应用淡水发光菌研究二元重金属混合物的联合毒性

应用新型淡水发光菌一青海弧菌Q67(Vibrio qinghaiensis sp.nov-Q67)发光值的测定。对铜锌、铜汞、铜镉、铜镍等4种重金属混合物的联合毒性进行了评价。结果表明。铜锌混合物对Q67的联合毒性等于两者的毒性之和。作用方式表现为加和作用：铜汞、铜镉、铜镍3种混合物对Q67的联合毒性则表现为拮抗作用。     

菌渣中青霉素对蔬菜种子萌发的生态毒性效应

为推动青霉素菌渣环境安全利用技术规范的建立,以油麦菜、油菜、白菜和生菜4种蔬菜为研究对象,以种子发芽率、幼苗鲜质量、芽长和根长为毒性敏感指标,研究了不同处理组〔ρ（PG）分别为10、100、200、400、800、1 200、1 600、2 000、2 400、3 200和4 000 mg/L〕和对照组的青霉素（Penicillin,简称“PG”）对4种蔬菜种子萌发的生态毒性响应关系.结果表明:①与对照组相比,各处理组4种蔬菜种子发芽率之间均无显著性差异（P>0.05）;当ρ（PG）≥1 200 mg/L时,油菜种子的芽长增长率在60%左右,且与对照组相比具有显著差异（P < 0.05）;在ρ（PG）为200 mg/L时,生菜鲜质量达到最大值（0.29 g）,较对照组增加了10.37%,白菜鲜质量在ρ（PG）为400 mg/L时达到最大值,较对照组增加了5.76%,而在试验浓度范围内,各处理组4种蔬菜种子的根长均随着ρ（PG）的增大表现出逐渐增强的抑制作用.②PG对4种蔬菜的根长抑制率剂量-效应关系均符合Allometric模型,即y=axb〔其中,x为ρ（PG）,y为根长抑制率,a和b均为常数〕.③油麦菜、油菜、白菜和生菜4种蔬菜对PG的根长半抑制浓度（IC₅₀）分别为1 675.11、995.67、3 736.40和2 510.24 mg/L,4种蔬菜根长抑制率对PG的敏感程度表现为油菜>油麦菜>生菜>白菜（P < 0.05）.研究显示,与油麦菜、白菜和生菜相比,油菜更适合作为PG的生态毒性指示植物.      

Modeling freshwater fish distributions using multiscale landscape data: A case study of six narrow range endemics

Species distribution models (SDMs) have become integral tools in scientific research and conservation planning. Despite progress in the assessment of various statistical models for use in SDMs, little has been done in way of evaluating appropriate ecological models. In this paper, we evaluate the multiscale filter framework as a suitable theoretical model for predicting freshwater fish distributions in the upper Green River system (Ohio River drainage), USA. The spatial distributions of six fishes with contrasting biogeographies were modeled using boosted regression trees and multiscale landscape data. Species biogeography did not appear to affect predictive performance and all models performed well statistically with receiver operating characteristic area under the curve (AUC) ranging from 0.87 to 0.98. Predictive maps show accurate estimations of ranges for five of six species based on historical collections. The relative influence of each type of environmental feature and spatial scale varied markedly with between species. A hierarchical effect was detected for narrowly distributed species. These species were highly influenced by soil composition at larger spatial scales and land use/land cover (LULC) patterns at more proximal scales. Conversely, LULC pattern was the most influential feature for widely distributed at all spatial scales. Using multiscale data capable of capturing hierarchical landscape influences allowed production of accurate predictive models and provided further insight into factors controlling freshwater fish distributions.     

