Headwater streams and catchments across the conterminous United States

Data available in Zenodo via doi: 10.5281/zenodo.16318572 Headwater streams play critical roles in hydrologic and biogeochemical processes and functions, yet their spatial distribution and land cover context remain poorly understood at continental scales. Building from a high-resolution conterminous United States (CONUS) hydrography network dataset, we quantified the spatial extent, density, and upstream catchment characteristics of headwater stream segments across the CONUS. We identified approximately 8.4 million kilometers of headwater streams – 77% of the total stream network is comprised of headwaters – nearly double the total length represented in prior estimates. Stream density varied fivefold across regions, from under 1 km•km-² in arid basins to over 5 km•km-² in humid, forested areas. Over 73% of the CONUS landmass drains from headwater streams. The majority of headwater stream length occurred in forested and cultivated catchments across the CONUS, while substantial regional differences were evident for headwater stream distribution in other land cover classes (e.g., wetlands, urban areas, shrublands, and herbaceous-dominated catchments). Our analysis provides the first continental-scale, high-resolution characterization of headwater streams, offering new insights and opportunities for hydrologic modeling, ecological assessments, and environmental policy. Plain Language Summary: Headwater streams—the small streams at the origins of rivers—are essential for clean water and healthy ecosystems. But because they’re small and often hidden, they've been hard to identify and delineate nationwide due to inconsistent data and definitions. This study combined existing data sets and added new analyses to consistently map headwater streams and the drainages across the conterminous United States (CONUS). Analysis of these data revealed that headwater streams are nearly twice as widespread as previously shown, totaling 8.4 million kilometers. We also found that most land drains to a headwaters stream, and most stream kilometers are headwaters. Human alteration of the landscape for agriculture and urbanization also reduces the prevalence of headwater streams. This is the first time headwater streams have been identified on available maps with such granularity and spatially explicit detail across the CONUS, offering a powerful new tool to guide conservation and policy.

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