Relationship between isotope ratios in precipitation and stream water across watersheds of the National Ecological Observation Network

Author:

Butler Zachariah12ORCID,Good Stephen12ORCID,Haagsma Marja2,Segura Catalina13,Hu Huancui4

Affiliation:

1. Water Resources Graduate Program Oregon State University (OSU) Corvallis Oregon USA

2. Biological & Ecological Engineering OSU Corvallis Oregon USA

3. Forest Engineering, Resources & Management OSU Corvallis Oregon USA

4. Atmospheric Sciences and Global Change Division Pacific Northwest National Laboratory (PNNL) Richland Washington USA

Abstract

AbstractThe timescales associated with precipitation moving through watersheds reveal processes that are critical to understanding many hydrologic systems. Measurements of environmental stable water isotope ratios (δ2H and δ18O) have been used as tracers to study hydrologic timescales by examining how long it takes for incoming precipitation tracers become stream discharge, yet limited measurements both spatially and temporally have bounded macroscale evaluations so far. In this observation driven study across North American biomes within the National Ecological Observation Network (NEON), we examined δ18O and δ2H stable water isotope in precipitation (δP) and stream water (δQ) at 26 co‐located sites. With an average 54 precipitation samples and 139 stream water samples per site collected over 2014–2022, assessment of local meteoric water lines and local stream water lines showed geographic variation across North America. Taking the ratio of estimated seasonal amplitudes of δP and δQ to calculate young water fractions (Fyw), showed a Fyw range from 1% to 93% with most sites having Fyw below 20%. Calculated mean transit times (MTT) based on a gamma convolution model showed a MTT range from 0.10 to 13.2 years, with half of the sites having MTT estimates lower than 2 years. Significant correlations were found between the Fyw and watershed area, longest flow length, and the longest flow length/slope. Significant correlations were found between MTT and site latitude, longitude, slope, clay fraction, temperature, precipitation magnitude, and precipitation frequency. The significant correlations between water timescale metrics and the environmental characteristics we report share some similarities with those reported in prior studies, demonstrating that these quantities are primarily driven by site or area specific factors. The analysis of isotope data presented here provides important constraints on isotope variation in North American biomes and the timescales of water movement through NEON study sites.

Funder

National Science Foundation

Office of Science

Publisher

Wiley

Subject

Water Science and Technology

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