不同接种浓度绿球藻对水产养殖废水净化的影响

通过设置绿球藻(Chlorococcum sphacosum GD)的起始接种浓度(25—400 mg/L),研究其对水产养殖废水的处理效果及藻细胞的生长特性。研究结果表明,起始接种浓度为100 mg/L的绿球藻藻液,其生长特性最佳,比生长速率最大,倍增时间最短。随着起始接种浓度的增加,生长速率逐渐降低,倍增时间逐渐增加。在起始接种浓度为100 mg/L的条件下,在5d的培养周期内,绿球藻能够去除水产养殖废水中96.92%的COD、98.08%的氨氮、98.67%的亚硝氮、91.42%的硝氮及98.36%的总磷。低起始接种浓度(尤其是100 mg/L)有利于绿球藻的生长和污染物降解。研究初步探明了微藻起始接种浓度对水产养殖废水处理效果的影响。通过控制微藻接种浓度有望在提高污染物去除率的同时缩短培养周期并提高容积负荷,为今后微藻用于大规模水产养殖废水的处理提供了一定的理论支持。     

植物在水产养殖废水处理中的研究进展

植物在生长繁殖过程中能吸收利用、富集、吸附和固定水产养殖水体中的有机物、无机物和重金属,降低养殖水体中的TP、TN、TSS、COD和BOD。同时,植物在水体中可通过其发达的通气组织和根系传输氧气,为微生物和其他生物的代谢活动提供适宜的条件。选择合适的植物构建人工湿地,通过人工湿地中植物、微生物和基质的物理作用、化学作用和生物作用处理水产养殖废水,可建立循环的水产养殖模式。将植物应用于水产养殖废水的处理,是实现可持续发展的生态型水产养殖的基础。本文综述了近年来藻类和高等植物在水产养殖废水处理中的研究进展。     

周丛藻类及其在水质净化中的应用

周丛藻类广泛存在于自然界水体中,具有生物量大、生态功能强、水质响应灵敏等特征.周丛藻类通过吸收代谢利用、吸附和络合等过程去除水体污染物质,用于水质净化,具有耐污能力强,N、P去除效果好,藻类细胞回收利用价值高等优点,推广应用前景广阔.近年开发的藻丛刷系统、周丛藻类 生物膜系统和周丛藻类水产养殖系统等已经成功用于畜禽水产养殖废水、生活污水处理.而周丛藻类的生存规律、对污染物浓度的生理响应机理和污染物质吸收利用的分子生物学机制仍有待进一步研究.     

血红裸藻热解产气研究

微型浮游藻类生态分布广,生物量大,是石油和天然气藏形成的最重要的一类生物输人源。研究微藻产油产气已为研究油气的成因理论、探讨油气勘探指标、开发利用现代浮游藻类能源提供了有价值的资料。在天然气的研究中,对煤成气,油成气的报道较多,对微藻热解产气的研究很少。不同门类微藻热解产气特征的异同仍然还不清楚。本文报道一种裸藻的热解     

利用基因工程技术提高微藻油脂含量的研究进展

利用微藻油脂制备生物柴油因具有重要的战略意义而受到世界各国的重视,成为近年来的研究热点。利用微藻制备生物柴油具有生长周期短、易于大规模培养、能大量吸收CO2及不占用耕地等优点。但是,由于对藻类油脂合成代谢中的调节机制了解不多,导致微藻基因组研究相对滞后,极大地限制了微藻生物能源的大规模开发和利用。随着现代生物技术的发展,通过基因工程、代谢工程等方法调控微藻脂类的合成代谢,提高藻类含油量和生物量已成为可能。概述了微藻中油脂的合成代谢,归纳总结利用基因工程技术提高微藻油脂含量的研究进展,为获得含油量高的工程微藻及微藻制备生物柴油提供技术储备。     

微藻生物能源研究取得新进展

中国科学院青岛生物能源与过程研究所能源藻类资源团队刘天中研究员针对微藻生物柴油生产成本和能耗影响大的微藻油脂提取、微藻生物柴油转化等下游关键技术进行了系列研究,结果发表在《Biore-sourceTechnology》杂志上。     

