生物炭基调理剂对水稻镉吸收的影响

以木质生物炭为基础,与沸石、石灰石、磷酸钙等混配制生物炭基调理剂,并用于镉污染稻田。通过田间水稻栽培实验,探讨该生物炭基调理剂的合适配比及应用效果。按照DTPA浸提法分析土壤中有效态镉含量,按HNO3-HCLO4消化法测定水稻植株中镉的含量。结果表明：随木炭用量增加,土壤中有效态镉减少,施用0.48 kg·m-2木炭时降幅高达23.87%。施用不同配比炭基调理剂实验中,木炭:石灰石:沸石:磷酸钙=4:1:1:1时对土壤中有效态镉的钝化效果最好,达到36.42%。水稻根、茎累积镉量高于叶、壳、糙米,并且稻米中镉含量与栽培后期50 d土壤中有效态镉含量高度相关,相关系数为0.921 6（P<0.05）。     

山坡农地水土流失防治技术若干进展与成效分析

本文分析了山坡农地水土流失的现状 ,着重介绍了 7种防治农田水土流失的技术措施 ,并详细分析了其研究进展与应用成效。     

我国农村能源政策以及收入水平对农户生活能源需求的影响研究

针对传统能源使用过程中产生的环境、气候问题,由中央政府制定并实施的农村能源政策倡导农户使用多种清洁能源及技术。同时,商品能源逐步成为当下农户生活能源的重要组成部分。“并举式”的能源政策是否造成甚至扩大不同能源、技术的需求差异,这一结果是否符合政策的初衷和目标?基于此,论文研究并分析2005—2014年农村能源政策以及收入水平对农户生活能源需求的影响。结果表明：政策的实施加剧了存在替代关系的能源、技术需求间的此消彼长;政策的溢出效应促进了部分商品能源需求;收入的提高对部分能源需求产生了正向作用。建议制定兼顾清洁能源以及商品能源的农村能源发展战略和政策,实现政策的精准发力,同时加强能源基础设施的建设和管理。     

表面展示技术在污染环境生物修复中的应用

革兰氏阴性细菌、革兰氏阳性细菌和酵母中已建立多个表面展示短肽和蛋白质的系统.在微生物细胞表面展示外源蛋白对污染环境的生物修复有着重要的意义.展示金属结合蛋白(肽)的微生物可用于污染土壤和工业废水的净化,展示有机磷水解酶的微生物将用于有机磷污染物的脱毒.微生物表面展示技术将成为污染环境生物修复的有效策略.这一技术的研究还是一个新领域,要使其得到应用还有许多问题需要解决. 参38     

分子印迹技术在水环境抗生素富集中的应用进展

近年来,由于抗生素的大量使用,使得环境中抗生素的残留现象变得十分普遍.这些残留的抗生素通过多种途径进入到水环境中,会对人类健康以及水生生态系统造成危害.分子印迹技术(MIT)因其能选择性识别、有效富集和去除目标分析物,被广泛应用于水环境中抗生素的富集及检测.本文介绍了分子印迹技术的原理以及印迹聚合物的制备方法,并且总结...     

Advances in airborne microorganisms detection using biosensors: A critical review

• Airborne microorganism detection methods are summarized. • Biosensors play an important role in detecting airborne microorganisms. • The principle of biosensor detection of airborne microorganisms is introduced. • The application and progress of biosensor in recent years is summarized. • The future perspectives of biosensor are identified. Humanity has been facing the threat of a variety of infectious diseases. Airborne microorganisms can cause airborne infectious diseases, which spread rapidly and extensively, causing huge losses to human society on a global scale. In recent years, the detection technology for airborne microorganisms has developed rapidly; it can be roughly divided into biochemical, immune, and molecular technologies. However, these technologies still have some shortcomings; they are time-consuming and have low sensitivity and poor stability. Most of them need to be used in the ideal environment of a laboratory, which limits their applications. A biosensor is a device that converts biological signals into detectable signals. As an interdisciplinary field, biosensors have successfully introduced a variety of technologies for bio-detection. Given their fast analysis speed, high sensitivity, good portability, strong specificity, and low cost, biosensors have been widely used in environmental monitoring, medical research, food and agricultural safety, military medicine and other fields. In recent years, the performance of biosensors has greatly improved, becoming a promising technology for airborne microorganism detection. This review introduces the detection principle of biosensors from the three aspects of component identification, energy conversion principle, and signal amplification. It also summarizes its research and application in airborne microorganism detection. The new progress and future development trend of the biosensor detection of airborne microorganisms are analyzed.     

