Potential of windrow food and green waste composting in Tunisia

Environmental Science and Pollution Research - Solid waste management and disposal is one of the most significant challenges facing urban communities around the world. There is a wide range of...     

Concentration of Heavy Metals in Dominant Moss Species as an Indicator of Aerial Technogenic Load

The concentrations of nickel and copper were determined in mosses Hylocomium splendens and Pleurozium schreberi sampled in 1991 and 2011 at the same sites in the Lapland State Biosphere Reserve located in the impact area of atmospheric emissions from the Severonickel Smelter Combine (Monchegorsk, Murmansk Region, Russia). Both moss species have been confirmed to adequately reflect the levels of aerial technogenic load and can be used equally to monitor environmental pollution from heavy metals. It has been statistically proven that not only the volume of atmospheric emissions of polymetallic dust and the distance to the pollution source affect the concentrations of heavy metals in the studied moss species, but the wind rose and relief are also of importance.     

The Water Regime of Black Saxaul in Various Environmental Conditions of the Central Asian Desert

A water regime, estimated based on transpiration rate, water content of shoots, concentration of cell sap, and water consumption per unit area, was studied for black saxaul. The seasonal course of black saxaul transpiration during the growing season increased by the middle of summer (July) and decreased towards autumn. The highest transpiration rate of black saxaul was found in Karnabchul, where ground waters poorly mineralized, located at a depth of 14–20 m in nonsaline soils. The lowest transpiration rate was detected in the Nishan “steppe,” where ground waters were also located at 14–20 m, however they were highly mineralized, and the soil profile was highly salinated. The Southwestern Kyzylkum, characterized by ground waters at a very deep location (more than 100 m) and low soil salinity, occupied an intermediate position in terms of transpiration rate. The maximal water consumption for transpiration during the vegetation period was observed in Karnabchulat 642.5 mm/ha, then in the Nishan “steppe” at 352.5. The minimal value was detected in the Southwestern Kyzylkum at 171.0.

     

溶解氧对好氧/延长闲置SBR除磷性能的影响

以合成废水为研究对象,乙酸钠为外加碳源,考察不同溶解氧(DO)浓度下好氧/延长闲置(O/EI)序批式反应器的除磷效果,并通过分析典型周期内磷元素及微生物体内各储能物质的变化,探究DO浓度对O/EI工艺除磷性能的影响机制.结果表明,低DO浓度(1 mg·L-1)条件下,O/EI系统具有良好的除磷效果,除磷率高达96%,单位污泥除磷量为5.02 mg·g-1;而当DO浓度较高(4 mg·L-1)时,反应器内磷的去除率降至50%,单位污泥除磷量仅2.81 mg·g-1.研究表明,在DO浓度为1 mg·L-1时,微生物能合成较多聚羟基脂肪酸酯(PHAs),糖原的合成及利用较少,系统好氧吸磷量远高于其他反应器,并在闲置期释放出更多聚磷酸盐.可见,DO可通过影响微生物体内PHAs和糖原的合成及转化,闲置期释磷,好氧前期释磷及好氧吸磷,进而影响系统的除磷性能.     

Natural radioactivity in farm soil and phosphate fertilizer and its environmental implications in Qena governorate, Upper Egypt

Samples of phosphate fertilizers and farm soils, taken to a depth of up to 30 cm in cultivated land, were collected over the Qena governorate, Upper Egypt. Activity concentration of background radionuclides such as (226)Ra, (232)Th and (40)K of these samples were determined by gamma-ray spectrometry. The results show that these radionuclides were present in concentrations of 366+/-10.5, 66.7+/-7.3 and 4+/-2.6 Bq/kg for phosphate fertilizers. For farm soil and Nile island's soil the corresponding values were 13.7+/-7, 12.3+/-4.6, 1233+/-646 and 11.9+/-6.7, 10.5+/-6.1, 1636+/-417 Bq/kg, respectively. The radium equivalent activity (Ra(eq)), the representative level index, I(gamma r), and absorbed dose in air for all samples were calculated. The data were discussed and compared with those given in the literature.     

Measurement of natural radioactivity in building materials in Qena city, Upper Egypt

Building materials cause direct radiation exposure because of their radium, thorium and potassium content. In this paper, samples of commonly used building materials (bricks, cement, gypsum, ceramics, marble, limestone and granite) in Qena city, Upper Egypt have been collected randomly over the city. The samples were tested for their radioactivity contents by using gamma spectroscopic measurements. The results show that the highest mean value of (226)Ra activity is 205+/-83 Bqkg(-1) measured in marble. The corresponding value of (232)Th is 118+/-14 Bqkg(-1) measured in granite. For (40)K this value is (8.7+/-3.9)x10(2) Bqkg(-1) measured in marble. The average concentrations of the three radionuclides in the different building materials are 116+/-54, 64+/-34 and (4.8+/-2.2)x10(2) Bqkg(-1) for (226)Ra, (232)Th and (40)K, respectively. Radium equivalent activities and various hazard indices were also calculated to assess the radiation hazard. The maximum mean of radium equivalent activity Ra(eq) is 436+/-199 Bqkg(-1) calculated in marble. The highest radioactivity level and dose rate in air from these materials were calculated in marble.     

