Measuring channel planform change from image time series: A generalizable, spatially distributed, probabilistic method for quantifying uncertainty

Leonard, C.; Legleiter, Carl J.; Lea, Devin M.; Schmidt, John C.

doi:10.1002/esp.4926

Cited by 9 publications

(15 citation statements)

References 68 publications

(110 reference statements)

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“…However, both focused on specific issues, rather than developing broadly applicable techniques. Donovan et al [17] assessed producer's error in the manual delineation process, whereas Lea and Legleiter [54] addressed image registration, which is particularly relevant in change studies that utilize multiple images of a location [55]. While the accuracy of manual digitization is important, manual approaches have practical limitations and cannot be applied over large areas.…”

Section: Importance Of Considering Channel Delineation Accuracymentioning

confidence: 99%

Identifying Factors That Influence Accuracy of Riparian Vegetation Classification and River Channel Delineation Mapped Using 1 m Data

Quackenbush

Stehman

2021

Remote Sensing

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Riparian vegetation delineation includes both the process of delineating the riparian zone and classifying vegetation within that zone. We developed a holistic framework to assess riparian vegetation delineation that includes evaluating channel boundary delineation accuracy using a combination of pixel- and object-based metrics. We also identified how stream order, riparian zone width, riparian land use, and image shadow influenced the accuracy of delineation and classification. We tested the framework by evaluating vegetation vs. non-vegetation riparian zone maps produced by applying random forest classification to aerial photographs with a 1 m pixel size. We assessed accuracy of the riparian vegetation classification and channel boundary delineation for two rivers in the northeastern United States. Overall accuracy for the channel boundary delineation was generally above 80% for both sites, while object-based accuracy revealed that 50% of delineated channel was less than 5 m away from the reference channel. Stream order affected channel boundary delineation accuracy while land use and image shadows influenced riparian vegetation classification accuracy; riparian zone width had little impact on observed accuracy. The holistic approach to quantification of accuracy that considers both channel boundary delineation and vegetation classification developed in this study provides an important tool to inform riparian management.

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Section: Importance Of Considering Channel Delineation Accuracymentioning

confidence: 99%

Identifying Factors That Influence Accuracy of Riparian Vegetation Classification and River Channel Delineation Mapped Using 1 m Data

Quackenbush

Stehman

2021

Remote Sensing

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“…In summary, although the spatial resolution of the datasets, the river positions marked on the map sources and the extent of inundated area of the image sources reflect the methods of data capture, mapping conventions and river stage at the time of acquisition (Fuller et al, 2013), together they provide a good visual impression of the characteristics of planform change over a 175‐year period. However, when quantitative comparisons of channel positions are attempted, these are subject to the above error sources as well as image co‐registration errors introduced during georeferencing (Leonard et al, 2020). Complete error analysis is challenging, but Leonard et al (2020) suggest that where the signal of channel change is large, and the aim is not to quantify the magnitude of volumetric change, a computationally intensive method of uncertainty analysis is probably not needed.…”

Section: Methodsmentioning

confidence: 99%

Biogeomorphic recovery of a river reach affected by mining

Dawson

Gurnell

Lewin

2022

Earth Surf Processes Landf

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Environmental changes are impacting river systems worldwide. These arise from factors such as flood magnitude-frequency changes, direct human management interventions, inadvertent human impacts on sediment supply and fluvial regimes and landscape-scale changes in climate. Historical and active metal mining is significant in this regard. Here, we investigate morphodynamic changes within a reach of the River Ystwyth, Wales, since 1845. We analyse historical and contemporary information derived from maps, river flow records , metal analyses of sediment samples (1970s and 2021), ground geomorphological surveys (1970s and 1986-1987) and remotely sensed imagery to investigate changes during a period of active metal mining followed by a century of post-mining recovery. During the studied period, an initially meandering river was transformed into a braided one, subse-

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“… b Orthorectification error (horizontal and vertical root‐mean square error) (e.g., Leonard et al, 2020). …”

Section: Methodsmentioning

confidence: 99%

“…Photographs were digitized and then orthorecitified using digital elevation models (DEMs) created with structure‐from‐motion (SfM) in AgiSoft Photoscan Professional (Version 1.4) (Bakker & Lane, 2017; Fonstad et al, 2013; Leonard et al, 2020). Average horizontal and vertical orthorectification error in SfM was 4.5 and 4 m, respectively.…”

Section: Methodsmentioning

confidence: 99%

“…The time period of active erosion in each tributary was thus identified and constrained, with the assumption that a stability or decrease in channel and arroyo dimensions from a T A B L E 1 US Geological Survey stream gages most proximal to the study forests and the years of the six largest recorded floods for each gage. The Yampa River at Deerlodge Park gage record (09260050) can be extended to 1922 using the combined record of the Lily and Maybell gages b Orthorectification error (horizontal and vertical root-mean square error) (e.g., Leonard et al, 2020).…”

Section: Constraining Time Periods Of Erosion In Tributary Watershedsmentioning

confidence: 99%

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Sediment‐ecological connectivity in a large river network

Kemper

Thaxton

Rathburn

et al. 2021

Earth Surf Processes Landf

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Sediment eroded from the headwaters of a large basin strongly influences channels and ecosystems far downstream, but the connection is often difficult to trace. Disturbance‐dependent riparian trees are thought to rely primarily on floods for formation of the sand bars necessary for seedling establishment, but pulses of sediment should also promote formation of such features. In order to expand understanding of the role of sediment connectivity in governing ecological processes, here we explore the hypothesis that cottonwood forest along the Green and Yampa Rivers in Utah and Colorado are dominated by trees established a century ago during a period of extensive channel migration caused by significant headwater erosion. Analysis of historical documents and aerial photographs suggests that three key tributaries of the Yampa River underwent significant historical erosion from roughly 1880 to 1940. Average width and depth of tributaries with defined arroyos increased two to six times from historical surveys, resulting in the export of ~30 million metric tons of sediment, sizably increasing the sediment load and channel migration rate of the Yampa and Green Rivers. Establishment of major portions of several downstream cottonwood forests occurred during this period of historical erosion, increased sediment loads, and heightened channel migration rates, and the area of forest dating to that time is much greater than can be explained by high flows alone. Viewed collectively, our findings suggest tributary erosion played a vital role in successful downstream forest establishment, a link we contend is best illustrated through a sediment‐ecological connectivity framework. Broadly, this framework facilitates consideration of linkages between morphological and ecological processes at the watershed‐scale. Development and utilization of a watershed‐scale sediment‐ecological connectivity perspective highlights the value of sediment as a critical ecological resource to be managed jointly with flow to ensure the maintenance of vital riverine ecosystems.

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Measuring channel planform change from image time series: A generalizable, spatially distributed, probabilistic method for quantifying uncertainty

Cited by 9 publications

References 68 publications

Identifying Factors That Influence Accuracy of Riparian Vegetation Classification and River Channel Delineation Mapped Using 1 m Data

Identifying Factors That Influence Accuracy of Riparian Vegetation Classification and River Channel Delineation Mapped Using 1 m Data

Biogeomorphic recovery of a river reach affected by mining

Sediment‐ecological connectivity in a large river network

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