By Nina Colagiovanni, SRC intern
As the health and extent of coastal marine ecosystems are at risk worldwide, scientists are working diligently to reverse the damage done. Propagules––structures such as fruits, seeds, larvae and more––act to propagate an organism into the next stage of its life-cycle. They can last from days to months or remain dormant until satisfactory conditions are present. However, scientists are still learning more about how propagules can be used successfully. Research conducted by Vanderklift et al. in 2020 has analyzed the life histories of main habitat-forming taxa in six coastal marine ecosystems: mangrove forests, tidal marshes, seagrass meadows, kelp forests, coral reefs and bivalve reefs.
But you may wonder, why is this research important? Well, restoration efforts will help increase survival rates of species that cannot thrive in degraded ecosystems. And, in addition, ecological restoration can be a nature-based solution to problems that humans face, such as food security and climate change (Vanderklift et al. 2020).One example of propagule usage is mangroves, pictured in Figure 1. Mangrove trees are a diverse group of small trees or shrubs that occur worldwide. Their propagules can float for up to a few days, allowing currents to disperse them, and this is a major advantage (Vanderklift et al. 2020). Mangroves also offer a variety of other traits in which scientists can use to establish restoration techniques, some of which have been used for a long time.. Figure 2 shows eight ways in which propagules are prepared and used in restoration. A majority of these methods rely on collection and planting, such as in (a) and (b), while others like (c) use nurseries or aquaria and are more time-consuming (Vanderklift et al. 2020).
This research expressed many challenges faced by scientists. Unlike mangroves, coral reefs––pictured in Figure 3 below––pose a bigger task for scientists. Research has found that while corals regrow from their fragments, it can be both labor-intensive and limiting to specific coral taxa (Vanderklift et al. 2020). While some recovery techniques are worthwhile, they will rarely fully replace a lost habitat (Elliot et al. 2007). But as some of the greatest threats to biodiversity include habitat loss and disturbance, scientists must understand and assess restoration methods (Milbrandt et al.Propagules can restore a large area of a specific ecosystem, as well as be dispersed to different locations. Thus, they are a powerful tool for researchers. Not only does the health and extent of coastal marine ecosystems rely on the locations analyzed in this research, but working to reverse the degradation will also aid in resolving problems that humans face, such as food security, climate change and susceptibility to natural disasters (Vanderklift et al. 2020). While better techniques are still being explored, propagules will continue to aid in coastal marine ecosystem restoration efforts on a global scale.
Elliott, M., Burdon, D., Hemingway, K. L., & Apitz, S. E. (2007). Estuarine, coastal and marine ecosystem restoration: confusing management and science–a revision of concepts. Estuarine, Coastal and Shelf Science, 74(3), 349-366.
Milbrandt, E. C., Thompson, M., Coen, L. D., Grizzle, R. E., & Ward, K. (2015). A multiple habitat restoration strategy in a semi-enclosed Florida embayment, combining hydrologic restoration, mangrove propagule plantings and oyster substrate additions. Ecological Engineering, 83, 394-404.
Vanderklift, M. A., Doropoulos, C., Gorman, D., Leal, I., Minne, A. J., Statton, J., … & Wernberg, T. (2020). Using propagules to restore coastal marine ecosystems. Frontiers in Marine Science, 7, 724.