Assessing the Convective Environment over Irrigated and Non-Irrigated Land Use with Land-Atmosphere Coupling Metrics: Results from GRAINEX

Daniel Whitesel, Rezaul Mahmood, Chris Phillips, Joshua Roundy, E. Rappin, Paul Flanagan, J. Santanello, U. Nair, R. Pielke
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Abstract

Land use land cover change affects weather and climate. This paper quantifies land-atmosphere interactions over irrigated and non-irrigated land uses during the Great Plains Irrigation Experiment (GRAINEX). Three coupling metrics were used to quantify some land-atmosphere interactions as it relates to convection. They include: the Convective Triggering Potential (CTP) and Low-Level Humidity Index (HIlow), and the Lifting Condensation Level (LCL) Deficit. These metrics were calculated from the rawinsonde data obtained from the Integrated Sounding Systems (ISS) for Rogers Farm and York Airport along with soundings launched from the Doppler on Wheels (DOW) sites. Each metric was categorized by Intensive Observation Period (IOP), cloud cover, and time of day. Results show that with higher CTP, lower HIlow, and lower LCL Deficit, conditions were more favorable for convective development over irrigated land use. When metrics were grouped and analyzed by IOP, compared to non-irrigated land use, HIlow was found to be lower for irrigated land use suggesting favorable conditions for convective development. Furthermore, when metrics were grouped and analyzed by clear and non-clear days, CTP values were higher over irrigated cropland compared to non-irrigated land use. In addition, compared to non-irrigated land use, LCL Deficit during the peak growing season was lower over irrigated land use, suggesting favorable condition for convection. It is found that with the transition from the early summer to the mid/peak summer and increased irrigation, the environment became more favorable for convective development over irrigated land use. Finally, it was found that regardless of background atmospheric conditions, irrigated land use provided a favorable environment for convective development.
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利用陆地-大气耦合指标评估灌溉和非灌溉土地利用上的对流环境:来自 GRAINEX 的结果
土地利用和土地覆被的变化会影响天气和气候。本文量化了大平原灌溉试验(GRAINEX)期间灌溉和非灌溉土地利用的土地-大气相互作用。本文使用三个耦合指标来量化与对流有关的一些土地-大气相互作用。它们包括:对流触发潜势 (CTP) 和低层湿度指数 (HIlow) 以及升凝结水平 (LCL) 赤字。这些指标是根据从罗杰斯农场和约克机场的综合探测系统(ISS)获得的原始探测仪数据,以及从车载多普勒(DOW)站点发射的探测仪数据计算得出的。结果表明,当 CTP 较高、HIlow 较低和 LCL 赤字较低时,灌溉地的对流发展条件更为有利。当按 IOP 对指标进行分组和分析时,发现与非灌溉土地利用相比,灌溉土地利用的 HIlow 更低,这表明对流发展的条件更有利。此外,当按晴天和非晴天对指标进行分组和分析时,与非灌溉土地利用相比,灌溉耕地的 CTP 值更高。此外,与非灌溉土地利用相比,灌溉土地利用在生长旺季的 LCL 赤字值较低,表明对流条件有利。研究发现,随着初夏向盛夏过渡以及灌溉的增加,灌溉土地使用的环境更有利于对流的发展。最后,研究发现,无论背景大气条件如何,灌溉用地都为对流发展提供了有利环境。
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