石油和天然气开发对美国科罗拉多河上游盆地粉尘排放潜力的影响

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Gayle L. Tyree, Adrian Chappell, Miguel L. Villarreal, Saroj Dhital, Michael C. Duniway, Brandon L. Edwards, Akasha M. Faist, Travis W. Nauman, Nicholas P. Webb
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引用次数: 0

摘要

旱地的风蚀和粉尘排放对生态系统功能和人类健康造成严重影响。土壤板结和植物等不可侵蚀的粗糙元素的遮挡可自然减少风蚀。降低地表粗糙度和扰动土壤表面的土地使用会显著增加粉尘排放。在美国西部,开采石油和天然气是一种常见的、日益增长的土地利用方式,这种方式会清除植被和其他粗糙元素,以建造井场和未铺设路面的通路,从而造成成千上万块小(1-4 公顷)、不连续的未受保护的土壤斑块。在这里,我们使用基于卫星反照率的模型来评估石油/天然气活动对科罗拉多河上游盆地(UCRB)地表粗糙度的影响,该地区石油和天然气开发密集,我们还模拟了地表粗糙度的变化如何影响风化沉积物通量和粉尘排放。我们还研究了区域干旱如何影响地表粗糙度对井场和通道的响应。在研究区域的大部分地区,石油/天然气活动降低了地表粗糙度,增加了地貌尺度上的模拟风化沉积物通量,导致每年 10 139 千克的粉尘适度增加,相对于该区域观测到的单次区域性粉尘事件产生的粉尘负荷而言,这个数字很小,但对下风向的影响可能很大。石油/天然气活动造成的地表粗糙度降低程度在不同土地覆被类型中基本一致。不过,在一年生牧草和草类覆盖率较高的盆地部分地区,石油/天然气活动与较大的地表粗糙度和较小的潜在粉尘排放有关。在受干扰和未受干扰的地点,干旱会降低地表粗糙度,但石油/天然气活动和干旱对地表粗糙度没有交互影响。这些结果表明,石油/天然气活动可能会增加沉积物通量,并很可能会导致 UCRB 地形的粉尘排放。了解干旱和土地利用变化是如何导致粉尘排放的,将有助于减轻风蚀和粉尘迁移的不良影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Oil and gas development influences potential for dust emission from the Upper Colorado River Basin, USA

Oil and gas development influences potential for dust emission from the Upper Colorado River Basin, USA

Wind erosion and dust emission from drylands have large consequences for ecosystem function and human health. Wind erosion is naturally reduced by soil crusting and sheltering by non-erodible roughness elements such as plants. Land uses that reduce surface roughness and disturb the soil surface can dramatically increase dust emission. Extraction of oil and gas is a common and growing land use in the western United States (US) that removes vegetation and other roughness elements for construction of well pads and unpaved access roads, resulting in thousands of small (1–4 ha), discrete patches of unprotected soil. Here, we use a satellite albedo-based model to assess the effect of oil/gas activity on surface roughness in the Uinta-Piceance Basin, an area of the Upper Colorado River Basin (UCRB) with dense oil and natural gas development and modelled how the change in surface roughness could impact aeolian sediment flux and dust emission. We also investigated how regional drought influences the response of surface roughness to well pads and access roads. Oil/gas activity reduced surface roughness and increased modelled aeolian sediment flux at the landscape scale across much of the study region, resulting in a modest increase of 10 139 kg of dust per year, which is small relative to dust loads from a single regional dust event observed in the region, but downwind impact could be significant. The magnitude of surface roughness reductions by oil/gas activity was generally consistent among land cover types. However, in parts of the basin that had high cover of annual forbs and grasses, oil/gas activity was associated with larger surface roughness and smaller potential dust emission. Drought decreased surface roughness across disturbed and undisturbed sites, but there was no interactive effect of oil/gas activity and drought on surface roughness. These results suggest that oil/gas activity may increase sediment fluxes and likely contributes to dust emission from landscapes in the UCRB. Understanding how drought and land use change contribute to dust emissions will benefit mitigation of undesirable impacts of wind erosion and dust transport.

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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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