干旱环境下4种灌木对不同水源组分的响应

A. Wagner, D. Devitt, B. Bird, R. Jasoni, J. Arnone
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引用次数: 1

摘要

大盆地(美国)的灌木物种依靠降水和/或地下水补给的土壤水来生存和生长。气候变暖和可能的流域调水可能会改变这些植物可用水的数量和时间。本研究的目的是量化四种共生灌木物种,即大鼠尾草(Artemisia tridentata)、兔毛灌木(erameria nauseosus)、油木(Sarcobatus vermiculatus)和荫鳞灌木(Atriplex contifolia)在生长季节从不同来源(降水、土壤渗透带和/或地下水)获取水分的程度。土壤盐度在1.5 m以上随深度呈线性增加,饱和提取液的盐度在0.84 ~ 31.70 dSm-1之间(R2=0.78, p<0.001)。生长期间土壤水分随深度和时间的变化表明,所有树种都从降水补给中获取土壤水分。生长期的蒸散总量比总降水量多137毫米,这表明植物也利用了渗透带深处和/或地下水(特别是渗透植物油木)储存的水分。土壤溶液中的Delta18O在100 cm以上随深度呈线性下降(R2=0.80, p<0.001)。油木中的δ ta18o值与渗流带和地下水中较深层的δ ta18o值基本一致。混合模型的结果表明,油木对地下水的依赖从7月的30%下降到9月的2%,主要转向渗透带(180 cm深)的深层土壤水(7月为38%,9月为97%)。我们的数据表明,我们站点的四种灌木物种能够共存是因为它们对有效土壤水分的空间、时间和生理利用不同,反映了基于对降水的不同响应、在更深的深度提取水的能力和对土壤盐分水平升高的不同耐受性来获取地下水的可能的水资源分配。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Response of Four Shrub Species to Different Water Source Components in an Arid Environment
Shrubland species in the Great Basin (USA) depend on soil water recharged from precipitation and/or groundwater for survival and growth. Climate warming and possible basin water diversion could alter the amount and timing of water availability to these plants. The objective of this study was to quantify the extent to which each of four co-occurring shrub species, big sage [Artemisia tridentata], rabbitbrush [Ericameria nauseosus], greasewood [Sarcobatus vermiculatus] and shadscale [Atriplex confertifolia)) acquired water from different sources (precipitation, soil vadose zone and/or groundwater) during a growing season. Soil salinity increased linearly with depth over the upper 1.5 m of soil, with salinity ranging from 0.84 to 31.70 dSm-1 in saturation extracts (R2=0.78, p<0.001). Changes in soil water both with depth and time during the growing period indicated that all species accessed soil water from precipitation recharge. Evapotranspiration totals for the growing period exceeded total precipitation by 137 mm, indicating that plants also used water stored deeper within the vadose zone and/or from groundwater (particularly) by the phreatophyte greasewood. Delta18O in the soil solution declined linearly with depth over the upper 100 cm (R2=0.80, p<0.001). Delta18O values in greasewood corresponded closely to Delta18O values measured deeper in the vadose zone and groundwater. Output from a mixing model indicated a decrease in groundwater reliance for greasewood from 30% in July to 2% in September, with a major shift to deeper soil water in the vadose zone (180 cm depth) (38% in July to 97% in September). Our data suggested that the four shrub species at our site were able to coexist because of their different spatial, temporal, and physiological uses of available soil water, reflecting possible water resource partitioning based on differences in response to precipitation, ability to extract water at deeper depths and variable tolerance to elevated levels of soil salinity to access groundwater.
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