THE EFFECTS OF SELECTED HERBICIDES ON BACTERIAL POPULATIONS IN AN AQUATIC ENVIRONMENT1

ABSTRACT: Heterotrophic, mesophilic bacteria derived from, and maintained in, a freshwater environment were subjected to three classes of herbicides. Diuron, 2,4,5-Trichlorophenoxyacetic acid, and paraquat, used as water soluble solutions, were added (0.7 and 1.4 mgA) to a laboratory culture of bacteria. Total numbers of the bacteria, representing several genera, were monitored for alteration of numbers and types. Temperature, pH, and dissolved oxygen were monitored and the culture medium was tested for residual herbicide. Alterations observed in populations were considered to result from herbicide additions. Each herbicide tested was found to affect bacterial populations differently. Reasons for observed differences are discussed. In this aquatic environment the herbicides remained qualitatively measurable for periods up to three weeks.     

Integrated rice-fish culture: Coupled production saves resources

Rice is a key component in global food security, as it is the main ingredient in the daily diets of around 3 billion people, especially in Asia. Like all agricultural production, rice cultivation depends on scarce natural resources. This article briefly outlines the utilization of land and water in rice production, and suggests an approach for optimizing use efficiency, namely through the combination of rice and fish culture. The authors argue that the utilization of land and fresh water is optimized through integrated and complementary production of rice and fish — two basic foods items in daily local diets. The article reviews currently available scientific literature on integrated rice‐fish systems. Rice‐fish culture systems are briefly characterized, and respective yield potential and interactions between rice and fish are discussed. Results of socio‐economic surveys regarding the adoption of integrated rice‐fish culture are summarized. The article also reviews literature on the impact of fish culture on rice field ecology as outlined in studies on weed infestation, insect populations, and greenhouse gas emissions. The article concludes that rice‐fish culture can be an option to help rice producing countries keep pace with soaring domestic demand for food, especially fish. Integrated rice and fish culture optimizes the benefits of scarce land and water resources through complementary use, and exploits the synergies between fish and plant.     

Securing water for people, crops, and ecosystems: New mindset and new priorities

A fundamentally new approach to water and human development will be needed during this new century if we are to secure sufficient freshwater to meet the needs of some 9 billion people while at the same time protecting the critical ecosystem services upon which the human economy depends. Signs of unsustainable water use — including falling water tables, shrinking lakes, and the drying up of rivers and streams — are widespread and spreading. In many regions, greater modification and appropriation of freshwater systems for human purposes will yield greater costs than benefits and create the risk of irreversible losses of species and ecosystem services. A new mindset is needed to guide water use and management in this new century, one that views the human water economy as a subset of nature's water economy. Living within nature's limits will require that societies satisfy the basic needs of people and ecosystems before non-essential water demands are met. It will require on the order of a doubling of water productivity. And it will require stronger institutions to encourage equitable sharing of water to alleviate tensions within and between countries.     

环境中金属生物有效性的预测模型——生物配体模型研究进展

生物配体模型(BLM)是一种用于预测环境中金属生物毒性的机理性模型.模型理论起源于自由离子活度模型(FIAM)和鱼鳃络合模型(GSIM),考虑了自由金属离子的活度以及自然环境存在的其他离子(如Ca2+、Na+、Mg2+、H+)、非生物配体(如可溶性有机质、氯化物、碳酸盐、硫酸盐)和生物配体的竞争.目前,在水生生态系统中,基于鱼鳃络合模型的框架基础,通过生物化学实验手段并结合数学方法,建立了预测铜、锌、银、镍对Rainbowtrout(虹鳟鱼)、Fatheadminnow(黑头呆鱼)和Daphniamagna(水蚤)的急、慢性毒性的BLM版本,并积极探索其在陆地生态系统中的应用.虽然生物配体模型在实验室模拟条件下取得了较为满意的结果,但其中包含着一些假设,在实际应用中还具有一定的局限性,尤其是陆地生态系统生物配体模型的发展还需要做许多研究工作.本文主要论述了生物配体模型的理论基础、实现手段和应用情况,讨论了生物配体模型的优势和局限性并对其未来研究方向进行了展望.     

