Developing a standard approach for assessing the hydromorphology of lakes in Europe

Boon, Philip J.; Argillier, Christine; Boggero, Angela; Ciampittiello, Marzia; England, Judy; Peterlin, Monika; Radulović, Snežana; Rowan, John S.; Soszka, Hanna; Urbanič, Gorazd

doi:10.1002/aqc.3015

“…Methodological standards have been developed to support the implementation of the Water Framework Directive—A major policy initiative focused on quantifying and improving water quality for European lakes, rivers, and coasts (Boon et al., 2019). The European Standard EN 16039:2011 provides methods for assessing lake morphology and gives the shoreline development index as a metric that should be calculated as part of standard hydromorphological assessments, and also optionally for classifying lakes within typologies meant to ensure fair comparison of water quality among lakes.…”

Section: Discussionmentioning

confidence: 99%

Problems With the Shoreline Development Index—A Widely Used Metric of Lake Shape

Seekell

¹

,

Cael

²

,

Byström

³

2022

Geophysical Research Letters

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The shoreline development index-The ratio of a lake's shore length to the circumference of a circle with the lake's area-Is a core metric of lake morphometry used in Earth and planetary sciences. In this paper, we demonstrate that the shoreline development index is scale-dependent and cannot be used to compare lakes with different areas. We show that large lakes will have higher shoreline development index measurements than smaller lakes of the same characteristic shape, even when mapped at the same scale. Specifically, the shoreline development index increases by about 14% for each doubling of lake area. These results call into question previously reported patterns of lake shape. We provide several suggestions to improve the application of this index, including a bias-corrected formulation for comparing lakes with different surface areas.Plain Language Summary Lakes vary in shape from nearly perfect circles to the almost comically convoluted. These shapes reflect their geologic (or anthropogenic) origins, and influence within-lake ecological and chemical processes. As a consequence, the shapes of lakes are often compared, both among lakes on Earth and between Earth's lakes and those on other planetary bodies, to provide context when measuring and interpreting other characteristics. In this paper, we show that a widely-used metric of lake shape-The shoreline development index-Is biased and produces false patterns when comparing the shape of lakes with different areas, a common analysis and primary purpose of the metric. When applying the shoreline development index, we suggest: (a) Reporting the scale at which lakes are mapped; (b) when possible, only comparing lakes mapped at the same scale; (c) explicitly considering how bias may impact interpretation of patterns of lake shape; and (d) reporting a bias-corrected or alternative metric.

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“…Methodological standards have been developed to support the implementation of the Water Framework Directive-A major policy initiative focused on quantifying and improving water quality for European lakes, rivers, and coasts (Boon et al, 2019). The European Standard EN 16039:2011 provides methods for assessing lake morphology and gives the shoreline development index as a metric that should be calculated as part of standard hydromorphological assessments, and also optionally for classifying lakes within typologies meant to ensure fair comparison of water quality among lakes.…”

Section: Discussionmentioning

confidence: 99%

Problems with the shoreline development index - a widely used metric of lake shape

Seekell

¹

,

Cael

²

,

Byström

³

2022

Preprint

0

View full text Add to dashboard Cite

The shoreline development index-The ratio of a lake's shore length to the circumference of a circle with the lake's area-Is a core metric of lake morphometry used in Earth and planetary sciences. In this paper, we demonstrate that the shoreline development index is scale-dependent and cannot be used to compare lakes with different areas. We show that large lakes will have higher shoreline development index measurements than smaller lakes of the same characteristic shape, even when mapped at the same scale. Specifically, the shoreline development index increases by about 14% for each doubling of lake area. These results call into question previously reported patterns of lake shape. We provide several suggestions to improve the application of this index, including a bias-corrected formulation for comparing lakes with different surface areas.Plain Language Summary Lakes vary in shape from nearly perfect circles to the almost comically convoluted. These shapes reflect their geologic (or anthropogenic) origins, and influence within-lake ecological and chemical processes. As a consequence, the shapes of lakes are often compared, both among lakes on Earth and between Earth's lakes and those on other planetary bodies, to provide context when measuring and interpreting other characteristics. In this paper, we show that a widely-used metric of lake shape-The shoreline development index-Is biased and produces false patterns when comparing the shape of lakes with different areas, a common analysis and primary purpose of the metric. When applying the shoreline development index, we suggest: (a) Reporting the scale at which lakes are mapped; (b) when possible, only comparing lakes mapped at the same scale; (c) explicitly considering how bias may impact interpretation of patterns of lake shape; and (d) reporting a bias-corrected or alternative metric.

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“…HVMFS (2019), in Swedish) still remain relatively confidential. In addition to these different methods, two European standards have been published (Boon et al, 2019;CEN, 2011CEN, , 2017 to ensure a consistent assessment of the ecological status of water bodies across Europe.…”

Section: Introductionmentioning

confidence: 99%

LHYMO: a new WFD-compliant multimetric index to assess lake hydromorphology and its application to French lakes

Carriere¹,

Reynaud²,

Gay³

et al. 2023

Preprint

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1. Hydromorphology provides a physical framework for aquatic biocenoses. Its condition directly affects the quality of habitats available for fauna and flora and its assessment is therefore required by the EU Water Framework Directive (WFD) to assess the ecological status of lake water bodies. 2. In this study, we developed an index of Lake HYdroMOrphology (LHYMO) to provide a quantitative assessment of the hydromorphological status of natural and non-natural lakes that can be used for the implementation of the WFD and is consistent with CEN standards. 3. This new index addresses the shortage of methods describing adequately hydromorphological alterations on lakes on both hydrology and morphology. LHYMO includes nine metrics related to morphological WFD quality elements (QE) and six metrics related to hydrological WFD QE, all of which considered to support biological elements. The reference conditions were defined for each metric using an original approach: the degree of alteration is measured in relation to the natural characteristics of each lake, relative to a state that ‘would be expected in the absence of disturbances’. 4. Besides its use for regulatory purposes, this index is also an interesting tool to monitor the efficacy of hydromorphological restoration projects or to help target effective conservation measures on lakes.5. Application of this index to 72 French lakes provides the first quantitative and homogeneous assessment of the hydromorphological quality of lakes over a whole territory and gives the first overview of the hydromorphological status of lakes in France, with classification into five classes ranging from ‘high’ to ‘bad’. 6. LHYMO is already operational for large French lakes as it relies mostly on reference datasets available at a national scale, and may also be used in a wider scope through gathering or completing data from other sources.

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Developing a standard approach for assessing the hydromorphology of lakes in Europe

Cited by 14 publications

References 48 publications

Problems With the Shoreline Development Index—A Widely Used Metric of Lake Shape

Problems With the Shoreline Development Index—A Widely Used Metric of Lake Shape

Problems with the shoreline development index - a widely used metric of lake shape

LHYMO: a new WFD-compliant multimetric index to assess lake hydromorphology and its application to French lakes

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