基于集成全相关技术的水环境治理装备设计

针对现有水环境治理装备设计开发技术存在的不足，提出了一种融合全相关技术与CAD、CAE、CAM、CAPP技术的集成一体化装备系统设计开发方案，并给出了这种集成全相关技术的初步实现方法，而且进行了射流曝气器的设计应用。这种方法有望实现水环境治理装备系统完整、可靠的设计，并缩短了设计开发周期。     

Chirp浅剖仪在水域地质调查中的应用

基于线性调频技术的Chirp声学浅剖仪系统,较好地解决了探测深度以及分辨率这两个最令人关心但又互为矛盾的问题。该浅剖仪系统主要由导航系统、信号控制系统、信号发射系统、信号接受系统以及测深系统等5部分组成,理论上,其纵向地层分辨率为十几厘米左右,最大探测深度在百米左右,具体视地层以及水质等条件而定。考虑到该系统的特殊性和复杂性,对其关键操作进行了较为详细的描述。最后介绍了该系统在活断层调查、管线走向调查以及水底抛石调查等不同类型水域岩土工程勘察中的成功应用,表明其具有良好的应用前景。     

Evaluation of Electrokinetic Remediation of Arsenic-contaminated Soils

The potential of electrokinetic (EK) remediation technology has been successfully demonstrated for the remediation of heavy metal-contaminated fine-grained soils through laboratory scale and field application studies. Arsenic contamination in soil is a serious problem affecting both site use and groundwater quality. The EK technology was evaluated for the removal of arsenic from two soil samples; a kaolinite soil artificially contaminated with arsenic and an arsenic-bearing tailing-soil taken from the Myungbong (MB) gold mine area. The effectiveness of enhancing agents was investigated using three different types of cathodic electrolytes; deionized water (DIW), potassium phosphate (KH₂PO₄) and sodium hydroxide (NaOH). The results of the experiments on the kaolinite show that the potassium phosphate was the most effective in extracting arsenic, probably due to anion exchange of arsenic species by phosphate. On the other hand, the sodium hydroxide seemed to be the most efficient in removing arsenic from the tailing-soil. This result may be explained by the fact that the sodium hydroxide increased the soil pH and accelerated ionic migration of arsenic species through the desorption of arsenic species as well as the dissolution of arsenic-bearing minerals.     

鼠李糖脂强化多环芳烃微生物修复的研究进展

多环芳烃（PAHs）是普遍存在于环境中具有强烈毒性、致突变性和致癌性的难降解有机物,可造成严重的环境污染。由于低水溶性而导致的低生物可利用率是限制PAHs微生物降解的主要因素。生物表面活性剂鼠李糖脂由于在形成胶束后能够大幅提高PAHs的表观溶解度,且毒性低、无二次污染,因而在PAHs微生物降解的研究中得到广泛关注。目前关于鼠李糖脂强化PAHs微生物降解的研究主要集中于其强化效果,而对其强化机制的研究仍不够深入。该文基于鼠李糖脂的性质及铜绿假单胞菌（Pseudomonas aeruginosa）的鼠李糖脂生物合成及调控,从鼠李糖脂提高PAHs溶解度、强化胶束传质、提高细胞表面疏水性、降低细胞表面Zeta电位、提高细胞膜通透性等方面综述其在强化PAHs微生物降解机制方面的最新研究进展,并总结了温度、pH、浓度和离子强度等环境因素对强化效果的影响。在此基础上,提出未来需要进一步探索鼠李糖脂生物可降解性与强化降解效果之间的平衡关系,明确pH影响PAHs溶解度的机理,并从基因、转录、蛋白和代谢水平对鼠李糖脂作用前后降解菌内参与调控菌体细胞表面疏水性（CSH）和膜通透性的相关基因的表达差异进行分析...