基于微藻培养处理畜禽养殖废水的研究进展

当前规模化畜禽养殖业排放含有大量氮磷、重金属和有机污染物的粪污废水,导致生态环境遭受严重的污染,治理畜禽废水的任务迫在眉睫。由于传统畜禽废水处理方式及应用存在较多不足,基于微藻生物技术处理废水的研究得到越来越多的关注。微藻是一种广泛存在于水体中的单细胞生物,具有高效的脱氮除磷及纳污能力,其主要利用同化作用吸附污水中的氮,通过磷酸化作用吸附、沉降磷,依靠细胞膜上的官能团对重金属进行富集。基于以上生理基础,大多数微藻的氮磷吸附率和重金属富集率可以高达80%。目前微藻对畜禽废水污染组分的处理的研究主要集中在氮磷、重金属,实际应用方式多为高效藻类塘、活性藻、固定化技术、光生物反应器等。但是微藻处理畜禽废水仍存在分子机理研究较少,生产实际经验不足等问题。基于微藻处理畜禽废水的机理,通过综述若干微藻去除氮磷、重金属等污染物的效率,总结国内外微藻废水处理技术的研究及存在问题,展望了微藻废水工程发展前景。     

酚对极大螺旋藻生长的影响

水环境污染正日益加剧,许多湖泊和海洋中浮游藻类大量爆发,形成水华.浮游藻类是一类光合作用自养生物,关于无机氮、磷等营养盐与微藻生长之间的关系已有很多详细的研究.但对于有机物对微藻生长的影响却研究得较少.有些研究已发现,许多藻类不但能够利用无机碳,它们也能利用葡萄糖、醋酸等有机物作为其生长的碳源1,2.酚类物质是工业废水中常见的环境污染物质,虽然已有研究表明,有些藻类可分解酚3,4,但对于排放到水体中的酚会对浮游藻类有何影响尚无系统研究报道.本文研究了不同浓度酚对蓝藻极大螺旋藻(Spirulinamaxima)生长的影响以及藻对酚的分解作用,旨在探讨酚类物质可能对浮游藻类生态的影响.       

微藻-细菌共生体系在废水处理中的应用

在微藻-细菌协同共生的过程中,藻类光合作用释放的氧气被异养微生物利用来矿化水体中的污染物,细菌呼吸为藻类提供二氧化碳作为碳源。近年来,藻类-细菌协同共生体系在污水处理中的应用得到了广泛的研究。本文重点综述了菌藻协同共生体系中微藻与细菌之间的三种相互作用,以及菌藻协同共生体系在废水处理中的应用。菌藻协同共生体系中的微藻与细菌通过营养交换、信号转导及基因转移等相互作用实现共赢。该体系广泛用于处理富营养化、重金属、药物、多环芳烃(polycyclicaromatic hydrocarbons,PAHs)、石油烃化合物等难降解的有机污染的水体。对于氮、磷等营养物质的去除,其主要机理涉及同化作用、厌氧氨氧化作用、硝化与反硝化作用、磷酸化作用等。对重金属、药物、石油烃化合物及其他有机化合物的去除机制主要是生物吸附、生物富集及细胞内外的生物降解。     

关于石油母质来源的探讨

浮游微藻是海洋和湖泊中的初级生产力,生物量巨大,平均脂类含量高,是沉积岩中有机质的主要母质来源,对石油和天然气的形成贡献最大。对下辽河坳陷早第三纪的大量微体浮游藻类化石研究表明,该坳陷油气资源的形成和微体浮游藻类,特别是沟鞭藻的大量存在密切相关,浮游藻类是该坳陷盆地油气形成有机质来源的重要基础之一。在微藻热模拟成烃实验中引入成岩早期生物、地化因子的影响,使模拟实验更接近自然界的实际情况。对微藻来源的生物标志物研究表明,作为高盐环境重要标志物的2,6,10,14,18—五甲基二十烷也可能来源于藻类生物。在藻类热模拟产物中发现惹烯的存在,提示在解释油气藏的生物母质来源时必须特别谨慎。     

Application of rbcL based molecular diversity analysis to algae in wastewater treatment plants

The molecular diversity of algae in the final clarifier or denitrification filter outfall from three wastewater treatment plants (WWTPs) with activated sludge based treatment was analyzed using the rbcL gene as a phylogenetic marker. The rbcL gene encodes the large subunit of the CO(2) fixing enzyme RuBisCO. Among algae identified at the WWTPs were diatoms, green algae, cyanobacteria, Eustigmatophyceae, and unknown heterokonts. A high level of diversity was observed within WWTPs with 19-24 unique rbcL sequences detected at each plant. Algae composition also varied between treatment plants. Our results show that the rbcL gene can be used as a phylogenetic marker for algae diversity analysis in a wastewater treatment context.     

