Study identifies gaps in monitoring of streams
Research focuses on placement of stream gauges -- instruments that keep
tabs on how much water is flowing through rivers and streams

Date:
April 25, 2022
Source:
University at Buffalo
Summary:
'We find that gauges are located disproportionally in large,
perennial rivers draining more human-occupied watersheds,' the
authors write in their paper, which will be published on April
25 in Nature Sustainability. 'Gauges are sparsely distributed in
protected areas and rivers characterized by non-perennial flow
regimes, both of which are critical to freshwater conservation
and water security concerns.'


FULL STORY ==========================================================================
A new study identifies gaps in data on streams around the world,
highlighting potential priorities for future installation of monitoring
tools.


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The research looks at stream gauges --instruments that record the volume
of water flowing through a specific location on a river or stream.

The analysis focused on stream gauges included in two global datasets, including the large and widely used Global Streamflow Indices and Metadata Archive, a key source of information for hydrology research. To assess
whether certain types of waterways were overrepresented in these global
gauging networks, scientists combined data on the placement of over
32,000 gauges in the datasets with information on the characteristics
of streams and their surrounding landscapes.

"We find that gauges are located disproportionally in large, perennial
rivers draining more human-occupied watersheds," the authors write
in their paper, which will be published on April 25 in Nature
Sustainability. "Gauges are sparsely distributed in protected areas
and rivers characterized by non- perennial flow regimes, both of which
are critical to freshwater conservation and water security concerns."
"As we respond to climate change and work toward conservation, it's
important to recognize that the information we have from stream gauges
is not completely representative," says Corey A. Krabbenhoft, PhD,
the study's senior author. She is a research assistant professor of
biological sciences in the UB College of Arts and Sciences, and a
postdoctoral associate in the Department of Fisheries, Wildlife and Conservation Biology at the University of Minnesota.

The study was conducted by an interdisciplinary team led by Krabbenhoft
and primary authors George H. Allen, PhD, at Texas A&M University,
Peirong Lin, PhD, at Peking University, and Julian D. Olden, PhD, at
the University of Washington.



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The datasets used do not include every stream gauge in the world: Gauges
in regions that do not share data publicly will be missing, along with
data from streams that are monitored independently by organizations that
do not integrate findings into public databases. Still, the number of
stream gauges covered in the study is large, and comparable to the extent
of datasets typically used in analyses of global hydrology research, Krabbenhoft notes. Identifying biases in the placement of these gauges
is vital as information from such datasets underpins important knowledge regarding the world's freshwater resources.

"This sort of data is the foundation for a lot of aquatic science. Data
on where water is and what it's doing and how it's flowing is very fundamental," Krabbenhoft says.

She offers the case of non-perennial rivers as an example of why it's
important to call attention to gaps in stream gauge data.

"One disparity we see is in the monitoring of non-perennial rivers,
which periodically dry up and stop flowing," she says. "We need more
data on these types of streams. There are plenty of places across the
world where we expect the number of streams that periodically go dry
to increase in the future, and in some cases these streams are part of
larger river networks people rely on for their drinking water.

"If the number of non-perennial streams increases in the future, having a
good understanding of how they function, when they stop flowing and how
long they stop flowing is critical information for being able to adjust
water management priorities and understand how environmental change is impacting aquatic ecosystems worldwide." The research was a product of
the Dry Rivers Research Coordination Network, which was supported by
funding from the U.S. National Science Foundation to Daniel C. Allen,
PhD, at Penn State.

The study included researchers from UB; the University of Minnesota;
Texas A&M University; Peking University; the University of Washington;
Idaho State University; Penn State; The University of Melbourne; Duke University; the U.S.

Environmental Protection Agency; Flinders University; the University of
Kansas; the University of California, Santa Cruz; INRAE, France's National Research Institute for Agriculture, Food and Environment; Kansas State University; the University of Alabama; Virginia Tech; U.S. Geological
Survey; Indiana University Bloomington; the Joint Research Centre of
the European Commission, Ispra, Italy; and the Swedish University of Agricultural Sciences.


========================================================================== Story Source: Materials provided by University_at_Buffalo. Original
written by Charlotte Hsu.

Note: Content may be edited for style and length.


========================================================================== Journal Reference:
1. Corey A. Krabbenhoft, George H. Allen, Peirong Lin, Sarah E. Godsey,
Daniel C. Allen, Ryan M. Burrows, Amanda G. DelVecchia, Ken
M. Fritz, Margaret Shanafield, Amy J. Burgin, Margaret A. Zimmer,
Thibault Datry, Walter K. Dodds, C. Nathan Jones, Meryl C. Mims,
Catherin Franklin, John C. Hammond, Sam Zipper, Adam S. Ward, Katie
H. Costigan, Hylke E. Beck, Julian D. Olden. Assessing placement
bias of the global river gauge network. Nature Sustainability,
2022; DOI: 10.1038/s41893-022-00873-0 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2022/04/220425121051.htm

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