Restoration and resilience to sea level rise of a salt marsh affected by dieback events

Rolando, José L.; Hodges, Michael; Garcia, K. D.; Krueger, G.; Williams, Neil G.; Carr, J. A.; Robinson, John D.; George, A.; Morris, James T.; Kostka, JE

doi:10.1002/ecs2.4467

Cited by 5 publications

(2 citation statements)

References 66 publications

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“…As such, salt marshes are generally recognized as a major contributor to global coastal blue carbon ecosystems and possess enormous ecological and economic values [3,4]. Geologically, salt marshes can naturally respond to sea-level rise by the physical accumulation of mineral and Drones 2024, 8, 13 2 of 19 biogenic sediments [5,6]. Consequently, terrains and landforms can contribute to the quantitative investigation of the impact mechanism for salt-marsh dynamics, geomorphology, and sedimentation processes, as well as the acquisition of salt-marsh biomass [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Drone Multiline Light Detection and Ranging Data Filtering in Coastal Salt Marshes Using Extreme Gradient Boosting Model

Wu,

Tan,

Liu

et al. 2024

Drones

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Quantitatively characterizing coastal salt-marsh terrains and the corresponding spatiotemporal changes are crucial for formulating comprehensive management plans and clarifying the dynamic carbon evolution. Multiline light detection and ranging (LiDAR) exhibits great capability for terrain measuring for salt marshes with strong penetration performance and a new scanning mode. The prerequisite to obtaining the high-precision terrain requires accurate filtering of the salt-marsh vegetation points from the ground/mudflat ones in the multiline LiDAR data. In this study, a new alternative salt-marsh vegetation point-cloud filtering method is proposed for drone multiline LiDAR based on the extreme gradient boosting (i.e., XGBoost) model. According to the basic principle that vegetation and the ground exhibit different geometric and radiometric characteristics, the XGBoost is constructed to model the relationships of point categories with a series of selected basic geometric and radiometric metrics (i.e., distance, scan angle, elevation, normal vectors, and intensity), where absent instantaneous scan geometry (i.e., distance and scan angle) for each point is accurately estimated according to the scanning principles and point-cloud spatial distribution characteristics of drone multiline LiDAR. Based on the constructed model, the combination of the selected features can accurately and intelligently predict the category of each point. The proposed method is tested in a coastal salt marsh in Shanghai, China by a drone 16-line LiDAR system. The results demonstrate that the averaged AUC and G-mean values of the proposed method are 0.9111 and 0.9063, respectively. The proposed method exhibits enhanced applicability and versatility and outperforms the traditional and other machine-learning methods in different areas with varying topography and vegetation-growth status, which shows promising potential for point-cloud filtering and classification, particularly in extreme environments where the terrains, land covers, and point-cloud distributions are highly complicated.

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Section: Introductionmentioning

confidence: 99%

Drone Multiline Light Detection and Ranging Data Filtering in Coastal Salt Marshes Using Extreme Gradient Boosting Model

Wu,

Tan,

Liu

et al. 2024

Drones

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“…These conditions disrupt the daily cycle of inundation and exposure across Louisiana's immense wetland ecosystems. When left subaerial for prolonged periods, the marsh platform is more vulnerable to acute dieback via hypersalinity and eventually soil acidification (Alber et al., 2008; Hughes et al., 2012; Rolando et al., 2023).…”

Section: Introductionmentioning

confidence: 99%

Hydrometeorological Drivers of the 2023 Louisiana Water Crisis

Miller,

Hiatt

2024

Geophysical Research Letters

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During summer and fall 2023, Louisiana experienced a historic local drought while dry conditions elsewhere in the central US withheld vital runoff from the Mississippi River, leading to below‐normal discharge into the Gulf of Mexico. Thus, by late October 2023, Louisiana was gripped by two super‐imposed water crises: a severe local drought and saltwater contamination in the Mississippi River channel. This study frames the development of the water emergency through the lens of flash drought using the Evaporative Demand Drought Index (EDDI). The EDDI shows south Louisiana experience a flash drought during June 2023, while the Mississippi River basin was subsequently characterized by large expanses of high‐percentile EDDI in August‐September 2023 shortly before the saltwater intrusion episode along the lower Mississippi River. Over the last 15 years, MRB‐wide EDDI percentile has oscillated between years‐long elevated and depressed states, accounting for 23.7% of the monthly discharge anomaly near New Orleans.

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Factors Influencing the Resilience of Created Tidal Marshes in the Fraser River Estuary, British Columbia

Stewart,

Lievesley,

Paterson

et al. 2024

Wetlands

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More than 100 tidal marsh creation projects were constructed throughout the Fraser River Estuary, British Columbia, Canada from the 1980s to present. Past studies described and evaluated many of these projects and found varied success, but the underlying factors that determine project outcomes remain uncertain. Combining field sampling, spatial analysis, and statistical modeling of plant communities, we aim to address this knowledge gap by asking what factors influence the resilience of created marshes, as measured by (1) persistence of marsh vegetation, (2) native species dominance, and (3) species richness. We observed marsh recession in 40 of the 78 projects visited, representing 23,666 m2 (9.3%) of the 254,357 m2 of created marsh surveyed. Increases in mean site elevation had a negative effect on percent recessed area, while sites in the north branch of the river and sites further upriver were more prone to recession. From field observations and data interpretation we suggest that wake erosion and Canada Goose (Branta canadensis) herbivory may be drivers behind these losses and warrant further investigation. Dominance of native species declined with distance upriver, though invasive cattail (Typha angustifolia, T. × glauca) defied this trend, dominating outer estuary sites, particularly closed embayments, when present. Native and non-native richness shared similar patterns and were comparable between reference and created marshes, increasing on average with elevation and distance upriver. These findings offer insight into how site design and location influence the outcome of marsh creation projects, and the challenges presented by stressors and environmental change in estuaries.

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Restoration and resilience to sea level rise of a salt marsh affected by dieback events

Cited by 5 publications

References 66 publications

Drone Multiline Light Detection and Ranging Data Filtering in Coastal Salt Marshes Using Extreme Gradient Boosting Model

Drone Multiline Light Detection and Ranging Data Filtering in Coastal Salt Marshes Using Extreme Gradient Boosting Model

Hydrometeorological Drivers of the 2023 Louisiana Water Crisis

Factors Influencing the Resilience of Created Tidal Marshes in the Fraser River Estuary, British Columbia

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