建设高等教育的人文性与技术性

本文从传统高等教育理念与模式着手，指出着力建设高等教育的人文性与技术性的重要性，重点阐述在建设高等教育的人文性与技术性的同时，应当注意处理好通识教育与专业教育、人文教育与科技教育之间的关系，高等教育应以促进受教育综合素质的全面提高和科学文化知识发展为根本出发点，通过各学科间广泛、深入的交叉、融合，推动知识快速生长，全面提高人才素质，并在教学、科技机制和管理模式上进行创新，建立开放性、融合式的学术活动机制与模式，在课程设置和结构安排上充分考虑学科知识间的融合，以此培养受教育者基本的人文素养和科学精神．     

Relationship between heavy metal concentrations of herbaceous plants and soils at four Pb-Zn mining sites in Yunnan, China

This paper studied the relationship between heavy metal concentrations of herbaceous plants and soils at four Pb-Zn mining sites in Yunnan, China. 50 herbaceous plant samples of 9 plant species from 4 families and 50 soil samples were collected and then ana1yzed for the tota1 concentrations of Pb, Cd, and Zn. The results showed that the average concentrations of Pb, Cd, and Zn in soil samples were 3772.83, 168.81, and 5385.65 mg/kg, respectively. The average concentrations of Pb, Cd, and Zn were 395.68, 28.14, and 1664.20 mg/kg in the shoots, and 924.12, 57.25, and 1778.75 mg/kg in the roots, respectively. Heterospecific plants at the same site and conspecific plants at various sites had different average levels of Pb, Cd, and Zn, both in the shoots and the roots. Enrichment coefficients of Pb, Cd, and Zn were greater than 1 in 2, 3, and 9 herbaceous plant samples, respectively. Translocation factors of Pb, Cd, and Zn were greater than 1 in 10, 17, and 25 herbaceous plant samples, respectively. In all 50 samples, the concentrations of Pb, Cd, and Zn between the shoots and the roots, the shoots, and the soils, and the roots and the soils had significant positive relationships.     

高原深水湖泊程海氮磷形态分布特征及其与叶绿素a的相关性

湖泊水体氮、磷形态分布特征及其与藻类生长的关系是湖泊富营养化研究的重要方面。采用GPS定位,在程海湖设置了3个断面9个采样点,研究了氮、磷形态分布特征,并分析了各形态氮磷与叶绿素a的相关性。结果表明：总氮（TN）质量浓度为0.773 mg.L-1,总磷（TP）质量浓度为0.046 mg.L-1,叶绿素a质量浓度为0.024 mg.L-1。氮素的赋存形态特征是以溶解态总氮（DTN）占大部分,DTN中又以溶解态有机氮（DON）占绝大部分;磷素的存在特点是溶解态无机磷（DIP）含量比重较大。各形态氮、磷都有明显的季节性波动但区域性差异不明显,叶绿素a则有明显的季节节律和时空差异。叶绿素a很好地响应了总氮（TN）、总磷（TP）、溶解态总氮（DTN）、溶解态总磷（DTP）、颗粒态总氮（PTN）、颗粒态总磷（PTP）的变化。程海富营养化受氮和磷共同限制,控制富营养化必须同时削减氮和磷。     

邻苯二甲酸酯的环境污染和生态行为及毒理效应研究进展

邻苯二甲酸酯作为产品改性剂被广泛应用于食品包装、建筑板材、医疗器械等产品中,由于PAEs与塑料分子难以形成强力的共价结合,造成其不断泄露至脂溶性环境中,在基质接触和食物网传递作用下,PAEs被各种生物体蓄积并表现出一定的内分泌干扰效应。文章以PAEs的物化性质及其在大气、水体、土壤中的污染现状为研究基础,介绍了PAEs的生物体蓄积水平与代谢路径,并分别从水解、光解及生物降解3个角度展示了PAEs的环境降解过程与机理;此外,结合实验室报道及社会调查,深入探讨了PAEs的环境激素效应,"致癌、致畸、致突变"效应,酶与激素毒性;最后,基于当前PAEs在毒理分析、降解途径及环境暴露统计研究上的不足,指出需进一步进行复杂食物链毒性积累与放大研究,发展PAEs的生物治理与削减技术以及进行PAEs环境暴露水平调查,确定全面合理的环境标准限值。     

