in Illinois

Current research on the environmental sustainability of bioenergy has largely focused on the potential of bioenergy crops to sequester carbon and mitigate greenhouse gas emissions and possible impacts on water quality and quantity. A key assumption in these studies is that bioenergy crops will be grown in a manner similar to current agricultural crops such as corn and hence would affect the environment similarly. In this study, we investigate an alternative cropping system where bioenergy crops are grown in buffer strips adjacent to current agricultural crops such that nutrients present in runoff and leachate from the traditional row‐crops are reused by the bioenergy crops (switchgrass, miscanthus and native prairie grasses) in the buffer strips, thus providing environmental services and meeting economic needs of farmers. The process‐based biogeochemical model Denitrification‐Decomposition (DNDC) was used to simulate crop yield, nitrous oxide production and nitrate concentrations in leachate for a typical agricultural field in Illinois. Model parameters have been developed for the first time for miscanthus and switchgrass in DNDC. Results from model simulations indicated that growing bioenergy crops in buffer strips mitigated nutrient runoff, reduced nitrate concentrations in leachate by 60–70% and resulted in a reduction of 50–90% in nitrous oxide emissions compared with traditional cropping systems. While all the bioenergy crop buffers had significant positive environmental benefits, switchgrass performed the best with respect to minimizing nutrient runoff and nitrous oxide emissions, while miscanthus had the highest yield. Overall, our model results indicated that the bioenergy crops grown in these buffer strips achieved yields that are comparable to those obtained for traditional agricultural systems while simultaneously providing environmental services and could be used to design sustainable agricultural landscapes.