臭氧水防治草莓二斑叶螨的效果评价

臭氧水具有强氧化性,能有效杀灭环境中的病菌和害虫。本研究采用草莓上的二斑叶螨体表观察和田间防效试验评价了臭氧水对二斑叶螨的防治效果。试验结果显示,4.0-4.5 mg·L-1和1.0-1.5 mg·L-1的臭氧水均能够显著降低二斑叶螨的虫口密度,防效高达95.46%和91.28%,且显著提升二斑叶螨的死亡率,但臭氧水浓度过高会抑制草莓植株的生长,破坏草莓的叶片。通过对二斑叶螨体表的观察发现,利用臭氧水的强氧化性,有效破坏了二斑叶螨的体表组织,因此在二斑叶螨发生期连续使用臭氧水可以有效控制螨的为害。本研究综合防效和安全性评价表明,1.0-1.5 mg·L-1的臭氧水对二斑叶螨具有良好的防效,对草莓和授粉的蜜蜂也具有安全性,为二斑叶螨的防治提供了一种理想的方式,具有较高推广价值。     

城市蒙古栎对近地层臭氧浓度升高的光合生理响应

近地层O3浓度的增加已经成为当今环境科学研究的热点问题之一,该文主要模拟沈阳城市森林的常用绿化树种蒙古栎对近地层O3浓度升高的光合生理响应,为沈阳市城市采林树种的选育提供理论依据.本试验利用开顶式气室研究蒙古栎叶片对臭氧浓度升高的光合生理响应.结果表明,蒙古栎叶片在高浓度O3熏蒸下,净光合速率、光合色素、光合产物、光合电子传递和光合磷酸化指标随着熏蒸时间的延长而呈现出先上升后下降的趋势,相对电导率呈上升趋势.在通气30d时,净光合速率、类胡萝卜紊含量、ATP酶及淀粉含量均与对照达到差异极显著(p＜0.01),而叶绿素含量与对照差异显著(p＜0.05);在通气90d时,净光合速率和类胡萝卜素含量与对照差异显著(p＜0.05),而叶绿素含量和Mg2+-ATP酶活性与对照差异极显著(p＜0.01).在臭氧浓度升高条件下,蒙古栎叶片光合作用能力下降.     

臭氧结合拮抗酵母对草莓采后灰霉病的控制

为了寻找一种能够代替化学杀菌剂控制草莓采后病害的方法,试验研究了臭氧与罗伦隐球酵母（Cryptococcus laurentii (Ku?erath) Skinner）结合使用对草莓采后灰霉病的控制效果的影响。研究表明,臭氧处理能显著降低草莓采后灰霉病发病率、抑制草莓水果伤口处致病菌数目和抑制霉菌孢子的萌发。经过2 d的贮藏,臭氧处理与罗伦隐球酵母结合使用草莓灰霉病的发病率为29.63%,显著低于对照处理（70.37%）,同时也低于臭氧处理及罗伦隐球酵母单独处理的发病率（分别为48.15%和44.44%）。在20℃和4℃下培养,罗伦隐球酵母在水果伤口处能迅速地增长,并持续保持较高水平。臭氧处理与罗伦隐球酵母结合处理能诱导草莓果实的多酚氧化酶（PPO）、过氧化物酶（POD）、苯丙氨酸解氨酶（PAL）、过氧化氢酶（CAT）和b-1,3-葡聚糖酶（GLU）活性的提高,同时可以抑制脂氧合酶（LOX）活性的增加。     

应用于冷水鱼养殖的臭氧-氨氮反应塔设计及试验

为了处理冷水鱼养殖过程中养殖水体内积累的氨氮,基于气泡流体力学原理,根据臭氧气泡在水体中的运动、溶解扩散和大小变化方程,设计了一种双层逆流臭氧反应塔,并在工厂化养殖试验系统中进行了臭氧氧化氨氮效果试验和养殖水体臭氧残留浓度监测试验。结果表明,利用该反应塔进行臭氧催化氧化氨氮,可以去除养殖水体中54%的氨氮,处理效果较好;对养殖水体臭氧浓度监测表明,臭氧在水中的残留浓度低于0.01 mg/L,符合养殖鱼类对水体臭氧浓度的安全要求。通过设计、研制和试验,证明双层逆流臭氧氧化反应塔结构合理、氧化反应充分,达到了设计高效臭氧氧化氨氮设备的目的。     

Effects of ambient gaseous pollutants on photosynthesis,growth, yield and grain quality of selected crops grown at different sites varying in pollution levels