化学品环境风险管理需求与战略思考

在广泛调研收集化学品环境风险与污染危害等资料基础上,结合化学品环境管理的国内外形势与现状,针对我国目前存在的化学品环境管理体制不完善、环境风险防控工作滞后和技术支撑能力不足等问题,从国家战略层面分析了我国化学品全生命周期环境与健康风险管理需求,提出了我国化学品环境风险管理中长期发展目标及行动计划。行动计划涵盖了健全化学品法律法规和制度体系、系统开展化学品危害筛查和风险评估、推动有毒有害化学品的限制与淘汰、加强有毒有害化学品环境污染防治、提升化学品风险评估与管理能力和促进产业绿色发展等方面建议,对于我国加快构建完善的化学品风险管控制度和技术体系具有重要的参考和借鉴意义。     

Mainstreaming the social sciences in conservation

Despite broad recognition of the value of social sciences and increasingly vocal calls for better engagement with the human element of conservation, the conservation social sciences remain misunderstood and underutilized in practice. The conservation social sciences can provide unique and important contributions to society's understanding of the relationships between humans and nature and to improving conservation practice and outcomes. There are 4 barriers—ideological, institutional, knowledge, and capacity—to meaningful integration of the social sciences into conservation. We provide practical guidance on overcoming these barriers to mainstream the social sciences in conservation science, practice, and policy. Broadly, we recommend fostering knowledge on the scope and contributions of the social sciences to conservation, including social scientists from the inception of interdisciplinary research projects, incorporating social science research and insights during all stages of conservation planning and implementation, building social science capacity at all scales in conservation organizations and agencies, and promoting engagement with the social sciences in and through global conservation policy‐influencing organizations. Conservation social scientists, too, need to be willing to engage with natural science knowledge and to communicate insights and recommendations clearly. We urge the conservation community to move beyond superficial engagement with the conservation social sciences. A more inclusive and integrative conservation science—one that includes the natural and social sciences—will enable more ecologically effective and socially just conservation. Better collaboration among social scientists, natural scientists, practitioners, and policy makers will facilitate a renewed and more robust conservation. Mainstreaming the conservation social sciences will facilitate the uptake of the full range of insights and contributions from these fields into conservation policy and practice.     

Place‐based and data‐rich citizen science as a precursor for conservation action

Environmental education strategies have customarily placed substantial focus on enhancing ecological knowledge and literacy with the hope that, upon discovering relevant facts and concepts, participants will be better equipped to process and dissect environmental issues and, therefore, make more informed decisions. The assumption is that informed citizens will become active citizens––enthusiastically lobbying for, and participating in, conservation‐oriented action. We surveyed and interviewed and used performance data from 432 participants in the Coastal Observation and Seabird Survey Team (COASST), a scientifically rigorous citizen science program, to explore measurable change in and links between understanding and action. We found that participation in rigorous citizen science was associated with significant increases in participant knowledge and skills; a greater connection to place and, secondarily, to community; and an increasing awareness of the relative impact of anthropogenic activities on local ecosystems specifically through increasing scientific understanding of the ecosystem and factors affecting it. Our results suggest that a place‐based, data‐rich experience linked explicitly to local, regional, and global issues can lead to measurable change in individual and collective action, expressed in our case study principally through participation in citizen science and community action and communication of program results to personal acquaintances and elected officials. We propose the following tenets of conservation literacy based on emergent themes and the connections between them explicit in our data: place‐based learning creates personal meaning making; individual experience nested within collective (i.e., program‐wide) experience facilitates an understanding of the ecosystem process and function at local and regional scales; and science‐based meaning making creates informed concern (i.e., the ability to discern both natural and anthropogenic forcing), which allows individuals to develop a personalized prioritization schema and engage in conservation action.     

中国部分自然保护区生物物种数量与面积之间关系的研究

分析了中国部分自然保护区面积与生物物种(动物和植物)之间的关系;其次讨论了动物与植物以及动物与动物物种数量间的关系.结果表明,我国部分自然保护区的面积多数偏小,鸟类、哺乳类、种子植物、爬行类、昆虫和两栖类等与其面积的相关关系依次减弱;其植物种数与鸟类种数的作用影响最大、关系最密切;两栖类与各类动物之间以及鸟类与各类动物之间的物种数目呈显著的相关关系;两栖类与昆虫类为负作用影响;鸟类与两栖类和爬行类以及哺乳类与两栖类为最大的正作用影响.     