Recycling of aquaculture wastewater using charcoal based constructed wetlands

Abstract

The competitive demand for water makes it a scarce resource for agricultural use. This necessitates wastewater reuse for irrigation and any other agricultural purpose, especially in developing countries where treatment of wastewaters is not a priority. The aim of this study was to evaluate the performance of a charcoal-based constructed wetland (CBCW) in treating aquaculture wastewater. Aquaculture wastewater from a Research Fishpond Farm was treated in a CBCW planted with Sacciolepsis africana and Commelina cyannae for 5?days retention time. Raw wastewater and the treated wastewater from the constructed wetland (CW) was sampled and the physicochemical parameters determined. The performance of the CW in treating aquaculture wastewater was conducted. The result showed that the CBCW was capable of removing 50% TSS, 88% COD, 93% BOD_5, and 100% nitrate nitrogen. The pH and DO of the wastewater before treatment and after treatment ranged from 6.68 to 6.91 and 4.13 to 6.30?mg/l, respectively. Thus, CWs have great potential for the treatment of aquaculture wastewater and prevention of environmental degradation through wastewater treatment, thereby solving the problem of water scarcity for agriculture for optimum food production.     

Chitin: a potential new alternative nitrogen source for the tertiary,algal-based treatment of pulp and paper mill wastewater

Every day, pulp and paper mills in the USA discharge millions of liters of wastewater. Primary and secondary treatment of this wastewater often enriches it with phosphorus, resulting in uncontrolled eutrophication of receiving water bodies. A new method of tertiary wastewater treatment uses controlled growth of algae in a photobioreactor to sequester phosphorus into algal biomass, which is then harvested. This typically requires addition of a nitrogen fertilizer (nitrate, ammonium, or urea) to the water. We show on the laboratory scale that chitin can be used as an alternative source of nitrogen for the tertiary treatment of pulp mill wastewater using algae. We demonstrate that phosphorus can be efficiently removed from pulp wastewater using algae and chitin. Furthermore, phosphorus removal with chitin did not result in an increase in dissolved nitrogen in the wastewater because it is insoluble, unlike conventional nitrogen fertilizers. Despite its insolubility, it has recently been found that many diverse algae and cyanobacteria can use it as a source of nitrogen. Chitin has many advantages over conventional nitrogen fertilizers for use in wastewater treatment technologies. It is the second-most abundant natural polymer and is a waste product of the shellfish industry. Chitin is sustainable, inexpensive, and carbon neutral. Thus, chitin improves the sustainability and carbon footprints associated with water treatment, while the production of commercially attractive algal biomass helps to offset costs associated with the water treatment system itself.     

高效净水异养硝化细菌的筛选鉴定及固定化应用研究

本研究从海参养殖水体、泥土中筛选出4株具有硝化能力的异养硝化细菌。分别将其游离菌体细胞投入海参养殖水体,测定亚硝态氮、氨氮去除率,筛选出HS．NOB2为高效净化菌株,对HS-NOB2进行16SrDNA扩增及序列测定,初步鉴定为节杆菌（Arthrobactersp．）。利用海藻酸钠包埋法对高效净化菌体细胞进行固定化,将该固定化菌投入养殖水体及人工合成污水,研究其对水体中亚硝态氮、氨氮的处理效果,并与游离菌体细胞进行比较。结果表明,固定化后亚硝态氮去除率达到49．85％,氨氮去除率达到56．58％,均明显高于游离菌体细胞。上述研究为探寻水体净化提供了新思路,为水质改良剂的实际生产提供可选菌株。     

