Rapidly Changing Range Limits in a Warming World: Critical Data Limitations and Knowledge Gaps for Advancing Understanding of Mangrove Range Dynamics in the Southeastern USA

Rémi Bardou, Northeastern University
Michael J. Osland, United States Geological Survey
Steven Scyphers, Northeastern University
Christine Shepard, Nature Conservancy
Karen E. Aerni, Northeastern University
Jahson B. Alemu I, Northeastern University
Robert Crimian, Nature Conservancy
Richard H. Day, United States Geological Survey
Nicholas M. Enwright, United States Geological Survey
Laura C. Feher, United States Geological Survey
Sarah L. Gibbs, Northeastern University
Kiera O’Donnell, Northeastern University
Savannah H. Swinea, Northeastern University
Kalaina Thorne, Northeastern University
Sarit Truskey, Northeastern University
Anna R. Armitage, Texas A and M University at Galveston
Ronald Baker, University of South Alabama
Josh L. Breithaupt, Florida State University
Kyle C. Cavanaugh, University of California, Los Angeles
Just Cebrian, Mississippi State University
Karen Cummins, Tall Timbers Research Station
Donna J. Devlin, Texas A and M University - Corpus Christi
Jacob Doty, Texas A and M University - Corpus Christi
William L. Ellis, Saint Leo University
Ilka C. Feller, Smithsonian Environmental Research Center
Christopher A. Gabler, The University of Texas Rio Grande Valley
Yiyang Kang, University of Florida
David A. Kaplan, University of Florida
John Paul Kennedy, United States Department of Agriculture
Ken W. Krauss, United States Geological Survey
Margaret M. Lamont, United States Geological Survey
Kam biu Liu, Louisiana State University
Melinda Martinez, United States Geological Survey

Document Type

Article

Publication Date

7-1-2023

Abstract

Climate change is altering species’ range limits and transforming ecosystems. For example, warming temperatures are leading to the range expansion of tropical, cold-sensitive species at the expense of their cold-tolerant counterparts. In some temperate and subtropical coastal wetlands, warming winters are enabling mangrove forest encroachment into salt marsh, which is a major regime shift that has significant ecological and societal ramifications. Here, we synthesized existing data and expert knowledge to assess the distribution of mangroves near rapidly changing range limits in the southeastern USA. We used expert elicitation to identify data limitations and highlight knowledge gaps for advancing understanding of past, current, and future range dynamics. Mangroves near poleward range limits are often shorter, wider, and more shrublike compared to their tropical counterparts that grow as tall forests in freeze-free, resource-rich environments. The northern range limits of mangroves in the southeastern USA are particularly dynamic and climate sensitive due to abundance of suitable coastal wetland habitat and the exposure of mangroves to winter temperature extremes that are much colder than comparable range limits on other continents. Thus, there is need for methodological refinements and improved spatiotemporal data regarding changes in mangrove structure and abundance near northern range limits in the southeastern USA. Advancing understanding of rapidly changing range limits is critical for foundation plant species such as mangroves, as it provides a basis for anticipating and preparing for the cascading effects of climate-induced species redistribution on ecosystems and the human communities that depend on their ecosystem services.

Publication Source (Journal or Book title)

Estuaries and Coasts

First Page

1123

Last Page

1140

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