In recent decades, ambient gaseous pollution has increased due to anthropogenic activities worldwide. The studies to evaluate the adverse effects of ambient pollutants on commonly grown food crops are still limited, especially in Asian countries like Pakistan. The present study was conducted to measure the ambient pollutants in different sites of Faisalabad and their impact on growth and yield of wheat, mung bean and peas. Plants were grown in pots and placed at three sites named as control (Wire house of Government College University, Faisalabad), low pollution (LP) (Farm Area of Ayub Agricultural Research Institute) and high pollution (HP) (GT Chowk, Faisalabad) sites. Results showed that ambient ozone (O₃) concentration was highest at HP site followed by LP site and was below AOT40 in control site. Ambient pollutants caused foliar injury in crops and decreased plant height, leaf area, biomass and grain yield. Pollutants caused a reduction in photosynthetic pigments, stomatal conductance and net photosynthetic rate and grain protein contents in all three crops. In conclusion, the ambient O₃ level was highest at HP site, this current O₃ level and other pollutants decreased the growth and yield of important food crops.     

臭氧在水产品加工中应用综述

臭氧（O3）作为一种高效的抑菌剂已广泛应用于食品工业中,具有高反应性、强渗透性、低残留性等优点。臭氧在水产品加工中主要用于产品保鲜、去异味、漂白脱色及加工设备清洗消毒等方面。文章概述了臭氧的产生原理、基本性质及其应用发展史,并对臭氧在水产品加工领域中的应用研究进行综述与展望。     

Improved performance of gilthead sea bream, Sparus aurata, larvae after ozone disinfection of the eggs

Ozone (O₃) dissolved in seawater (ODS) was evaluated, as an egg disinfectant, on the spawn of captive gilthead sea bream, Sparus aurata, brood stock. Four contact times (CT) were tested (0.6, 1.2, 2.4 and 4.8 mg min L⁻¹) where CT was calculated by multiplying the dissolved O₃ concentration (0.3 mg L⁻¹) by different exposure periods (2, 4, 8, 16 min). There was also a disinfected seawater treatment that contained no O₃ or derived compounds (CT 0) and an untreated seawater control. All ODS treatments reduced egg surface bacterial counts to zero, which was significantly (P<0.05) lower than the CT 0 and the control groups (194 and 1320 plate⁻¹ respectively). Nevertheless, the hatching rate was high in the control and the CT treatments 0, 0.6 and 1.2 (88.7%, 87.3%, 89.5% and 83.7% respectively) while eggs exposed to a CT 2.4 and 4.8 hatched poorly (36.5% and 20.4% respectively), which was likely due, at least in part, to larvae unable to break the egg chorion successfully. Swim‐bladder inflation was significantly higher in the ODS groups (>97%) compared with the control and CT 0 treatments (ca. 70%). The results suggest that a 2‐min exposure of eggs to 0.3 mg O₃ L⁻¹ of ODS (CT 0.6) would improve current protocols in marine larviculture.     

Effects of in vitro exposure to ozone and/or hyperoxia on superoxide dismutase, catalase, glutathione and lipid peroxidation in red blood cells and plasma of rainbow trout, Oncorhynchus mykiss (Walbaum)

In aquaculture, ozone is used as a disinfectant. In its production, extensive amounts of oxygen are formed resulting in hyperoxic conditions in culture units. Both ozone and hyperoxia have the potential to be toxic via pro‐oxidant mechanisms and to activate antioxidant defence systems in cultured species. To eliminate systemic effects, blood of rainbow trout, Oncorhynchus mykiss (Walbaum), was exposed in vitro for 5 min to ozone/hyperoxia or hyperoxia, and changes in antioxidant defences and lipid peroxidation were measured after exposure. Ozone exposure caused severe damage in red blood cells (rbc) detected as increased lipid peroxidation and oxidized glutathione (GSSG) levels in both plasma and rbc. Oxygen exposure alone increased intracellular lipid peroxidation and GSSG levels 10 min after exposure and was not evident in the plasma at any time. Ozone, but not oxygen exposure, decreased reduced glutathione (GSH) levels in plasma, and the changes were negatively correlated with increased lipid peroxidation in rbc, indicating that extracellular GSH has a dynamic role in the protection of rbc from direct oxidation by ozone. Both ozone and hyperoxic conditions increased superoxide dismutase (SOD) activity in rbc 3 and 6 h after exposure. In contrast, catalase activity was only increased 10 min after oxygen exposure, suggesting other catalase activation mechanisms rather than enzyme induction. The recovery of lipid peroxidation and GSSG levels in rbc after hyperoxia, but not ozone exposure, indicated a capacity to defend against hyperoxia‐produced oxidative damage, but an overwhelming of antioxidant defences by ozone in rainbow trout rbc in vitro.