West Virginia Rural Health Research Center, Department of Community Medicine, West Virginia University, Morgantown, West Virginia 26506, USA.
J Rural Health. 2010 Fall;26(4):383-91. doi: 10.1111/j.1748-0361.2010.00305.x.
To conduct an assessment of rural environmental pollution sources and associated population mortality rates.
The design is a secondary analysis of county-level data from the Environmental Protection Agency (EPA), Department of Agriculture, National Land Cover Dataset, Energy Information Administration, Centers for Disease Control and Prevention, the US Census, and others. We described the types of pollution sources present in metropolitan and nonmetropolitan counties and examined the associations between these sources and rates of all-cause, cardiovascular, respiratory, and cancer mortality while controlling for age, race, and other covariates.
Rural counties had 65,055 EPA-monitored pollution discharge sites. As expected, rural counties had significantly greater exposure to potential agriculture-related pollution. Regression models specific to rural counties indicated that greater density of water pollution sources was significantly associated with greater total and cancer mortality. Rural air pollution sources were associated with greater cancer mortality rates. Rural coal mining areas had higher total, cancer, and respiratory disease mortality rates. Agricultural production was generally associated with lower mortality rates. Greater levels of human development were significantly related to higher adjusted total and cancer mortality.
The association between pollution sources and mortality risk is not a phenomenon limited to metropolitan areas. Results carry policy implications regarding the need for effective environmental standards and monitoring. Further research is needed to better understand the types and distributions of pollution in rural areas, and the health consequences that result.
评估农村环境污染源及其相关人口死亡率。
本研究是对美国环保署(EPA)、农业部、国家土地覆盖数据集、能源信息管理局、疾病控制与预防中心、美国人口普查局等机构提供的县级数据进行二次分析。我们描述了大都市和县的污染来源类型,并在控制年龄、种族和其他协变量的情况下,研究了这些来源与全因、心血管、呼吸和癌症死亡率之间的关联。
农村县有 65055 个 EPA 监测的污染排放点。正如预期的那样,农村县受到与潜在农业相关的污染的影响显著更大。针对农村县的回归模型表明,水污染来源密度越大,总死亡率和癌症死亡率越高。农村空气污染源与更高的癌症死亡率有关。农村采煤区的总死亡率、癌症死亡率和呼吸疾病死亡率更高。农业生产通常与较低的死亡率相关。更高水平的人类发展与更高的总死亡率和癌症死亡率显著相关。
污染来源与死亡率风险之间的关联不仅限于大都市地区。研究结果对制定有效的环境标准和监测提出了政策建议。需要进一步研究以更好地了解农村地区的污染类型和分布,以及由此产生的健康后果。
