Long-term trends in climate and hydrology in an agricultural, headwater watershed of central Pennsylvania, USA

Long-term trends in climate and hydrology in an agricultural, headwater watershed of central Pennsylvania, USA

•Analysis of long-term climatic and hydrologic trends in a small agricultural basin.•Warm and growing seasons extended with a shortening of cold seasons.•Increased annual precipitation and greater intensity of daily and hourly rainfall.•Decreased streamflow, especially during summertime and mid-wint...

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Bibliographic Details
Published in:Journal of hydrology. Regional studies 2015-09, Vol.4 (PB), p.713-731
Main Authors: Lu, Haiming, Bryant, Ray B., Buda, Anthony R., Collick, Amy S., Folmar, Gordon J., Kleinman, Peter J.A.
Format: Article
Language:eng
Subjects:
agriculture
climate change
long-term trends
precipitation
streamflow
temperature
water resources
watershed
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Summary:•Analysis of long-term climatic and hydrologic trends in a small agricultural basin.•Warm and growing seasons extended with a shortening of cold seasons.•Increased annual precipitation and greater intensity of daily and hourly rainfall.•Decreased streamflow, especially during summertime and mid-winter periods.•Duration of hydrological drought increased while snow-melt flood events decreased. The WE-38 Experimental Watershed, which is a small (7.3 km2) basin in the Ridge and Valley physiographic region of east-central Pennsylvania. We used non-parametric Mann-Kendall tests to examine long-term (1968 to 2012) hydroclimatic (precipitation, temperature, streamflow) trends in WE-38 in the context of recent climate change across northeastern US. Annual mean temperatures in WE-38 increased 0.38°C per decade, leading to an expansion of the growing season (+2.8 days per decade) and a contraction of frost days (-3.6 days per decade). Consistent with increased temperatures, annual actual evapotranspiration rose significantly (+37.1mm per decade) over the study period. Precipitation also trended upward, with October experiencing the most significant increases in monthly total rainfall (+8.2mm per decade). While augmented October precipitation led to increased October streamflow (+5.0mm per decade), the trend in WE-38 streamflow was downward, with the most significant declines in July (-1.2mm per decade) and February (-7.5mm per decade). Declines in summertime streamflow also increased the duration of hydrological droughts (maximum consecutive days with streamflow < 10th percentile) by 1.9 days per decade. While our findings suggest some challenges for producers and water resource managers, most notably with increased fall rainfall and runoff, some changes such as enhanced growing seasons can be viewed positively, at least in the near term.
ISSN:2214-5818
2214-5818