Tree island pattern formation in the Florida Everglades

Carr, J. A.; D’Odorico, Paolo; Engel, V.; Redwine, Jed

doi:10.1016/j.ecocom.2016.03.007

Cited by 2 publications

(1 citation statement)

References 35 publications

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“…Soil height stabilizes when soil oxidation equilibrates with soil carbon accretion. However, modifications to regional hydrology have likely altered these feedbacks, as evidenced by recent observations of woody vegetation mortality and the loss of many tree islands (Carr, D'Odorico, Engel, & Redwine, 2016;Ruiz, Sah, Ross, & Spitzig, 2013;Wu, Rutchey, Guan, Vilchek, & Sklar, 2002). Tree island loss or conversion to treeless "ghost islands" has raised concerns over habitat diversity loss and speculation that there may ultimately be transition to a marsh state over time (D'Odorico et al, 2011;Troxler & Childers, 2009).…”

Section: Box 1 Tree Islands In the Everglades Flmentioning

confidence: 99%

A little relief: Ecological functions and autogenesis of wetland microtopography

et al. 2020

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Microtopography, or the small‐scale variation in ground surface height (10−1–100 m) over short (100–102 m) spatial scales, is a ubiquitous feature of wetlands globally. This variation in elevation, characterized by local high (“hummocks”) and low (“hollows”) patches, is more structured than what is observed in uplands, and is intertwined with concordantly structured spatiotemporal variability in hydrologic regimes and associated ecological processes. The importance of microtopography in wetlands is manifold, with critical influence on local hydrological, biogeochemical, and biological processes. Further, the creation and maintenance of wetland microtopography is a balance between activation processes (i.e., those that induce random elevation variation) and autogenic reinforcement processes (i.e., those that provide the feedbacks necessary for the persistence of microtopography). While there are many mechanisms that create vertical structure (e.g., tree falls, accumulation of roots and soil organic matter, and sediment deposition), they all yield a similar core feedback to enhance and sustain microtopographic structure. Finally, microtopography contributes to spatial patterning that confers emergent ecosystem‐scale functions such as hydrologic storage and flows, carbon cycling, organism dispersal, and biodiversity. There is an ongoing need to study the origins and implications of this fine‐scale variation in elevation, as well as the utility of including microtopography in model predictions and ecological restoration efforts. This article is categorized under: Water and Life > Conservation, Management, and Awareness

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Section: Box 1 Tree Islands In the Everglades Flmentioning

confidence: 99%

A little relief: Ecological functions and autogenesis of wetland microtopography

et al. 2020

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Development and Structural Organization of Mexico’s Mangrove Monitoring System (SMMM) as a Foundation for Conservation and Restoration Initiatives: A Hierarchical Approach

Rodríguez-Zúñiga

Souza

Cruz-López

et al. 2022

Forests

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Mangroves provide ecosystem services worth billions of dollars worldwide. Although countries with extensive mangrove areas implemented management and conservation programs since the 1980s, the global area is still decreasing. To recuperate this lost area, both restoration and rehabilitation (R/R) projects have been implemented but with limited success, especially at spatial scales needed to restore functional properties. Monitoring mangroves at different spatial scales in the long term (decades) is critical to detect potential threats and select cost-effective management criteria and performance measures to improve R/R program success. Here, we analyze the origin, development, implementation, and outcomes of a country-level mangrove monitoring system in the Neotropics covering >9000 km2 over 15 years. The Mexico’s Mangrove Monitoring System (SMMM) considers a spatiotemporal hierarchical approach as a conceptual framework where remote sensing is a key component. We analyze the role of the SMMM’s remote sensing products as a “hub” of multi- and interdisciplinary ecological and social-ecological studies to develop national priorities and inform local and regional mangrove management decisions. We propose that the SMMM products, outcomes, and lessons learned can be used as a blueprint in other developing countries where cost-effective R/R projects are planned as part of mangrove protection, conservation, and management programs.

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Tree island pattern formation in the Florida Everglades

Cited by 2 publications

References 35 publications

A little relief: Ecological functions and autogenesis of wetland microtopography

A little relief: Ecological functions and autogenesis of wetland microtopography

Development and Structural Organization of Mexico’s Mangrove Monitoring System (SMMM) as a Foundation for Conservation and Restoration Initiatives: A Hierarchical Approach

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