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Title: Diversity in reservoir surface morphology and climate limits ability to compare and upscale estimates of greenhouse gas emissions

Journal Article · · Science of the Total Environment
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Greenhouse gas (GHG) emissions from reservoirs are influenced by many factors, including the reservoir's morphology, watershed, and local climate. Failure to account for diversity in waterbody characteristics contributes to uncertainties in estimates of total waterbody GHG emissions and limits the ability to extrapolate patterns from one set of reservoirs to another. Hydropower reservoirs are of particular interest given recent studies that show variable – and sometimes very high – measurements and estimates of emissions. This study uses characteristics describing reservoir surface morphology and location within the watershed to identify US hydropower reservoir archetypes that represent the diversity of reservoir features relevant to GHG emissions. The majority of reservoirs are characterized by smaller watersheds, smaller surface areas, and lower elevations. Downscaled climate projections of temperature and precipitation mapped onto the archetypes show large variability in hydroclimate stresses (i.e., changes in precipitation and air temperature) within and across different reservoir types. Average air temperatures are projected to increase for all reservoirs by the end of the century, relative to historical conditions, while projected precipitation is much more variable across all archetypes. Variability in projected climate suggests that despite similar morphology-related traits, reservoirs may experience different shifts in climate, potentially resulting in a divergence in carbon processing and GHG emissions from historical conditions. Low representation in published GHG emission measurements among several reservoir archetypes (roughly 14 % of the population of hydropower reservoirs), highlights a potential limit to the generalization of current measurements and models. This multi-dimensional analysis of waterbodies and their local hydroclimate provides valuable context for the growing body of GHG accounting literature and ongoing empirical and modeling studies.

Research Organization:
Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Renewable Power Office. Water Power Technologies Office
Grant/Contract Number:
AC05-00OR22725
OSTI ID:
1985545
Alternate ID(s):
OSTI ID: 1986225
Journal Information:
Science of the Total Environment, Journal Name: Science of the Total Environment Vol. 893 Journal Issue: C; ISSN 0048-9697
Publisher:
ElsevierCopyright Statement
Country of Publication:
Netherlands
Language:
English

References (26)

Anthropogenically driven climate and landscape change effects on inland water carbon dynamics: What have we learned and where are we going? journal July 2022
Patterns and Variation of Littoral Habitat Size Among Lakes journal October 2021
The ecosystem size and shape dependence of gas transfer velocity versus wind speed relationships in lakes journal December 2013
Greenhouse gas emissions from lakes and impoundments: Upscaling in the face of global change: GHG emissions from lakes and impoundments journal March 2018
River dam impacts on biogeochemical cycling journal February 2020
Response of water temperatures and stratification to changing climate in three lakes with different morphometry journal January 2017
Estimating the volume and age of water stored in global lakes using a geo-statistical approach journal December 2016
Effects of turbulence on carbon emission in shallow lakes journal July 2018
LAGOS‐US LOCUS v1.0: Data module of location, identifiers, and physical characteristics of lakes and their watersheds in the conterminous U.S. journal August 2021
Getting lost tracking the carbon footprint of hydropower journal July 2022
Half of global methane emissions come from highly variable aquatic ecosystem sources journal April 2021
Archetypal Analysis journal November 1994
Probabilistic archetypal analysis journal June 2015
Downscaled Climate Projections Suitable for Resource Management journal September 2013
Classification of US Hydropower Dams by their Modes of Operation: Hydropower Modes of Operation journal February 2016
Greenhouse gas emissions from Baltic coastal lakes journal February 2021
Lake morphometry predicts the degree of habitat coupling by a mobile predator journal August 2009
A global inventory of lakes based on high-resolution satellite imagery journal September 2014
High‐resolution mapping of the world's reservoirs and dams for sustainable river‐flow management
  • Lehner, Bernhard; Liermann, Catherine Reidy; Revenga, Carmen
  • Frontiers in Ecology and the Environment, Vol. 9, Issue 9 https://doi.org/10.1890/100125
journal May 2011
Hydropower's Biogenic Carbon Footprint journal September 2016
A synthesis of carbon dioxide and methane dynamics during the ice-covered period of northern lakes: Under-ice CO journal April 2018
Greenhouse Gas Emissions from Reservoir Water Surfaces: A New Global Synthesis journal October 2016
Methane ebullition and diffusion from northern ponds and lakes regulated by the interaction between temperature and system productivity: Productivity regulates methane lake flux journal July 2016
Year‐2020 Global Distribution and Pathways of Reservoir Methane and Carbon Dioxide Emissions According to the Greenhouse Gas From Reservoirs (G‐res) Model journal June 2021
How Dams Vary and Why It Matters for the Emerging Science of Dam Removal journal January 2002
Spatiotemporal patterns in methane flux and gas transfer velocity at low wind speeds: Implications for upscaling studies on small lakes: SPATIOTEMPORAL PATTERNS IN METHANE FLUX journal June 2016

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54 ENVIRONMENTAL SCIENCES
Archetype analysis
Climate projections
Hydropower reservoirs