Journal article 75 views 9 downloads
Overcoming ecological feedbacks in seagrass restoration
,
Benjamin L. H. Jones,
Lucy Coals,
Evie Furness,
Isabella Inman,
Sam Rees,
Ally Evans
Restoration Ecology
Swansea University Authors:
Richard Unsworth , Evie Furness, Sam Rees, Ally Evans
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DOI (Published version): 10.1111/rec.14101
Abstract
Overcoming ecological feedbacks is a major limiting factor reducing the success of many seagrass restoration projects. Negative feedbacks occur when biotic or abiotic conditions of a site are changed sufficiently after the loss of seagrass to prevent its recovery, even after the original stressors a...
| Published in: | Restoration Ecology |
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| ISSN: | 1061-2971 1526-100X |
| Published: |
Wiley
2024
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| Online Access: |
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa65859 |
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| Abstract: |
Overcoming ecological feedbacks is a major limiting factor reducing the success of many seagrass restoration projects. Negative feedbacks occur when biotic or abiotic conditions of a site are changed sufficiently after the loss of seagrass to prevent its recovery, even after the original stressors are remediated. While negative feedbacks in seagrass restoration are common, there remain limited studies of ways to reduce them and kick-start the necessary positive feedbacks to promote recovery. We used field and laboratory experiments to investigate key ecological feedbacks in seagrass (Zostera marina) restoration by testing the role of hessian bags and seed burial in reducing seed predation and promoting plant development. We used a double-hurdle model approach to predict “seagrass emergence success” and “seagrass growth success” across planted field plots. We found that planting seeds in hessian bags and burying them in the sediment improved the likelihood of seeds developing into mature plants. We recorded an average 13-fold increase in shoot density for seeds planted in buried bags relative to raked furrows. This could be the combined result of reduced predation as well as bags mimicking emergent traits of mature seagrass to withstand physical impacts. We supplement these findings with laboratory evidence that hessian bags provide protection from predation by green shore crabs. Overall, we found a low and variable success rate for seed-based restoration and indicate other feedbacks in the system beyond those we controlled. However, we show that small methodological changes can help overcome some key feedbacks and improve restoration success. |
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| Keywords: |
crabs, ecological feedbacks, eelgrass, emergent traits, hessian bags, hurdle model, seed predation, Zostera |
| College: |
Faculty of Science and Engineering |
| Funders: |
Natural Environment Research Council - NE/V016385/1;
World Wildlife Fund |