应用体内和体外方法评价原油水溶性组分和原油污染的地表水对淡水生物的内分泌干扰潜力

目前关于原油对淡水水生脊椎动物内分泌信号的潜在影响的认知有限。本文以非洲爪蟾(爪蟾属,X. laevis)蝌蚪和莫桑比克罗非鱼幼鱼(口孵非鲫属,O. mossambicus)为研究对象,选择风化原油和未风化提炼后的原油这2种原油的水溶性组分(WAFs)进行暴露实验,选择出可作为内分泌信号改变的生物标志物的基因,对其表达进行了研究。此外,将X. laevis蝌蚪暴露于靠近地下石油库的地表水中,对上述基因表达做了定量分析。利用重组酵母对原油、原油水溶性组分和地表水的(抗)雌激素和(抗)雄激素性进行了评价。在X. laevis对2种原油WAFs的响应中,甲状腺激素受体β表达均显著下调,而另一种与甲状腺相关的基因,2型脱碘酶,在O. mossambicus暴露于高浓度的原油WAF时被上调。此外,这2种WAFs都改变了与脂肪生成相关的过氧化物酶体增殖物激活受体γ在X. laevis中的表达。原油和WAFs在体外表现出抗雌激素和抗雄性激素的活性。然而,O. mossambicus雄激素受体2作为唯一一个代表生殖系统的基因,受到WAF暴露的影响显著。在地表水样品中发现了雌激素、抗雌激素和抗雄激素的作用;但是,在暴露于地表水的X. laevis中没有观察到任何基因表达的明显变化。在所用的2种模式生物以及2种原油中,响应各不相同。尽管如此,这些数据提供了证据证明原油污染可能会因内分泌信号转变对淡水鱼和两栖动物的健康造成不利影响。
精选自Truter, J. C., van Wyk, J. H., Oberholster, P. J., Botha, A.-M. and Mokwena, L. M. (2017), An evaluation of the endocrine disruptive potential of crude oil water accommodated fractions and crude oil contaminated surface water to freshwater organisms using in vitroand in vivo approaches. Environmental Toxicology and Chemistry, 36: 1330–1342. doi: 10.1002/etc.3665
详情请见http://onlinelibrary.wiley.com/doi/10.1002/etc.3665/full
     

滏阳河河流水体中重金属污染特征及其对青海弧菌和斜生栅藻的毒性效应

为调查滏阳河水系的重金属污染状况,研究河流重金属污染对水生生物的毒性,根据河流结构、水文条件、排污口分布并考虑空间分布的均匀性,选取66个采样位点,采集河水及对应的表层沉积物样品,分析了样品中的重金属含量。用斜生栅藻和青海弧菌Q67作为模式生物,根据滏阳河水重金属污染较严重的邯郸近郊2号采样点采集水样的重金属含量配制系列重金属浓度的模拟河水进行重金属污染河水的生态毒性测试。结果表明,在全部66个采样点中,29个采样点河水重金属含量超过国家地表水III类水体重金属含量标准,主要污染元素是Hg、Pb、Cr、Zn。几乎所有采样点河水Mn和Fe含量都大大高于国家集中式生活饮用水地表水源地补充项目规定的标准限值。根据2号采样点河水样品中的重金属含量配成的模拟河水对青海弧菌Q67的EC₅₀值为6.65%,为毒性极强的污染物。模拟河水样品对斜生栅藻的抑制作用较小,在实验的最高浓度下(1000倍河水重金属含量)暴露4 d尚未引起半数藻细胞死亡。随河水重金属浓度上升,斜生栅藻超氧化物歧化酶(SOD)活性总体上呈现先升高后降低的趋势,丙二醛(MDA)含量变化则与此相反,反映河水重金属污染可引起藻细胞的氧化损伤。叶绿素a和b含量则随暴露浓度的提高逐渐降低。在重金属浓度达到2号采样点河水的10%时,斜生栅藻叶绿素a含量已有显著降低,MDA含量显著升高,海河流域重金属污染对生态系统的影响应予以重视。河水发光菌Q67的生长抑制率、斜生栅藻的叶绿素a和MDA含量可以作为评估河流重金属污染生态危害的指标。