Risk Assessment and Management of Contamination of Eels (Anguilla Spp.) By Persistent Xenobiotic Organochlorine Compounds

Contaimination of anguillid eels by organochlorine pesticides and PCBs is reviewed using a risk assessment-management approach. Quantitative structure-activity relationships, biomonitoring of body residues and field and laboratory studies demonstrate hazards and risks of persistence; organic carbon binding, sediment transport and sinks; volatility, aerial transport and deposition; hydrophobicity/lipophilicity, bioaccumulation, bioconcentration and dietary biomangification. Risks of acute narcotic toxicity are generally lower than those of chornic effects. Cause-effect relationships and critical loadings are, however, unclear. Critical environmental and body residue levels to protect eels and animal and humans consumption must be formulated and interpreted with caution. Risks for eels at different life-stages and in different habitats are compared with respect to routes of uptake, elimination, bioaccumulation and biomagnification. It is concluded that organochlorine contamination has not been a major cause of recent declines in eel recruitment. the use of eels in biomonitoring and biomarker studies are recommended. Appropriate methodologies and uses in risk assessment and management are discussed.     

白榆/刺槐互作条件下土壤与植物养分季节变化

采用盆栽试验对白榆（Ulmus pumila）单作（BB）、刺槐（Robinia pseudocacia）单作（CC）及白榆/刺槐（U.pumila-R.pseudocacia.）互作（BC）（3种互作方式：根系不分隔（N）、根系用尼龙网（L）分隔和根系用塑料膜（P）分隔）及两种施肥方式（施肥处理（F）和不施肥处理（N））下土壤pH值、土壤养分及植株N、P养分吸收总量的季节变化进行了研究。结果表明,不同处理土壤pH值从5—9月呈增加趋势,互作中根系不分隔处理和根系用尼龙网分隔处理降低土壤的pH值效果较明显;各处理w（土壤有机质）在7月份较高,其中施肥处理〉不施肥处理,在3种互作方式中,w（土壤有机质）大小顺序为：根系不分隔〉根系用尼龙网分隔〉根系用塑料模分隔;随着季节的变化,不同处理土壤销态氮含量呈降低趋势。在白榆、刺槐整个生长期内,w（NH4＋-N）占绝大部分,w（NO3--N）极少,由此说明在白榆、刺槐整个生长期吸收的氮素形态主要是NH4＋-N。不同处理白榆、刺槐植株的N、P养分吸收总量从5月到9月呈现不断增加趋势,至9月达到最大。互作植物N、P养分吸收总量均高于其相应的单作,但不同互作方式对N、P养分吸收总量的变化不同。在3种互作方式中,改善土壤养分状况及植株N、P养分吸收总量的最优互作方式为根系不分隔施肥处理（BCNF）。     

土壤-植物系统中氮锌交互作用研究进展

对几十年来有关土壤-植物系统氮锌交互作用研究现状及未来趋势进行了综述。论述了氮锌交互作用与植物生长、氮锌及其它元素的吸收、转运、积累的相互关系,以及对微生物生长及豆科作物固氮的影响;讨论了氮锌交互作用的生理生化基础及细胞亚细胞学机理;指出了氮锌交互作用的若干薄弱环节;展望了氮锌交互作用未来的研究方向。     

扁刺栲在两种类型林分中的生长过程分析

通过对扁刺栲—华木荷林区针阔混交林、次生阔叶林的群落调查以及扁刺栲的树干解析．研究结果表明：(1)扁刺栲在针阔混交林与次生阔叶林中,胸径快速生长期分别在a8～12和a10～14之间,生长高峰值分别出现在a10和a12,最大值分别为1．07cm和0．85cm．(2)扁刺栲在针阔混交林与次生阔叶林中,树高快速生长期分别在a6～10和a10～14之间,生长高峰值分别出现在a8和a10,最大值分别为0．55m和0．56m．(3)在针阔混交林中,16a生扁刺栲单株材积达0．0134m^3,而在次生阔叶林中只有0．0103m^3．在分析不同林分中扁刺栲生长差异及其原因的基础上,建议对次生阔叶林经营应采用动态管理．     