Influence of the structure and composition of Fe–Mn binary oxides on rGO on As(III) removal from aquifers

Fe–Mn binary oxide (FMBO) possesses high efficiency for As(III) abatement based on the good adsorption affinity of iron oxide and the oxidizing capacity of Mn(IV), and the composition and structure of FMBO play important roles in this process. To compare the removal performance and determine the optimum formula for FMBO, magnetic graphene oxide (MRGO)–FMBO and MRGO–MnO₂ were synthesized with MRGO as a carrier to improve the dispersity of the adsorbents in aquifers and achieve magnetic recycling. Results indicated that MRGO–FMBO had higher As(III) removal than that of MRGO–MnO₂, although the ratios of Fe and Mn were similar, because the binary oxide of Fe and Mn facilitated electron transfer from Mn(IV) to As(III), while the separation of Mn and Fe on MRGO–MnO₂ restricted the process. The optimal stoichiometry x for MRGO–FMBO (Mn_xFe_3-xO₄) was 0.46, and an extraordinary adsorption capacity of 24.38 mg/g for As(III) was achieved. MRGO–FMBO showed stable dispersive properties in aquifers, and exhibited excellent practicability and reusability, with a saturation magnetization of 7.6 emu/g and high conservation of magnetic properties after 5 cycles of regeneration and reuse. In addition, the presence of coexisting ions would not restrict the practical application of MRGO–FMBO in groundwater remediation. The redox reactions of As(III) and Mn(IV) on MRGO–FMBO were also described. The deprotonated aqueous As(III) on the surface of MRGO–FMBO transferred electrons to Mn(IV), and the formed As(V) oxyanions were bound to ferric oxide as inner-sphere complexes by coordinating their “–OH” groups with Mn(IV) oxides at the surface of MRGO–FMBO. This work could provide new insights into high-performance removal of As(III) in aquifers.     

象山港流域入湾河流水体中重金属风险评价及其来源解析

本文根据丰水期象山港8种溶解态重金属的浓度调查,通过单因子污染指数(P_i)、内梅罗综合污染指数(P_n)和重金属污染指数(HPI)评价方法研究了重金属流域内入湾河流中重金属的污染.基于流域内土地利用类型与重金属浓度的相关性,结合实地走访调查,对重金属的来源进行了解析.结果表明,区域内重金属平均浓度大小表现为:FeMnZnCuAsCrPbCd;除Mn和Fe外,其余6种重金属浓度均符合《地表水环境质量标准》中的Ⅰ类水标准;区域内重金属风险较低,无污染现象,但存在沾污情况;以水产养殖为代表的农业面源污染是区域内重金属出现沾污的主要因素.为了合理规避区域内城镇化发展进程中的重金属风险,重点在于加强以农业面源为主的污染源监管.     

Risk Analysis of Invasive Species Introduction in the Port of Arzew,by Calculation of Biofouling Surface on Ships’ Hulls

Historically, the biofouling of ships’ hulls has always been considered amongst the oldest mechanisms causing the introduction of marine invasive species. However, in the last few decades, studies have been oriented mainly towards the introduction of non-indigenous species via ballast water, at the expense of biofouling. In this study, an alternative approach that deals with this latter parameter as the main factor of the introduction of marine organisms is proposed. The biofouling surface area of all vessels which have made call at Arzew port in Algeria is calculated over a period of one year (2014). This parameter indicates the importance of the pressure of propagule that corresponds to the successful introduction effort of a species, since it is this submerged surface of the ship that hosts organisms and spreads them all over the world. We associate to each calculated biofouling surface a bioregion of origin, as well as other parameters such as the number of vessels, their maritime routes and the environmental similarity of Arzew port’s seawater and the other different bioregions. We highlight according to the bioregion, the surfaces that constitute a critical risk of the species introduction and those that constitute a minor risk The study showed that over a period of 1 year, 1313 ships from 28 different bioregions that have made call at Arzew port have accumulated a total wet surface corresponding to about nine million square meters. It is worth to mention that this field of research requires special attention from academics as it may lead to more effective methods to prevent future exotic species introductions.