The Flood Risk and Water Supply Implications of Seasonal Precipitation Reconstructions in Northern California

Q3 Agricultural and Biological Sciences San Francisco Estuary and Watershed Science Pub Date : 2023-03-24 DOI:10.15447/sfews.2023v21iss1art2
I. Howard, D. Stahle, M. Torbenson, D. Granato-Souza, C. Poulsen
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引用次数: 1

Abstract

Subsets of annual and sub-annual tree-ring chronologies are used to reconstruct seasonal precipitation totals in northern California. The specific seasons selected for reconstruction are based on the strongest monthly precipitation signals recorded in the tree-ring data. Earlywood width of gray pine is best correlated with Oct-Dec precipitation at the onset of the wet season. Latewood width of ponderosa pine is correlated with Mar–Apr totals at the end of the wet season. These earlywood and latewood width chronologies are used to develop separate reconstructions of precipitation for the “autumn” (Oct–Dec) and “spring” (Mar–Apr) seasons. Total ring-width chronologies of blue oak are highly correlated with October–April precipitation totals and are used to reconstruct precipitation for the “wet season.” We then computed one additional skillful reconstruction by subtracting the reconstructed spring totals from the wet season precipitation estimates (i.e., “winter” [Oct–Feb]). We compare the winter and spring reconstructions because they are well calibrated and provide an interesting long-term perspective on the interaction of winter–spring precipitation amounts near March 1, when important reservoir management decisions are often made. Consecutive wet winter and very wet spring precipitation anomalies increased after 1950 in the instrumental and reconstructed time-series, often coinciding with the largest spring streamflow and flood events recorded on the American River at Folsom. Once the sub-annual tree-ring data can be improved, it may be possible to develop discrete reconstructions of early-, middle-, and late-season precipitation for the past 250 to 500 years, to help define natural variability and anthropogenic forcing of seasonal precipitation totals in California.
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北加州季节性降水重建的洪水风险和供水影响
年和亚年树木年轮年表的子集用于重建加利福尼亚州北部的季节性降水总量。选择用于重建的特定季节是基于树木年轮数据中记录的最强月降水信号。灰松的Earlywood宽度与雨季开始时10月至12月的降水量相关性最好。黄松的侧木宽度与雨季结束时3月至4月的总宽度相关。这些早木和晚木宽度年表用于分别重建“秋季”(十月至十二月)和“春季”(三月至四月)的降水量。蓝橡树的总环宽年表与10月至4月的总降水量高度相关,用于重建“雨季”的降水量。然后,我们通过从雨季降水量估计值中减去重建的春季总降水量(即“冬季”[10月至2月]),计算出一个额外的巧妙重建。我们比较了冬季和春季的重建,因为它们经过了很好的校准,并为3月1日附近的冬季-春季降水量的相互作用提供了一个有趣的长期视角,此时通常会做出重要的水库管理决策。1950年后,在仪器和重建的时间序列中,连续潮湿的冬季和非常潮湿的春季降水异常增加,通常与福尔索姆美国河上记录的最大春季流量和洪水事件相吻合。一旦亚年度树木年轮数据得到改进,就有可能对过去250至500年的早、中、晚季降水量进行离散重建,以帮助定义加利福尼亚州季节降水总量的自然变异性和人为强迫。
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来源期刊
San Francisco Estuary and Watershed Science
San Francisco Estuary and Watershed Science Environmental Science-Water Science and Technology
CiteScore
2.90
自引率
0.00%
发文量
24
审稿时长
24 weeks
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