Effect of an integrated mangrove-aquaculture system on aquacultural health

Mangroves are unique intertidal halophyte formations growing in sheltered tropical and subtropical coastal areas. Due to the increasing population and economic development, mangroves have faced degrada-tion and loss, which has been mainly caused by land conversion into aquaculture ponds in Asia. In the past several decades, the rapid growth of aquaculture has induced water pollution. Using mangroves for effluent treatment from coastal aquaculture ponds could be a suitable approach for wastewater treatment and healthy aquaculture development. An Integrated Mangrove-Aquaculture System (IMAS) was established to test whether the idea of a mangrove in situ treatment for aquaculture wastewater is feasible. The monocultures of three mangroves, Sonneratia caseolaris, Kandelia obo-vata, and Aegiceras corniculatum were established with area proportions of 45%, 30%, or 15%, respectively. One control pond without mangroves was also set up. The results indicated that the mangroves had different toler-abilities to long-term inundation. The aquaculture ponds had different fishery yields, considering the mangrove species and area proportions. The water quality of most of the experimental ponds was better than the control pond, except for the planted Sonneratia. It is concluded that mangroves can reduce the concentration of dissolved inorganic nitrogen and phosphate, buffer the pH value and increase the concertration of dissolved oxygen in aqua-culture water bodies effectively. It is suggested to use 15% of the Aegiceras corniculatum area to conduct in situ purification of aquaculture wastewater and to enhance aquaculture production.     

Effect of an integrated mangrove-aquaculture system on aquacultural health

Mangroves are unique intertidal halophyte formations growing in sheltered tropical and subtropical coastal areas. Due to the increasing population and economic development, mangroves have faced degradation and loss, which has been mainly caused by land conversion into aquaculture ponds in Asia. In the past several decades, the rapid growth of aquaculture has induced water pollution. Using mangroves for effluent treatment from coastal aquaculture ponds could be a suitable approach for wastewater treatment and healthy aquaculture development. An Integrated Mangrove-Aquaculture System (IMAS) was established to test whether the idea of a mangrove in situ treatment for aquaculture wastewater is feasible. The monocultures of three mangroves, Sonneratia caseolaris, Kandelia obovata, and Aegiceras corniculatum were established with area proportions of 45%, 30%, or 15%, respectively. One control pond without mangroves was also set up. The results indicated that the mangroves had different tolerabilities to long-term inundation. The aquaculture ponds had different fishery yields, considering the mangrove species and area proportions. The water quality of most of the experimental ponds was better than the control pond, except for the planted Sonneratia. It is concluded that mangroves can reduce the concentration of dissolved inorganic nitrogen and phosphate, buffer the pH value and increase the concertration of dissolved oxygen in aquaculture water bodies effectively. It is suggested to use 15% of the Aegiceras corniculatum area to conduct in situ purification of aquaculture wastewater and to enhance aquaculture production.     

应用矿物盐改良池塘水质的研究

为了研究矿物盐对淡水养殖池塘水质的改良效果及应用前景,在12口土质池塘中对淡水养殖斑点叉尾鲴(Ictalurus punctatus Rafinesque,1818)施用三组矿物盐:NaNO3、KCl+MgCl2、NaNO3+KCl+MgCl3的对照实验,对照组池塘不施用任何矿物盐类;在182d的养殖期间,对所有处理组和对照组池塘的17项水质和5项底质因子进行了定期监测.结果表明,各处理组均显著降低了池塘水中的蓝藻相对密度;KCl+MgCl2的施用可促进水中硝化作用的进行;NaNO3+KCl+MgCl2的施用,显著提高了养殖池塘底泥表层的氧化还原电位;NaNO3+KCl+MgCl2组的池塘鱼产量比对照组显著提高6.6%,而饲料系数显著降低6.2%;NaNO3与KCl+MgCl2的共同施用起到了协同改良池塘水质和底质的作用.因此,NaNO3+KCl+MgCl2的应用可为淡水池塘水质的改良开辟一个新的途径,具有一定的应用前景.     

光合细菌在水污染治理中的研究进展

光合细菌以其无毒、繁殖快、适应能力强、易人工培养等优点而在环境治理中受到重视。国内外对光合细菌的研究主要集中在水产养殖业(如净化水质,作饵料添加剂等)和生活及工业重污染水处理中的作用,关于光合细菌在景观微污染水体治理方面的作用研究较少。课题组研究发现光合细菌中的沼泽红假单胞菌对西南大学景观水中氨氮的去除率高达95%,暗示光合细菌能有效治理景观水污染。综述了光合细菌的分类、脱氮除磷原理以及目前光合细菌在治理有机废水、重金属废水和养殖污水方面的应用,并展望了光合细菌在处理景观微污染水体方面的应用前景,以期为进一步研究光合细菌在景观水治理中的作用提供参考。