基于毒性效应的非目标化学品鉴别技术进展

现代社会大量化学品的生产与广泛使用造成了地表水、地下水、沉积物、土壤等环境受到污染,并对人体健康和生态系统构成威胁。基于毒性效应的关键致毒物质鉴别技术(effect directed analysis,EDA)已经在水体、沉积物的致毒物筛选方面得到了一定的应用。但是由于污染物组成复杂、范围广、基质干扰高、同分异构体广泛存在、人工合成标样缺少等问题,非目标致毒化合物的鉴别成为了EDA的瓶颈技术。逐渐发展的色谱与质谱技术、数据库指标在化合物筛选识别中发挥了重要作用。本文综述了基于高分辨质谱,数据库搜索,色谱保留特征,模型构建来筛选识别化合物的方法,总结了近年来化合物筛选识别方法在环境新型污染物及药物筛选等方面的应用并分析了化合物筛选识别所存在的问题与应用前景。这些方法可以提高非目标化合物筛选的准确性和通量,减少样品复杂性和基质干扰带来的负面影响,从而有利于未知化合物的确定。     

Nanosensors and nanobiosensors in food and agriculture

The food and agriculture sector controls the economic growth of a developing country. The food industries have practices of growing crops, raising livestock and sea foods, food processing and packaging, regulating production and distribution with quality and safety. The process control and monitoring quality are crucial steps. Here we review nanosensors and nanobiosensors as alternative of classical quantification methods. Nanoscale dimensions of metal nanoparticles, metal nanoclusters, metal oxide nanoparticles, metal and carbon quantum dots, graphene, carbon nanotubes, and nanocomposites expand the sensitivity by signal amplification and integrate several novel transduction principles such as enhanced electrochemical, optical, Raman, enhanced catalytic activity, and superparamagnetic properties into the nanosensors. The electrochemical nanosensors, optical nanosensors, electronic nose and electronic tongue, nanobarcode technology, and wireless nanosensors have revolutionized the sensing in food and agriculture sectors with multiplex and real-time sensing capabilities. Despite previous success stories of the remunerative health sector, the approaches are transferred subsequently to food and agriculture sector; with potential application in detection of food contaminants such as preservatives, antibiotics, heavy metal ions, toxins, microbial load, and pathogens along with the rapid monitoring of temperature, traceability, humidity, gas, and aroma of the food stuff.     

林木根系衰老研究方法与机制

根系衰老研究方法主要有根窗直接观测和挖根取样间接观测。在整株水平上,树木同化碳的能力,碳在不同器官间的分配,尤其是在地上部分和地下部分间的分配比例,对根的萌生和衰老起着重要作用;地上部分的生长过程和健康状况也对根系的生长和寿命有很大影响;当树木的生长环境受到某种胁迫时,树木的抵抗力下降,容易招致病原菌的危害,造成根系衰老和死亡。在生态系统水平上,干旱洪涝、干扰等胁迫和树木一土壤间的养分循环都会引起树木生长环境的改变,对根系的衰老过程发生作用;季节变化使树木的地上部分和地下部分的生理活动处于不同的旺盛期,从而使碳的分配方式有些改变,影响到根系的生长;土壤中养分的存在形式,某些离子的浓度也直接影响到根的寿命;病原菌对根系的危害与土壤中养分含量变化有关。所以,衰老过程受环境条件的影响,伴随着代谢,RNA和蛋白质合成速率的下降和(或)膜与细胞器结构的改变。     

Impact of domestic sewage on fresh water body

In the present study various (physico-chemical) factors were assessed over a period of two years (from February 2002 to January 2004) to note the chemistry and quality of tank water in Bhalki town of Bidar. Physico-chemical factors like pH, dissolved oxygen, magnesium, chlorine, nitrite, sulphates and chemical oxygen demand were found with maximum concentration during summer season. Similarly, during monsoon season free carbon dioxide, alkalinity hardness, calcium, phosphate, silicon, total solids and biological oxygen demand; and in winter season organic matter were recorded. The concentrations viz., pH, hardness and nitrite were more compared to the potable water standard of WHO. The correlation matrix and dendrogram of physico-chemical factors have been computed and analysed. The positive co-relation coefficient observed between pH and magnesium, dissolved oxygen and hardness, free carbondioxide and calcium, alkalinity and nitrite, alkalinityand phosphate, alkalinity and biological oxygen demand, hardness and calcium, hardness and magnesium, magnesium and chlorine, nitrate and phosphate, nitrite and biological oxygen demand, phosphate and organic matter; and silicon and chemical oxygen demand. The dendrogram confirms chlorine, pH, hardness, silicon, total solids and sulphates are the key factors of the change in the chemistry of water body     

