Ferreira Angélica B, Ribeiro Andreza P, Ferreira Maurício L, Kniess Cláudia T, Quaresma Cristiano C, Lafortezza Raffaele, Santos José O, Saiki Mitiko, Saldiva Paulo H
Institute of Technology and Research of SergipeAracaju, Brazil.
Smart and Sustainable Cities, Nove de Julho UniversitySão Paulo, Brazil.
Front Plant Sci. 2017 Sep 20;8:1575. doi: 10.3389/fpls.2017.01575. eCollection 2017.
Industrialization in developing countries associated with urban growth results in a number of economic benefits, especially in small or medium-sized cities, but leads to a number of environmental and public health consequences. This problem is further aggravated when adequate infrastructure is lacking to monitor the environmental impacts left by industries and refineries. In this study, a new protocol was designed combining biomonitoring and geostatistics to evaluate the possible effects of shale industry emissions on human health and wellbeing. Futhermore, the traditional and expensive air quality method based on PM measuring was also used to validate the low-cost geostatistical approach. Chemical analysis was performed using Energy Dispersive X-ray Fluorescence Spectrometer (EDXRF) to measure inorganic elements in tree bark and shale retorted samples in São Mateus do Sul city, Southern Brazil. Fe, S, and Si were considered potential pollutants in the study area. Distribution maps of element concentrations were generated from the dataset and used to estimate the spatial behavior of Fe, S, and Si and the range from their hot spot(s), highlighting the regions sorrounding the shale refinery. This evidence was also demonstrated in the measurements of PM concentrations, which are in agreement with the information obtained from the biomonitoring and geostatistical model. Factor and descriptive analyses performed on the concentrations of tree bark contaminants suggest that Fe, S, and Si might be used as indicators of industrial emissions. The number of cases of respiratory diseases obtained from local basic health unit were used to assess a possible correlation between shale refinery emissions and cases of repiratory disease. These data are public and may be accessed on the website of the the Brazilian Ministry of Health. Significant associations were found between the health data and refinery activities. The combination of the spatial characterization of air pollution and clinical health data revealed that adverse effects were significant for individuals over 38 years of age. These results also suggest that a protocol designed to monitor urban air quality may be an effective and low-cost strategy in environmentally contaminated cities, especially in low- and middle-income countries.
发展中国家与城市增长相关的工业化带来了许多经济效益,尤其是在中小型城市,但也导致了一系列环境和公共卫生问题。当缺乏足够的基础设施来监测工业和炼油厂留下的环境影响时,这个问题会进一步恶化。在本研究中,设计了一种结合生物监测和地统计学的新方案,以评估页岩工业排放对人类健康和福祉的可能影响。此外,还使用了基于颗粒物测量的传统且昂贵的空气质量方法来验证低成本的地统计学方法。使用能量色散X射线荧光光谱仪(EDXRF)进行化学分析,以测量巴西南部圣马特乌斯杜尔市树皮和页岩干馏样品中的无机元素。在研究区域中,铁、硫和硅被视为潜在污染物。从数据集中生成元素浓度分布图,并用于估计铁、硫和硅的空间行为及其热点范围,突出了页岩炼油厂周围的区域。这一证据也在颗粒物浓度测量中得到了证明,其与从生物监测和地统计学模型获得的信息一致。对树皮污染物浓度进行的因子分析和描述性分析表明,铁、硫和硅可能用作工业排放的指标。从当地基层卫生单位获得的呼吸道疾病病例数用于评估页岩炼油厂排放与呼吸道疾病病例之间的可能相关性。这些数据是公开的,可以在巴西卫生部的网站上获取。在健康数据与炼油厂活动之间发现了显著关联。空气污染的空间特征与临床健康数据的结合表明,对38岁以上的个体不利影响显著。这些结果还表明,设计用于监测城市空气质量的方案可能是受环境污染城市,特别是低收入和中等收入国家的一种有效且低成本的策略。
