pstrongAbstract./strong After carbon dioxide (COsub2/sub), aerosol black carbon (BC) is considered to be the second most important contributor to global warming. This paper presents equivalent black carbon (eBC) (derived from an optical absorption method) data collected from three sites in the interior of South Africa where continuous measurements were conducted, i.e. Elandsfontein, Welgegund and Marikana, as well elemental carbon (EC) (determined by evolved carbon method) data at five sites where samples were collected once a month on a filter and analysed offline, i.e. Louis Trichardt, Skukuza, Vaal Triangle, Amersfoort and Botsalano.brbrAnalyses of eBC and EC spatial mass concentration patterns across the eight sites indicate that the mass concentrations in the South African interior are in general higher than what has been reported for the developed world and that different sources are likely to influence different sites. The mean eBC or EC mass concentrations for the background sites (Welgegund, Louis Trichardt, Skukuza, Botsalano) and sites influenced by industrial activities and/or nearby settlements (Elandsfontein, Marikana, Vaal Triangle and Amersfoort) ranged between 0.7 and 1.1, and 1.3 and 1.4span class="thinspace"/span?μgspan class="thinspace"/spanmsupa??3/sup, respectively. Similar seasonal patterns were observed at all three sites where continuous measurement data were collected (Elandsfontein, Marikana and Welgegund), with the highest eBC mass concentrations measured from June to October, indicating contributions from household combustion in the cold winter months (Junea??August), as well as savannah and grassland fires during the dry season (May to mid-October). Diurnal patterns of eBC at Elandsfontein, Marikana and Welgegund indicated maximum concentrations in the early mornings and late evenings, and minima during daytime. From the patterns it could be deduced that for Marikana and Welgegund, household combustion, as well as savannah and grassland fires, were the most significant sources, respectively.brbrPossible contributing sources were explored in greater detail for Elandsfontein, with five main sources being identified as coal-fired power stations, pyrometallurgical smelters, traffic, household combustion, as well as savannah and grassland fires. Industries on the Mpumalanga Highveld are often blamed for all forms of pollution, due to the NOsub2/sub hotspot over this area that is attributed to NOsubix/i/sub emissions from industries and vehicle emissions from the Johannesburga??Pretoria megacity. However, a comparison of source strengths indicated that household combustion as well as savannah and grassland fires were the most significant sources of eBC, particularly during winter and spring months, while coal-fired power stations, pyrometallurgical smelters and traffic contribute to eBC mass concentration levels year round./p.
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机译:> >摘要。继二氧化碳(CO 2 )之后,气溶胶黑碳(BC)被认为是导致全球变暖的第二大重要因素。本文介绍了从南非内部进行连续测量的三个地点(即埃兰兹方丹,韦勒贡德和马里卡纳)以及元素碳(EC)(确定的)收集的等效黑碳(eBC)数据(来自光吸收法) (通过进化碳法)五个月的数据,每个月一次在过滤器上收集样品并离线分析,分别是Louis Trichardt,Skukuza,Vaal Triangle,Amersfoort和Botsalano。 eBC和EC空间质量浓度分析八个地点的格局表明,南非内部的质量浓度总体上高于发达国家的报告,而且不同来源可能会影响不同地点。背景站点(Welgegund,Louis Trichardt,Skukuza,Botsalano)和受工业活动和/或附近居民区影响的站点(Elandsfontein,Marikana,Vaal Triangle和Amersfoort)的平均eBC或EC浓度范围为0.7至1.1和1.3和1.4 class =“ thinspace”> ?μg class =“ thinspace”> m a ?? 3 。在收集连续测量数据的所有三个站点(Elandsfontein,Marikana和Welgegund)观察到相似的季节性模式,从6月到10月测得的eBC浓度最高,表明在寒冷的冬季(几内亚? ),以及干旱季节(5月至10月中旬)的大草原和草原火灾。 Elandsfontein,Marikana和Welgegund的eBC的昼夜模式表明清晨和傍晚的浓度最高,而白天则最低。从模式中可以推断出,对于Marikana和Welgegund来说,家庭燃烧以及大草原和草原大火分别是最重要的来源。 对Elandsfontein的可能贡献来源进行了更详细的探讨,五个主要来源被确定为燃煤电厂,火法冶炼厂,交通,家庭燃烧以及大草原和草原火灾。由于该区域的NO 2 热点归因于NO x ,经常将姆普马兰加高原的工业归咎于各种形式的污染约翰内斯堡比勒陀利亚特大城市的工业排放和车辆排放。但是,对源强度的比较表明,家庭燃烧以及热带草原和草原大火是eBC的最主要来源,尤其是在冬季和春季月份,而燃煤发电厂,火法冶炼厂和交通流量对eBC的质量浓度水平有贡献。一年四季。。
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