A GIS-based coastal monitoring and surveillance observatory on tropical islands exposed to climate change and extreme events: the example of Mayotte Island,Indian Ocean

The global change currently observed is deemed to generate accelerated coastal erosion and an increase in frequency and intensity of extreme weather events. Populated tropical island coasts are particularly vulnerable. Awareness of this vulnerability has prompted recourse to the construction of operational observatories on the coastal dynamics of several French tropical islands, including Mayotte. The aims of this initiative are to characterise the coastal morphology of tropical islands and to monitor their rhythms and mechanisms of evolution, adaptation and resilience in the face of extreme climate and wave events (cyclones, storms, surges, strong swells…). Based on this, appropriate defence and/or adaptation strategies can be developed and implemented. Mayotte Island is a fine example of the implementation and utility of such an observatory. The island, in the southwest Indian Ocean, is characterised by a highly diversified coral reef-lagoon complex comprising pocket beaches and mangroves subject to increasing pressure from strong island demographic growth. The operational observatory set up on the island incorporates a Geographical Information System (GIS) based on a network sourced by various field measurements and observations conducted on the coastal forms on the basis of a predefined protocol and methodology. Field experiments include hydrodynamic measurements, topographic surveys, and observations, and these are coupled with the analysis of aerial photographs and regional meteorological data in order to gain a better understanding of the coastal morphology and of the evolution of the reef-lagoon complex. The results fed into the observatory and analysed through the GIS provide interactive maps of the coastal landforms and their evolution and dynamics over various timescales. Within a local framework of strong socio-economic and demographic pressures, and a more global context of environmental change, this observatory should lead to a better understanding and prediction of the morphodynamics of the coast of Mayotte, while providing data to the public at large, to researchers, and to stakeholders involved in decision-making in the face of the major and rapid environmental and socio-economic changes liable to affect the fragile reef-mangrove systems and pocket beaches.     

万木林中亚热带常绿阔叶林林隙主要树种的高度生态位

对万木林自然保护区中亚热带常绿阔叶林林隙内外主要树种的生态位宽度和生态位重叠进行了研究。结果表明：桂北木姜子和浙江桂在林隙内外部都占有较高的生态位宽度；生物学特性和生态学特性接近的树种高度生态位重叠较大，反之则较小；在林隙内，出矾和薄叶山矾的高度生态位重叠最大，而桂北木姜子和黄瑞木、尖叶水丝梨，浙江桂和尖叶水丝梨的高度生态位重叠较小；在非林隙内，山矾和黄瑞木的高度生态位重叠最大，桂北木姜子和尖叶水丝梨、黄瑞木的高度生态位重叠较小，表3参13     

Interacting Effects of Phenotypic Plasticity and Evolution on Population Persistence in a Changing Climate

Abstract: Climate change affects individual organisms by altering development, physiology, behavior, and fitness, and populations by altering genetic and phenotypic composition, vital rates, and dynamics. We sought to clarify how selection, phenotypic plasticity, and demography are linked in the context of climate change. On the basis of theory and results of recent empirical studies of plants and animals, we believe the ecological and evolutionary issues relevant to population persistence as climate changes are the rate, type, magnitude, and spatial pattern of climate‐induced abiotic and biotic change; generation time and life history of the organism; extent and type of phenotypic plasticity; amount and distribution of adaptive genetic variation across space and time; dispersal potential; and size and connectivity of subpopulations. An understanding of limits to plasticity and evolutionary potential across traits, populations, and species and feedbacks between adaptive and demographic responses is lacking. Integrated knowledge of coupled ecological and evolutionary mechanisms will increase understanding of the resilience and probabilities of persistence of populations and species.