Jason L. Dugas scite author profile

Within the context of climate change, there is a pressing need to better understand the ecological implications of changes in the frequency and intensity of climate extremes. Along subtropical coasts, less frequent and warmer freeze events are expected to permit freeze-sensitive mangrove forests to expand poleward and displace freeze-tolerant salt marshes. Here, our aim was to better understand the drivers of poleward mangrove migration by quantifying spatiotemporal patterns in mangrove range expansion and contraction across land-ocean temperature gradients. Our work was conducted in a freeze-sensitive mangrove-marsh transition zone that spans a land-ocean temperature gradient in one of the world's most wetland-rich regions (Mississippi River Deltaic Plain; Louisiana, USA). We used historical air temperature data (1893-2014), alternative future climate scenarios, and coastal wetland coverage data (1978-2011) to investigate spatiotemporal fluctuations and climate-wetland linkages. Our analyses indicate that changes in mangrove coverage have been controlled primarily by extreme freeze events (i.e., air temperatures below a threshold zone of -6.3 to -7.6°C). We expect that in the past 121 yr, mangrove range expansion and contraction has occurred across land-ocean temperature gradients. Mangrove resistance, resilience, and dominance were all highest in areas closer to the ocean where temperature extremes were buffered by large expanses of water and saturated soil. Under climate change, these areas will likely serve as local hotspots for mangrove dispersal, growth, range expansion, and displacement of salt marsh. Collectively, our results show that the frequency and intensity of freeze events across land-ocean temperature gradients greatly influences spatiotemporal patterns of range expansion and contraction of freeze-sensitive mangroves. We expect that, along subtropical coasts, similar processes govern the distribution and abundance of other freeze-sensitive organisms. In broad terms, our findings can be used to better understand and anticipate the ecological effects of changing winter climate extremes, especially within the transition zone between tropical and temperate climates.

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Characterization of vegetated and ponded wetlands with implications towards coastal wetland marsh collapse

Cadigan

Jafari

Stagg

et al. 2022

CATENA

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Louisiana Barrier Island Comprehensive Monitoring Program: Mapping habitats in beach, dune, and intertidal environments along the Louisiana Gulf of Mexico shoreline, 2008 and 2015–16

Enwright¹,

SooHoo²,

Dugas³

et al. 2020

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This effort was funded by the Louisiana Coastal Protection and Restoration Authority's (CPRA) Barrier Island Comprehensive Monitoring program. We would like to thank Syed Khalil (CPRA) for numerous helpful discussions about the habitat mapping methods and analysis for this project. We thank John Barras for his assistance with the development of coastal reach boundaries for this effort. We are grateful to Hana Thurman (Cherokee Nation Technologies) for her assistance with designing the cover graphic. Finally, we thank Syed Khalil, Glen Curole (CPRA), Brady Couvillion (U.S. Geological Survey; USGS), and Richard Day (USGS) for reviewing this report.

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Hurricane Mitch: mapping coastal habitats

Handley¹,

Thibodeaux²,

Dugas³

et al. 2003

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Hurricane Sandy impacts on Cape Hatteras (North Carolina), 2012 National Wetlands Inventory Classification

Jones¹,

Spear²,

Dugas³

et al. 2017

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Jason L. Dugas

Mangrove expansion and contraction at a poleward range limit: climate extremes and land‐ocean temperature gradients

Characterization of vegetated and ponded wetlands with implications towards coastal wetland marsh collapse

Louisiana Barrier Island Comprehensive Monitoring Program: Mapping habitats in beach, dune, and intertidal environments along the Louisiana Gulf of Mexico shoreline, 2008 and 2015–16

Hurricane Mitch: mapping coastal habitats

Hurricane Sandy impacts on Cape Hatteras (North Carolina), 2012 National Wetlands Inventory Classification

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