2016-2019年堪萨斯州西部高平原playa水状态变化的模式和驱动因素研究

M. Bowen, Luis Lepe
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摘要

Playa湿地广泛分布在美国中部的高平原地区,提供了一系列的生态系统服务,如地下水补给、地表水储存和湿地栖息地。尽管playa是必不可少的资源,但很少有研究调查了playa储水的可变性和控制。该项目的目的是确定playa和流域形态,流域土地覆盖和降水模式如何影响playa储水的时间和持续时间。该项目的重点是分布在堪萨斯州西部10个县地区的92个playas。在GIS环境下计算Playa和流域形态,并根据Playa和流域表面积划分四分位数。流域耕作指数(即耕地与草地的百分比)是使用国家农业统计局提供的2016年、2017年、2018年和2019年耕地数据层确定的,并分为耕地(耕地超过75%)、草地(草地超过75%)或混合。2016-2019年的月度降水数据来自奥克利22S高平原区域气候中心气象站。通过对Planet Explorer (www.planet.com)提供的分辨率为3.7米的四波段卫星图像进行视觉检查,Playa 2016-2019年的水状况每月被分类为静水或干燥(即没有可见的静水)。Playa的水状况受多种因素的影响,包括Playa和流域形态、流域土地覆盖和降水模式。较大的playas比较小的playas有更大的流域和更频繁的静水,持续时间更长。农田流域的Playas比草地流域的Playas储水更频繁,储水时间更长,尽管差异在统计上不显著。playas内的积水与月降水量呈正相关,反映了对降水模式的短期响应,与playas大小或流域土地覆盖无关。对盐湖水状况控制最强烈的是盐湖面积、月降水量和流域面积。playa是高平原的重要资源,提供一系列依赖于playa储水能力的生态系统服务。Playa的功能受到耕地扩张、气候变化、Playa和流域改造的持续威胁。为了维持堪萨斯州的playa功能,应集中精力保护较大的草地playas,并减少农田流域playas的沉积物输入。
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Examining patterns and drivers of variability in playa water status on the High Plains of western Kansas, 2016–2019
Playa wetlands are widely distributed across the High Plains of the central United States, providing a range of ecosystem services, such as groundwater recharge, surface water storage, and wetland habitat. Although playas are essential resources, few studies have examined the variability and controls on playa water storage. The purpose of this project is to determine how playa and watershed morphology, watershed land cover, and precipitation patterns affect timing and duration of water storage in playas. This project focuses on 92 playas distributed throughout a 10-county region in western Kansas. Playa and watershed morphology were calculated in a GIS environment and classified into quartiles based on playa and watershed surface area. Watershed tilled index (i.e., percent cropland versus grassland) was determined using 2016, 2017, 2018, and 2019 Cropland Data Layers available from the National Agricultural Statistics Service and classified as either cropland (more than 75% cropland), grassland (more than 75% grassland), or mixed. Monthly precipitation data for 2016–2019 were compiled from the Oakley 22S High Plains Regional Climate Center weather station. Playa water status for 2016–2019 was classified monthly as either standing water or dry (i.e., no visible standing water) by visually examining four-band satellite imagery with 3.7 m resolution available from Planet Explorer (www.planet.com). Playa water status is influenced by a combination of factors, including playa and watershed morphology, watershed land cover, and precipitation patterns. Larger playas have larger watersheds and standing water more frequently and for longer periods than smaller playas. Playas in cropland watersheds store water more frequently and for longer periods than playas in grassland watersheds, though differences are not statistically significant. Standing water within playas is positively correlated with monthly precipitation and reflects a short-term response to precipitation patterns, regardless of playa size or watershed land cover. The strongest controls on playa water status are playa area, monthly precipitation, and watershed area. Playas are critical resources for the High Plains, providing a range of ecosystem services that are dependent upon the playa’s ability to store water. Playa functions are under continued threat from cropland expansion, climate change, and playa and watershed modifications. To sustain playa functions in Kansas, efforts should focus on conserving larger grassland playas and reducing sediment inputs to playas in cropland watersheds.
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